Publications of Angelos Vourlidas

A list of publications authored or co-authored by Angelos Vourlidas, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-8164-5948

List of publications ordered by citations
Number of papers: 334 (refereed: 299)
No. of citations: 19919
First author papers: 38 (refereed: 28)

2026

1. The First Quantitative Study of Cometary Tail Regrowth following a Coronal Mass Ejection-driven Disconnection Event [0]
   Shaik, Shaheda Begum, Stenborg, Guillermo, Hess, Phillip, Vourlidas, Angelos, Battams, Karl & Colaninno, Robin, ApJ, 999, 60

2025

1. The Gondola for the SUNRISE III Balloon-Borne Solar Observatory [3]
   Bernasconi, Pietro, Carpenter, Michael, Eaton, Harry, Schulze, Erich, Carkhuff, Bliss, Palo, Geoffrey, Young, Daniel, Raouafi, Nour, Vourlidas, Angelos, Coker, Robert, Solanki, Sami K., Korpi-Lagg, Andreas, Gandorfer, Achim, Feller, Alex, Riethmüller, Tino L., Smitha, H. N., Grauf, Bianca, del Toro Iniesta, Jose Carlos, Orozco Suárez, David, Katsukawa, Yukio, Kubo, Masahito, Berkefeld, Thomas, Bell, Alexander, Álvarez-Herrero, Alberto & Martínez Pillet, Valentín, Solar Physics, 300, 112
2. Minicor: a cost-effective 12U CubeSat coronagraph for the study of solar eruptions [0]
   Gutierrez, Gabriel, Casadei, Giorgia, Bozzoli, Ludovica, Pereira, Miguel, Hoenninger, Corbett, Mertes, Robert, Vourlidas, Angelos, Magner, Aaron, Reynolds, Edward, Thernisien, Arnaud & Korendyke, Clarence, Small Satellites Systems and Services Symposium (4S 2024 (Editors: Petrozzi-Ilstad, Max), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 13546, p. 135461X
3. Modelling gyrosynchrotron emission from coronal energetic electrons in a CME flux rope [2]
   Husidic, E., Wijsen, N., Jebaraj, I. C., Vourlidas, A., Linan, L., Vainio, R. & Poedts, S., A&A, 701, A53
4. Coronal Mass Ejection─Induced Sub-Alfvénic Solar Wind: Key Insights from Parker Solar Probe [3]
   Jagarlamudi, Vamsee Krishna, Braga, Carlos R., Raouafi, Nour E. & Vourlidas, Angelos, ApJ, 989, 133
5. A Formalism for Calibrating the Instrumental Polarization of Radio Interferometric Arrays at Meter Wavelengths Using Unpolarized Sky: A Demonstration Using MWA Observations [3]
   Kansabanik, Devojyoti, Vourlidas, Angelos, Dey, Soham, Mondal, Surajit & Oberoi, Divya, ApJS, 278, 26
6. The Polytropic Index of Interplanetary Coronal Mass Ejections near L1 [5]
   Katsavrias, C., Nicolaou, G., Livadiotis, G., Vourlidas, A., Wilson, L. B., III & Sandberg, I., A&A, 695, A146
7. New Measures of STEREO CME Masses and Directions [0]
   Kay, C., Vourlidas, A. & Balmaceda, L. A., ApJ, 994, 179
8. SUNRISE III: Overview of Observatory and Instruments [17]
   Korpi-Lagg, Andreas, Gandorfer, Achim, Solanki, Sami K., del Toro Iniesta, Jose Carlos, Katsukawa, Yukio, Bernasconi, Pietro, Berkefeld, Thomas, Feller, Alex, Riethmüller, Tino L., Álvarez-Herrero, Alberto, Kubo, Masahito, Martínez Pillet, Valentín, Smitha, H. N., Orozco Suárez, David, Grauf, Bianca, Carpenter, Michael, Bell, Alexander, Álvarez-Alonso, María-Teresa, Álvarez García, Daniel, Aparicio del Moral, Beatriz, Atiénzar, Julia, Ayoub, Daniel, Bailén, Francisco Javier, Bailón Martínez, Eduardo, Balaguer Jiménez, Maria, Barthol, Peter, Bayon Laguna, Montserrat, Bellot Rubio, Luis R., Bergmann, Melani, Blanco Rodríguez, Julian, Bochmann, Jan, Borrero, Juan Manuel, Campos-Jara, Antonio, Castellanos Durán, Juan Sebastián, Cebollero, María, Conde Rodríguez, Aitor, Deutsch, Werner, Eaton, Harry, Fernández-Medina, Ana Belen, Fernandez-Rico, German, Ferreres, Agustin, García, Andrés, García Alarcia, Ramón María, García Parejo, Pilar, Garranzo-García, Daniel, Gasent Blesa, José Luis, Gerber, Karin, Germerott, Dietmar, Gilabert Palmer, David, Gizon, Laurent, Gómez Sánchez-Tirado, Miguel Angel, González-Bárcena, David, Gonzalo Melchor, Alejandro, Goodyear, Sam, Hara, Hirohisa, Harnes, Edvarda, Heerlein, Klaus, Heidecke, Frank, Heinrichs, Jan, Hernández Expósito, David, Hirzberger, Johann, Hoelken, Johannes, Hyun, Sangwon, Iglesias, Francisco A., Ishikawa, Ryohtaroh T., Jeon, Minwoo, Kawabata, Yusuke, Kolleck, Martin, Laguna, Hugo, Lomas, Julian, López Jiménez, Antonio C., Manzano, Paula, Matsumoto, Takuma, Mayo Turrado, David, Meierdierks, Thimo, Meining, Stefan, Monecke, Markus, Morales-Fernández, José Miguel, Moreno Mantas, Antonio Jesús, Moreno Vacas, Alejandro, Müller, Marc Ferenc, Müller, Reinhard, Naito, Yoshihiro, Nakai, Eiji, Núñez Peral, Armonía, Oba, Takayoshi, Palo, Geoffrey, Pérez-Grande, Isabel, Piqueras Carreño, Javier, Preis, Tobias, Przybylski, Damien, Quintero Noda, Carlos, Ramanath, Sandeep, Ramos Más, Jose Luis, Raouafi, Nour, Rivas-Martínez, María-Jesús, Rodríguez Martínez, Pedro, Rodríguez Valido, Manuel, Ruiz Cobo, Basilio, Sánchez Rodríguez, Antonio, Sanchez Toledo, Mariano, Sánchez Gómez, Antonio, Sanchis Kilders, Esteban, Sant, Kamal, Santamarina Guerrero, Pablo, Schulze, Erich, Shimizu, Toshifumi, Silva-López, Manuel, Singh, Kunal, Siu-Tapia, Azaymi L., Sonner, Thomas, Staub, Jan, Strecker, Hanna, Tobaruela, Angel, Torralbo, Ignacio, Tritschler, Alexandra, Tsuzuki, Toshihiro, Uraguchi, Fumihiro, Volkmer, Reiner, Vourlidas, Angelos, Vukadinović, Dušan, Werner, Stephan & Zerr, Andreas, Solar Physics, 300, 75
9. Shock and SEP Modeling Study for the 2022 September 5 SEP Event [12]
   Kouloumvakos, A., Wijsen, N., Jebaraj, I. C., Afanasiev, A., Lario, D., Cohen, C. M. S., Riley, P., Mitchell, D. G., Ding, Z., Vourlidas, A., Giacalone, J., Chen, X. & Hill, M. E., ApJ, 979, 100
10. Analysis of WISPR Images of the Near-Sun Heliospheric Current Sheet Region from Parker Solar Probe Encounters 4 and 5 and Comparison with the in Situ Observations [2]
    Liewer, Paulett C., Badman, Samuel T., Linton, Mark, Phan, T. D., Stenborg, Guillermo & Vourlidas, Angelos, ApJ, 990, 24
11. Understanding the Complex Morphology of a Coronal Mass Ejection: Multiview Analysis and Numerical Modeling [0]
    Mac Cormack, Cecilia, Sahade, Abril, Vourlidas, Angelos, Hess, Phillip, Colaninno, Robin & Nieves-Chinchilla, Teresa, ApJ, 988, 180
12. Radial Dependence of Ion Fluences in the 2023 July 17 Solar Energetic Particle Event from Parker Solar Probe to STEREO and ACE [6]
    Muro, G. D., Cohen, C. M. S., Xu, Z., Leske, R. A., Christian, E. R., Cummings, A. C., De Nolfo, G., Desai, M. I., Fraschetti, F., Giacalone, J., Labrador, A., McComas, D. J., Mitchell, J. G., Mitchell, D. G., Rankin, J., Schwadron, N. A., Shen, M., Wiedenbeck, M. E., Bale, S. D., Romeo, O. & Vourlidas, A., ApJ, 981, 8
13. How the CME on 2023 April 21 Triggered the First Severe Geomagnetic Storm of Solar Cycle 25 [4]
    Paouris, Evangelos, Vourlidas, Angelos, Georgoulis, Manolis K., Hess, Phillip & Stenborg, Guillermo, ApJ, 982, 194
14. HELIOS: A Visualization Tool to Decipher the Locations and Dynamical Properties of Expanding Small Magnetic Flux Ropes in the Corona [1]
    Paouris, Evangelos, Vourlidas, Angelos & Stenborg, Guillermo, ApJS, 281, 62
15. Analysis of Solar Eruptions Deflecting in the Low Corona: Influence of the Magnetic Environment [7]
    Sahade, Abril, Vourlidas, Angelos & Mac Cormack, Cecilia, ApJ, 978, 41
16. Imaging the Solar Corona from "Within": A Cutting-edge Approach to Enhance PSP/WISPR Imagery [4]
    Stenborg, Guillermo, Vourlidas, Angelos & Howard, Russell A., ApJS, 280, 21
17. Coronal dimmings and what they tell us about solar and stellar coronal mass ejections [16]
    Veronig, Astrid M., Dissauer, Karin, Kliem, Bernhard, Downs, Cooper, Hudson, Hugh S., Jin, Meng, Osten, Rachel, Podladchikova, Tatiana, Prasad, Avijeet, Qiu, Jiong, Thompson, Barbara, Tian, Hui & Vourlidas, Angelos, Living Reviews in Solar Physics, 22, 2
18. High-resolution Imaging of the Magnetic Reconfiguration of the Corona from inside the Corona by WISPR on Parker Solar Probe [2]
    Vourlidas, Angelos, Paouris, Evangelos, Linton, Mark G., Stenborg, Guillermo, Liewer, Paulett C., Riley, Pete, Hess, Phillip, Howard, Russell A. & Raouafi, Nour E., ApJ, 995, L38

2024

1. Radio Signature of the Strong Compression between a Streamer and a Coronal Hole Boundary [1]
   Aguilar-Rodriguez, E., Vourlidas, A., Corona-Romero, P., Monstein, C., Reeve, W. D., Romero-Hernandez, E., Andrade-Mascote, E., Villanueva-Hernandez, P., Peralta-Mendoza, I. A., Perez-Leon, J. E. & Perez-Tijerina, E., ApJ, 970, L35
2. Connecting the Low to High Corona: Propagating Disturbances as Tracers of the Near-Sun Solar Wind [11]
   Alzate, Nathalia, Di Matteo, Simone, Morgan, Huw, Viall, Nicholeen & Vourlidas, Angelos, ApJ, 973, 130
3. A Coronal Mass Ejection Impacting Parker Solar Probe at 14 Solar Radii [8]
   Braga, Carlos R., Jagarlamudi, Vamsee Krishna, Vourlidas, Angelos, Stenborg, Guillermo & Nieves-Chinchilla, Teresa, ApJ, 965, 185
4. Internal magnetic field structures observed by PSP/WISPR in a filament-related coronal mass ejection [12]
   Cappello, G. M., Temmer, M., Vourlidas, A., Braga, C., Liewer, P. C., Qiu, J., Stenborg, G., Kouloumvakos, A., Veronig, A. M. & Bothmer, V., A&A, 688, A162
5. Observations of the 2022 September 5 Solar Energetic Particle Event at 15 Solar Radii [21]
   Cohen, C. M. S., Leske, R. A., Christian, E. R., Cummings, A. C., de Nolfo, G. A., Desai, M. I., Giacalone, J., Hill, M. E., Labrador, A. W., McComas, D. J., McNutt, R. L., Mewaldt, R. A., Mitchell, D. G., Mitchell, J. G., Muro, G. D., Rankin, J. S., Schwadron, N. A., Sharma, T., Shen, M. M., Szalay, J. R., Wiedenbeck, M. E., Xu, Z. G., Romeo, O., Vourlidas, A., Bale, S. D., Pulupa, M., Kasper, J. C., Larson, D. E., Livi, R. & Whittlesey, P., ApJ, 966, 148
6. The SOHO LASCO CME Catalog -- Version 2 [22]
   Gopalswamy, Nat, Michałek, Grzegorz, Yashiro, Seiji, Mäkelä, Pertti, Akiyama, Sachiko, Xie, Hong & Vourlidas, Angelos, arXiv:2407.04165
7. SuNeRF: 3D Reconstruction of the Solar EUV Corona Using Neural Radiance Fields [10]
   Jarolim, Robert, Tremblay, Benoit, Muñoz-Jaramillo, Andrés, Bintsi, Kyriaki-Margarita, Jungbluth, Anna, Santos, Miraflor, Vourlidas, Angelos, Mason, James P., Sundaresan, Sairam, Downs, Cooper & Caplan, Ronald M., ApJ, 961, L31
8. Preparing for Heliopolarimetry using New-generation Ground-based Radio Telescopes [1]
   Kansabanik, Devojyoti & Voulidas, Angelos, arXiv:2407.05222
9. Heliophysics Great Observatories and international cooperation in Heliophysics: An orchestrated framework for scientific advancement and discovery [7]
   Kepko, Larry, Nakamura, Rumi, Saito, Yoshifumi, Vourlidas, Angelos, Taylor, Matthew G. G. T., Mandrini, Cristina H., Blanco-Cano, Xóchitl, Chakrabarty, Dibyendu, Daglis, Ioannis A., De Nardin, Clezio Marcos, Petrukovich, Anatoli, Palmroth, Minna, Ho, George, Harra, Louise, Rae, Jonathan, Owens, Mathew, Donovan, Eric, Lavraud, Benoit, Reeves, Geoff, Tripathi, Durgesh, Vilmer, Nicole, Hwang, Junga, Antiochos, Spiro & Wang, Chi, Advances in Space Research, 73, 5383
10. Challenges in Forecasting the Evolution of a Distorted CME Observed During the First Close Solar Orbiter Perihelion [1]
    Liberatore, Alessandro, Braga, Carlos R., Temmer, Manuela, Cappello, Greta M., Telloni, Daniele, Liewer, Paulett C., Vourlidas, Angelos, Velli, Marco, Heyner, Daniel, Auster, Hans-Ulrich, Richter, Ingo, Schmid, Daniel, Fischer, David & Möstl, Christian, ApJ, 970, 81
11. Evidence of Continuous Reconnection along a Helmet Streamer Current Sheet Observed by WISPR on Parker Solar Probe [12]
    Liewer, Paulett C., Gallagher, Brendan M., Stenborg, Guillermo, Linton, Mark G., Qiu, Jiong, Vourlidas, Angelos, Ascione, Madison L. & Velli, Marco, ApJ, 970, 79
12. First Direct Imaging of a Kelvin─Helmholtz Instability by PSP/WISPR [13]
    Paouris, Evangelos, Stenborg, Guillermo, Linton, Mark G., Vourlidas, Angelos, Howard, Russell A. & Raouafi, Nour E., ApJ, 964, 139
13. MHD Modeling of a Geoeffective Interplanetary Coronal Mass Ejection with the Magnetic Topology Informed by In Situ Observations [14]
    Provornikova, Elena, Merkin, Viacheslav G., Vourlidas, Angelos, Malanushenko, Anna, Gibson, Sarah E., Winter, Eric & Arge, Charles N., ApJ, 977, 106
14. Parker Solar Probe Observations of Energetic Particles in the Flank of a Coronal Mass Ejection Close to the Sun [6]
    Schwadron, N. A., Bale, Stuart D., Bonnell, J., Case, A., Shen, M., Christian, E. R., Cohen, C. M. S., Davis, A. J., Desai, M. I., Goetz, K., Giacalone, J., Hill, M. E., Kasper, J. C., Korreck, K., Larson, D., Livi, R., Lim, T., Leske, R. A., Malandraki, O., Malaspina, D., Matthaeus, W. H., McComas, D. J., McNutt, R. L., Mewaldt, R. A., Mitchell, D. G., Niehof, J. T., Pulupa, M., Pecora, Francesco, Rankin, J. S., Smith, C., Stone, E. C., Szalay, J. R., Vourlidas, A., Wiedenbeck, M. E. & Whittlesey, P., ApJ, 970, 98
15. Novel Insights on the Dust Distribution in the Zodiacal Dust Cloud from PSP/WISPR Observations at Large Elongations [4]
    Stenborg, Guillermo, Vourlidas, Angelos, Paouris, Evangelos & Howard, Russell A., ApJ, 972, 24
16. Spitzer Resurrector Mission: Advantages for Space Weather Research and Operations [0]
    Usman, Shawn M., Fazio, Giovanni G., Grasso, Christopher A., Hickox, Ryan C., Lance, Cameo, Rideout, William B., Singh, Daveanand M., Smith, Howard A., Vourlidas, Angelos, Hora, Joseph L., Melnick, Gary J., Ashby, Matthew, Tolls, Volker, Willner, Steven & Benitez, Salma, Aerospace, 11, 560
17. Unraveling the Origins of an Extreme Solar Eruptive Event with Hard X-Ray Imaging Spectroscopy [4]
    Vievering, Juliana T., Vourlidas, Angelos & Krucker, Säm, ApJ, 972, 48
18. Electron Cyclotron Maser Emission and the Brightest Solar Radio Bursts [5]
    White, Stephen M., Shimojo, Masumi, Iwai, Kazumasa, Bastian, Timothy S., Fleishman, Gregory D., Gary, Dale E., Magdalenic, Jasmina & Vourlidas, Angelos, ApJ, 969, 3

2023

1. Visualization Tools for Remote Sensing Data [0]
   Alzate, Nathalia, Morgan, Huw, Viall, Nicholeen, Vourlidas, Angelos, Di Matteo, Simone & Thompson, Barbara, Data, Analysis and Software in Heliophysics (DASH) 2023, p. 13
2. Data mining for science of the sun-earth connection as a single system [1]
   Alzate, Nathalia, Di Matteo, Simone, Morgan, Huw, Seaton, Daniel B., Miralles, Mari Paz, Balmaceda, Laura, Kirk, Michael S., West, Matthew, DeForest, Craig & Vourlidas, Angelos, Frontiers in Astronomy and Space Sciences, 10, 1151785
3. Characterizing the specific energy and pressure in near-Earth magnetic clouds [2]
   Bhattacharjee, Debesh, Subramanian, Prasad, Vourlidas, Angelos, Nieves-Chinchilla, Teresa, Thejaswi, Niranjana & Sachdeva, Nishtha, A&A, 669, A153
4. Turbulence and anomalous resistivity inside near-Earth magnetic clouds [7]
   Bhattacharjee, Debesh, Subramanian, Prasad, Nieves-Chinchilla, Teresa & Vourlidas, Angelos, MNRAS, 518, 1185
5. SoloHI observations of coronal mass ejections observed by multiple spacecraft [12]
   Hess, P., Colaninno, R. C., Vourlidas, A., Howard, R. A. & Stenborg, G., A&A, 679, A149
6. The evolution of our understanding of coronal mass ejections [14]
   Howard, Russell A., Vourlidas, Angelos & Stenborg, Guillermo, Frontiers in Astronomy and Space Sciences, 10, 1264226
7. Multi-spacecraft Observations of the 2022 March 25 CME and EUV Wave: An Analysis of Their Propagation and Interrelation [7]
   Liberatore, Alessandro, Liewer, Paulett C., Vourlidas, Angelos, Braga, Carlos R., Velli, Marco, Panasenco, Olga, Telloni, Daniele & Mancuso, Salvatore, ApJ, 957, 110
8. Structure of the Plasma near the Heliospheric Current Sheet as Seen by WISPR/Parker Solar Probe from inside the Streamer Belt [25]
   Liewer, Paulett C., Vourlidas, Angelos, Stenborg, Guillermo, Howard, Russell A., Qiu, Jiong, Penteado, Paulo, Panasenco, Olga & Braga, Carlos R., ApJ, 948, 24
9. A WISPR of the Venus Surface: Analysis of the Venus Nightside Thermal Emission at Optical Wavelengths [4]
   Lustig-Yaeger, J., Izenberg, N. R., Gilmore, M. S., Mayorga, L. C., May, E. M., Vourlidas, A., Hess, P., Wood, B. E., Howard, R. A., Raouafi, N. E. & Arney, G. N., The Planetary Science Journal, 4, 207
10. Solar Physics in the 2020s: DKIST, Parker Solar Probe, and Solar Orbiter as a Multi-Messenger Constellation [5]
    Martinez Pillet, V., Cauzzi, G., Tritschler, A., Harra, L., Andretta, V., Vourlidas, A., Raouafi, N., Alterman, B. L., Bellot Rubio, L., Cranmer, S. R., Gibson, S., De Groof, A., Ko, Y.-K., Lepri, S. T., Linker, J., Malaspina, D. M., Matthews, S., Müller, D., Parenti, S., Petrie, G., Spadaro, D., Ugarte-Urra, I., Warren, H. & Zouganelis, I., The Era of Multi-Messenger Solar Physics (Editors: Cauzzi, Gianna & Tritschler, Alexandra), IAU Symposium, 372, p. 3
11. Three Eruptions Observed by Remote Sensing Instruments Onboard Solar Orbiter [4]
    Mierla, Marilena, Cremades, Hebe, Andretta, Vincenzo, Chifu, Iulia, Zhukov, Andrei N., Susino, Roberto, Auchère, Frédéric, Vourlidas, Angelos, Talpeanu, Dana-Camelia, Rodriguez, Luciano, Janssens, Jan, Nicula, Bogdan, Aznar Cuadrado, Regina, Berghmans, David, Bemporad, Alessandro, D'Huys, Elke, Dolla, Laurent, Gissot, Samuel, Jerse, Giovanna, Kraaikamp, Emil, Long, David M., Mampaey, Benjamin, Möstl, Christian, Pagano, Paolo, Parenti, Susanna, West, Matthew J., Podladchikova, Olena, Romoli, Marco, Sasso, Clementina, Stegen, Koen, Teriaca, Luca, Thompson, William, Verbeeck, Cis & Davies, Emma, Solar Physics, 298, 42
12. The Space Weather Context of the First Extreme Event of Solar Cycle 25, on 2022 September 5 [17]
    Paouris, Evangelos, Vourlidas, Angelos, Kouloumvakos, Athanasios, Papaioannou, Athanasios, Jagarlamudi, Vamsee Krishna & Horbury, Timothy, ApJ, 956, 58
13. SEP forecasting: An ML approach utilizing solar flare and CME characteristics [0]
    Paouris, Evangelos, Kouloumvakos, Athanasios, Papaioannou, Athanasios & Vourlidas, Angelos, Data, Analysis and Software in Heliophysics (DASH) 2023, p. 8
14. Constraints on the variable nature of the slow solar wind with the Wide-Field Imager on board the Parker Solar Probe [2]
    Patsourakos, S., Vourlidas, A. & Nindos, A., A&A, 676, A125
15. Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum [150]
    Raouafi, N. E., Matteini, L., Squire, J., Badman, S. T., Velli, M., Klein, K. G., Chen, C. H. K., Matthaeus, W. H., Szabo, A., Linton, M., Allen, R. C., Szalay, J. R., Bruno, R., Decker, R. B., Akhavan-Tafti, M., Agapitov, O. V., Bale, S. D., Bandyopadhyay, R., Battams, K., Berčič, L., Bourouaine, S., Bowen, T. A., Cattell, C., Chandran, B. D. G., Chhiber, R., Cohen, C. M. S., D'Amicis, R., Giacalone, J., Hess, P., Howard, R. A., Horbury, T. S., Jagarlamudi, V. K., Joyce, C. J., Kasper, J. C., Kinnison, J., Laker, R., Liewer, P., Malaspina, D. M., Mann, I., McComas, D. J., Niembro-Hernandez, T., Nieves-Chinchilla, T., Panasenco, O., Pokorný, P., Pusack, A., Pulupa, M., Perez, J. C., Riley, P., Rouillard, A. P., Shi, C., Stenborg, G., Tenerani, A., Verniero, J. L., Viall, N., Vourlidas, A., Wood, B. E., Woodham, L. D. & Woolley, T., Space Science Reviews, 219, 8
16. Understanding the Deflection of the "Cartwheel CME": Data Analysis and Modeling [15]
    Sahade, Abril, Vourlidas, Angelos, Balmaceda, Laura A. & Cécere, Mariana, ApJ, 953, 150
17. How Magnetic Erosion Affects the Drag-Based Kinematics of Fast Coronal Mass Ejections [10]
    Stamkos, Sotiris, Patsourakos, Spiros, Vourlidas, Angelos & Daglis, Ioannis A., Solar Physics, 298, 88
18. Investigating Coronal Holes and CMEs as Sources of Brightness Depletion Detected in PSP/WISPR Images [13]
    Stenborg, Guillermo, Paouris, Evangelos, Howard, Russell A., Vourlidas, Angelos & Hess, Phillip, ApJ, 949, 61
19. CME Propagation Through the Heliosphere: Status and Future of Observations and Model Development [17]
    Temmer, M., Scolini, C., Richardson, I. G., Heinemann, S. G., Paouris, E., Vourlidas, A., Bisi, M. M., writing teams, :, Al-Haddad, N., Amerstorfer, T., Barnard, L., Buresova, D., Hofmeister, S. J., Iwai, K., Jackson, B. V., Jarolim, R., Jian, L. K., Linker, J. A., Lugaz, N., Manoharan, P. K., Mays, M. L., Mishra, W., Owens, M. J., Palmerio, E., Perri, B., Pomoell, J., Pinto, R. F., Samara, E., Singh, T., Sur, D., Verbeke, C., Veronig, A. M. & Zhuang, B., arXiv:2308.04851
20. Sun Neural Radiance Fields (SuNeRFs): From Images to 4D Models of the Solar Atmosphere [0]
    Tremblay, Benoit, Jarolim, Robert, Munoz-Jaramillo, Andrés, Bintsi, Kyriaki-Margarita, Jungbluth, Anna, Santos, Miraflor, Vourlidas, Angelos, Mason, James P., Sundaresan, Sairam, Downs, Cooper & Caplan, Ronald M., Data, Analysis and Software in Heliophysics (DASH) 2023, p. 21
21. Development of multi-layer achromatic metasurface Risley prisms for a scanning coronal and heliospheric imager [0]
    Vievering, Juliana T., Shrekenhamer, David, Vourlidas, Angelos, Centurelli, Joseph, Miragliotta, Joseph, Weiler, Chad, Lane, Nora, Bonnema, Garret, Oh, Lance & Bruce, Robert, UV/Optical/IR Space Telescopes and Instruments: Innovative Technologies and Concepts XI (Editors: Barto, Allison A., Keller, Fanny & Stahl, H. Philip), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 12676, p. 126760N
22. Evolution of Solar Eruptive Events: Investigating the Relationships among Magnetic Reconnection, Flare Energy Release, and Coronal Mass Ejections [7]
    Vievering, Juliana T., Vourlidas, Angelos, Zhu, Chunming, Qiu, Jiong & Glesener, Lindsay, ApJ, 946, 81
23. Defining the Middle Corona [57]
    West, Matthew J., Seaton, Daniel B., Wexler, David B., Raymond, John C., Del Zanna, Giulio, Rivera, Yeimy J., Kobelski, Adam R., Chen, Bin, DeForest, Craig, Golub, Leon, Caspi, Amir, Gilly, Chris R., Kooi, Jason E., Meyer, Karen A., Alterman, Benjamin L., Alzate, Nathalia, Andretta, Vincenzo, Auchère, Frédéric, Banerjee, Dipankar, Berghmans, David, Chamberlin, Phillip, Chitta, Lakshmi Pradeep, Downs, Cooper, Giordano, Silvio, Harra, Louise, Higginson, Aleida, Howard, Russell A., Kumar, Pankaj, Mason, Emily, Mason, James P., Morton, Richard J., Nykyri, Katariina, Patel, Ritesh, Rachmeler, Laurel, Reardon, Kevin P., Reeves, Katharine K., Savage, Sabrina, Thompson, Barbara J., Van Kooten, Samuel J., Viall, Nicholeen M., Vourlidas, Angelos & Zhukov, Andrei N., Solar Physics, 298, 78

2022

1. The Hyper-inflation Stage in the Coronal Mass Ejection Formation: A Missing Link That Connects Flares, Coronal Mass Ejections, and Shocks in the Low Corona [12]
   Balmaceda, Laura A., Vourlidas, Angelos, Stenborg, Guillermo & Kwon, Ryun-Young, ApJ, 931, 141
2. On Modeling ICME Cross-Sections as Static MHD Columns [4]
   Bhattacharjee, Debesh, Subramanian, Prasad, Bothmer, Volker, Nieves-Chinchilla, Teresa & Vourlidas, Angelos, Solar Physics, 297, 45
3. SuNeRF: Validation of a 3D Global Reconstruction of the Solar Corona Using Simulated EUV Images [4]
   Bintsi, Kyriaki-Margarita, Jarolim, Robert, Tremblay, Benoit, Santos, Miraflor, Jungbluth, Anna, Mason, James Paul, Sundaresan, Sairam, Vourlidas, Angelos, Downs, Cooper, Caplan, Ronald M. & Muñoz Jaramillo, Andrés, arXiv:2211.14879
4. Coronal Mass Ejection Deformation at 0.1 au Observed by WISPR [22]
   Braga, Carlos R., Vourlidas, Angelos, Liewer, Paulett C., Hess, Phillip, Stenborg, Guillermo & Riley, Pete, ApJ, 938, 13
5. Small Satellite Mission Concepts for Space Weather Research and as Pathfinders for Operations [11]
   Caspi, Amir, Barthelemy, M., Bussy-Virat, C. D., Cohen, I. J., DeForest, C. E., Jackson, D. R., Vourlidas, A. & Nieves-Chinchilla, T., Space Weather, 20, e2020SW002554
6. Overview of the Remote Sensing Observations from PSP Solar Encounter 10 with Perihelion at 13.3 R _☉ [34]
   Howard, Russell A., Stenborg, Guillermo, Vourlidas, Angelos, Gallagher, Brendan M., Linton, Mark G., Hess, Phillip, Rich, Nathan B. & Liewer, Paulett C., ApJ, 936, 43
7. PyThea: An open-source software package to perform 3D reconstruction of coronal mass ejections and shock waves [21]
   Kouloumvakos, Athanasios, Rodríguez-García, Laura, Gieseler, Jan, Price, Daniel J., Vourlidas, Angelos & Vainio, Rami, Frontiers in Astronomy and Space Sciences, 9, 974137
8. Extracting the Heliographic Coordinates of Coronal Rays Using Images from WISPR/Parker Solar Probe [12]
   Liewer, P. C., Qiu, J., Ark, F., Penteado, P., Stenborg, G., Vourlidas, A., Hall, J. R. & Riley, P., Solar Physics, 297, 128
9. Time-of-Arrival of Coronal Mass Ejections: A Two-Phase Kinematics Approach Based on Heliospheric Imaging Observations [0]
   Paouris, Evangelos & Vourlidas, Angelos, essoar.10510653
10. Evidence of a complex structure within the 2013 August 19 coronal mass ejection. Radial and longitudinal evolution in the inner heliosphere [22]
    Rodríguez-García, L., Nieves-Chinchilla, T., Gómez-Herrero, R., Zouganelis, I., Vourlidas, A., Balmaceda, L. A., Dumbović, M., Jian, L. K., Mays, L., Carcaboso, F., dos Santos, L. F. G. & Rodríguez-Pacheco, J., A&A, 662, A45
11. PSP/WISPR Observations of Dust Density Depletion near the Sun. II. New Insights from within the Depletion Zone [12]
    Stenborg, Guillermo, Howard, Russell A., Vourlidas, Angelos & Gallagher, Brendan, ApJ, 932, 75
12. Coronal and heliospheric imaging with achromatic metasurfaces pathfinder (CHAMP) [0]
    Vievering, Juliana T., Shrekenhamer, David, Vourlidas, Angelos, Lane, Nora, Centurelli, Joseph, Bonnema, Garret, Weiler, Chad, Miragliotta, Joseph, Oh, Lance & Bruce, Robert, Space Telescopes and Instrumentation 2022: Optical, Infrared, and Millimeter Wave (Editors: Coyle, Laura E., Matsuura, Shuji & Perrin, Marshall D.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 12180, p. 121803G
13. On the importance of investigating CME complexity evolution during interplanetary propagation [11]
    Winslow, Réka M., Scolini, Camilla, Jian, Lan K., Nieves-Chinchilla, Teresa, Temmer, Manuela, Carcaboso, Fernando, Schmieder, Brigitte, Poedts, Stefaan, Lynch, Benjamin J., Wood, Brian E., Palmerio, Erika, Lugaz, Noé, Farrugia, Charles J., Lee, Christina O., Davies, Emma E., Regnault, Florian, Salman, Tarik M., Török, Tibor, Al-Haddad, Nada, Vourlidas, Angelos, Manchester, Ward B., Jin, Meng, Lavraud, Benoit & Galvin, Antoinette B., Frontiers in Astronomy and Space Sciences, 9, 422
14. Parker Solar Probe Imaging of the Night Side of Venus [14]
    Wood, Brian E., Hess, Phillip, Lustig-Yaeger, Jacob, Gallagher, Brendan, Korwan, Daniel, Rich, Nathan, Stenborg, Guillermo, Thernisien, Arnaud, Qadri, Syed N., Santiago, Freddie, Peralta, Javier, Arney, Giada N., Izenberg, Noam R., Vourlidas, Angelos, Linton, Mark G., Howard, Russell A. & Raouafi, Nour E., Geophysical Research Letters, 49, e96302

2021

1. Connecting the Low to the High Corona: A Method to Isolate Transients in STEREO/COR1 Images [18]
   Alzate, Nathalia, Morgan, Huw, Viall, Nicholeen & Vourlidas, Angelos, ApJ, 919, 98
2. On the Rigidity Spectrum of Cosmic-Ray Variations within Propagating Interplanetary Disturbances: Neutron Monitor and SOHO/EPHIN Observations at ∼1-10 GV [14]
   Belov, Anatoly, Papaioannou, Athanasios, Abunina, Maria, Dumbovic, Mateja, Richardson, Ian G., Heber, Bernd, Kuhl, Patrick, Herbst, Konstantin, Anastasiadis, Anastasios, Vourlidas, Angelos, Eroshenko, Eugenia & Abunin, Artem, ApJ, 908, 5
3. Coronal mass ejections observed by heliospheric imagers at 0.2 and 1 au. The events on April 1 and 2, 2019 [20]
   Braga, Carlos R. & Vourlidas, Angelos, A&A, 650, A31
4. Parker Solar Probe observations of He/H abundance variations in SEP events inside 0.5 au [22]
   Cohen, C. M. S., Christian, E. R., Cummings, A. C., Davis, A. J., Desai, M. I., de Nolfo, G. A., Giacalone, J., Hill, M. E., Joyce, C. J., Labrador, A. W., Leske, R. A., Matthaeus, W. H., McComas, D. J., McNutt, R. L., Mewaldt, R. A., Mitchell, D. G., Mitchell, J. G., Rankin, J. S., Roelof, E. C., Schwadron, N. A., Stone, E. C., Szalay, J. R., Wiedenbeck, M. E., Vourlidas, A., Bale, S. D., Pulupa, M. & MacDowall, R. J., A&A, 650, A23
5. PSP/IS☉IS observations of the 29 November 2020 solar energetic particle event [30]
   Cohen, C. M. S., Christian, E. R., Cummings, A. C., Davis, A. J., Desai, M. I., de Nolfo, G. A., Giacalone, J., Hill, M. E., Joyce, C. J., Labrador, A. W., Leske, R. A., Matthaeus, W. H., McComas, D. J., McNutt, R. L., Mewaldt, R. A., Mitchell, D. G., Mitchell, J. G., Rankin, J. S., Roelof, E. C., Schwadron, N. A., Stone, E. C., Szalay, J. R., Wiedenbeck, M. E., Vourlidas, A., Bale, S. D., Pulupa, M. & MacDowall, R. J., A&A, 656, A29
6. Validation of Global EUV Wave MHD Simulations and Observational Techniques [41]
   Downs, Cooper, Warmuth, Alexander, Long, David M., Bloomfield, D. Shaun, Kwon, Ryun-Young, Veronig, Astrid M., Vourlidas, Angelos & Vršnak, Bojan, ApJ, 911, 118
7. In-flight Calibration and Data Reduction for the WISPR Instrument On Board the PSP Mission [20]
   Hess, Phillip, Howard, Russell A., Stenborg, Guillermo, Linton, Mark, Vourlidas, Angelos, Thernisien, Arnaud, Colaninno, Robin, Rich, Nathan, Wang, Dennis, Battams, Karl & Kuroda, Natsuha, Solar Physics, 296, 94
8. On the Quasi-Three Dimensional Configuration of Magnetic Clouds [12]
   Hu, Qiang, He, Wen, Qiu, Jiong, Vourlidas, Angelos & Zhu, Chunming, Geophysical Research Letters, 48, e90630
9. Energetic particle evolution during coronal mass ejection passage from 0.3 to 1 AU [10]
   Joyce, C. J., McComas, D. J., Schwadron, N. A., Vourlidas, A., Christian, E. R., McNutt, R. L., Cohen, C. M. S., Leske, R. A., Mewaldt, R. A., Stone, E. C., Mitchell, D. G., Hill, M. E., Roelof, E. C., Allen, R. C., Szalay, J. R., Rankin, J. S., Desai, M. I., Giacalone, J., Matthaeus, W. H., Niehof, J. T., de Wet, W., Winslow, R. M., Bale, S. D. & Kasper, J. C., A&A, 651, A2
10. Evolution of a streamer-blowout CME as observed by imagers on Parker Solar Probe and the Solar Terrestrial Relations Observatory [15]
    Liewer, P. C., Qiu, J., Vourlidas, A., Hall, J. R. & Penteado, P., A&A, 650, A32
11. An Observational Study of a "Rosetta Stone" Solar Eruption [23]
    Mason, E. I., Antiochos, Spiro K. & Vourlidas, Angelos, ApJ, 914, L8
12. Tracking solar wind flows from rapidly varying viewpoints by the Wide-field Imager for Parker Solar Probe [13]
    Nindos, A., Patsourakos, S., Vourlidas, A., Liewer, P. C., Penteado, P. & Hall, J. R., A&A, 650, A30
13. Propagating Conditions and the Time of ICME Arrival: A Comparison of the Effective Acceleration Model with ENLIL and DBEM Models [23]
    Paouris, Evangelos, Čalogović, Jaša, Dumbović, Mateja, Mays, M. Leila, Vourlidas, Angelos, Papaioannou, Athanasios, Anastasiadis, Anastasios & Balasis, Georgios, Solar Physics, 296, 12
14. Assessing the Projection Correction of Coronal Mass Ejection Speeds on Time of Arrival Prediction Performance Using the Effective Acceleration Model [23]
    Paouris, Evangelos, Vourlidas, Angelos, Papaioannou, Athanasios & Anastasiadis, Anastasios, Space Weather, 19, e02617
15. Critical Science Plan for the Daniel K. Inouye Solar Telescope (DKIST) [95]
    Rast, Mark P., Bello González, Nazaret, Bellot Rubio, Luis, Cao, Wenda, Cauzzi, Gianna, Deluca, Edward, de Pontieu, Bart, Fletcher, Lyndsay, Gibson, Sarah E., Judge, Philip G., Katsukawa, Yukio, Kazachenko, Maria D., Khomenko, Elena, Landi, Enrico, Martínez Pillet, Valentín, Petrie, Gordon J. D., Qiu, Jiong, Rachmeler, Laurel A., Rempel, Matthias, Schmidt, Wolfgang, Scullion, Eamon, Sun, Xudong, Welsch, Brian T., Andretta, Vincenzo, Antolin, Patrick, Ayres, Thomas R., Balasubramaniam, K. S., Ballai, Istvan, Berger, Thomas E., Bradshaw, Stephen J., Campbell, Ryan J., Carlsson, Mats, Casini, Roberto, Centeno, Rebecca, Cranmer, Steven R., Criscuoli, Serena, Deforest, Craig, Deng, Yuanyong, Erdélyi, Robertus, Fedun, Viktor, Fischer, Catherine E., González Manrique, Sergio J., Hahn, Michael, Harra, Louise, Henriques, Vasco M. J., Hurlburt, Neal E., Jaeggli, Sarah, Jafarzadeh, Shahin, Jain, Rekha, Jefferies, Stuart M., Keys, Peter H., Kowalski, Adam F., Kuckein, Christoph, Kuhn, Jeffrey R., Kuridze, David, Liu, Jiajia, Liu, Wei, Longcope, Dana, Mathioudakis, Mihalis, McAteer, R. T. James, McIntosh, Scott W., McKenzie, David E., Miralles, Mari Paz, Morton, Richard J., Muglach, Karin, Nelson, Chris J., Panesar, Navdeep K., Parenti, Susanna, Parnell, Clare E., Poduval, Bala, Reardon, Kevin P., Reep, Jeffrey W., Schad, Thomas A., Schmit, Donald, Sharma, Rahul, Socas-Navarro, Hector, Srivastava, Abhishek K., Sterling, Alphonse C., Suematsu, Yoshinori, Tarr, Lucas A., Tiwari, Sanjiv, Tritschler, Alexandra, Verth, Gary, Vourlidas, Angelos, Wang, Haimin, Wang, Yi-Ming, NSO and DKIST Project, DKIST Instrument Scientists, DKIST Science Working Group & DKIST Critical Science Plan Community, Solar Physics, 296, 70
16. Plasma heating induced by tadpole-like downflows in the flaring solar corona [31]
    Samanta, T., Tian, H., Chen, B., Reeves, K. K., Cheung, M. C. M., Vourlidas, A. & Banerjee, D., The Innovation, 2, 100083
17. Addressing Gaps in Space Weather Operations and Understanding With Small Satellites [7]
    Verkhoglyadova, O. P., Bussy-Virat, C. D., Caspi, A., Jackson, D. R., Kalegaev, V., Klenzing, J., Nieves-Chinchilla, J. & Vourlidas, A., Space Weather, 19, e2020SW002566
18. Improving the Medium-Term Forecasting of Space Weather: A Big Picture Review from a Solar Observer's Perspective [5]
    Vourlidas, Angelos, Frontiers in Astronomy and Space Sciences, 8, 68
19. Internal Structure of the 2019 April 2 CME [14]
    Wood, Brian E., Braga, Carlos R. & Vourlidas, Angelos, ApJ, 922, 234
20. Interpretation of Streaks from the Wide-Field Imager for Parker Solar Probe (WISPR) [0]
    Zimmerman, Michael, Iyer, Kaushik, Mehoke, Douglas, Liu, Kevin, Vourlidas, Angelos, Thernisien, Arnaud, Stenborg, Guillermo & Howard, Russell, 2021 IEEE Aerospace Conference (50100), p. E2

2020

1. Coordination within the remote sensing payload on the Solar Orbiter mission [38]
   Auchère, F., Andretta, V., Antonucci, E., Bach, N., Battaglia, M., Bemporad, A., Berghmans, D., Buchlin, E., Caminade, S., Carlsson, M., Carlyle, J., Cerullo, J. J., Chamberlin, P. C., Colaninno, R. C., Davila, J. M., De Groof, A., Etesi, L., Fahmy, S., Fineschi, S., Fludra, A., Gilbert, H. R., Giunta, A., Grundy, T., Haberreiter, M., Harra, L. K., Hassler, D. M., Hirzberger, J., Howard, R. A., Hurford, G., Kleint, L., Kolleck, M., Krucker, S., Lagg, A., Landini, F., Long, D. M., Lefort, J., Lodiot, S., Mampaey, B., Maloney, S., Marliani, F., Martinez-Pillet, V., McMullin, D. R., Müller, D., Nicolini, G., Orozco Suarez, D., Pacros, A., Pancrazzi, M., Parenti, S., Peter, H., Philippon, A., Plunkett, S., Rich, N., Rochus, P., Rouillard, A., Romoli, M., Sanchez, L., Schühle, U., Sidher, S., Solanki, S. K., Spadaro, D., St Cyr, O. C., Straus, T., Tanco, I., Teriaca, L., Thompson, W. T., del Toro Iniesta, J. C., Verbeeck, C., Vourlidas, A., Watson, C., Wiegelmann, T., Williams, D., Woch, J., Zhukov, A. N. & Zouganelis, I., A&A, 642, A6
2. On the Expansion Speed of Coronal Mass Ejections: Implications for Self-Similar Evolution [27]
   Balmaceda, L. A., Vourlidas, A., Stenborg, G. & St. Cyr, O. C., Solar Physics, 295, 107
3. Predicting the Time of Arrival of Coronal Mass Ejections at Earth From Heliospheric Imaging Observations [11]
   Braga, Carlos Roberto, Vourlidas, Angelos, Stenborg, Guillermo, Dal Lago, Alisson, Mendonça, Rafael Rodrigues Souza de & Echer, Ezequiel, Journal of Geophysical Research (Space Physics), 125, e27885
4. Predicting the Time-of-Arrival of Coronal Mass Ejections at Earth Solely From Heliospheric Imaging Observations [0]
   Braga, Carlos Roberto, Vourlidas, Angelos, Stenborg, Guillermo, Lago, Alisson Dal, Mendonca, Rafael R. S. & Echer, Ezequiel, essoar.10502264
5. Radio observations of coronal mass ejection initiation and development in the low solar corona [33]
   Carley, Eoin P., Vilmer, Nicole & Vourlidas, Angelos, Frontiers in Astronomy and Space Sciences, 7, 79
6. Small, Low-energy, Dispersive Solar Energetic Particle Events Observed by Parker Solar Probe [25]
   Hill, M. E., Mitchell, D. G., Allen, R. C., de Nolfo, G. A., Vourlidas, A., Brown, L. E., Jones, S. I., McComas, D. J., McNutt, R. L., Jr., Mitchell, J. G., Szalay, J. R., Wallace, S., Arge, C. N., Christian, E. R., Cohen, C. M. S., Crew, A. B., Desai, M. I., Giacalone, J., Henney, C. J., Joyce, C. J., Krimigis, S. M., Leske, R. A., Mewaldt, R. A., Nelson, K. S., Roelof, E. C., Schwadron, N. A. & Wiedenbeck, M. E., ApJS, 246, 65
7. The Solar Orbiter Heliospheric Imager (SoloHI) [80]
   Howard, R. A., Vourlidas, A., Colaninno, R. C., Korendyke, C. M., Plunkett, S. P., Carter, M. T., Wang, D., Rich, N., Lynch, S., Thurn, A., Socker, D. G., Thernisien, A. F., Chua, D., Linton, M. G., Koss, S., Tun-Beltran, S., Dennison, H., Stenborg, G., McMullin, D. R., Hunt, T., Baugh, R., Clifford, G., Keller, D., Janesick, J. R., Tower, J., Grygon, M., Farkas, R., Hagood, R., Eisenhauer, K., Uhl, A., Yerushalmi, S., Smith, L., Liewer, P. C., Velli, M. C., Linker, J., Bothmer, V., Rochus, P., Halain, J.-P., Lamy, P. L., Auchère, F., Harrison, R. A., Rouillard, A., Patsourakos, S., St. Cyr, O. C., Gilbert, H., Maldonado, H., Mariano, C. & Cerullo, J., A&A, 642, A13
8. The Solar Origin of Particle Events Measured by Parker Solar Probe [9]
   Kouloumvakos, Athanasios, Vourlidas, Angelos, Rouillard, Alexis P., Roelof, Edmond C., Leske, Rick, Pinto, Rui & Poirier, Nicolas, ApJ, 899, 107
9. Observations of the 2019 April 4 Solar Energetic Particle Event at the Parker Solar Probe [30]
   Leske, R. A., Christian, E. R., Cohen, C. M. S., Cummings, A. C., Davis, A. J., Desai, M. I., Giacalone, J., Hill, M. E., Joyce, C. J., Krimigis, S. M., Labrador, A. W., Malandraki, O., Matthaeus, W. H., McComas, D. J., McNutt, R. L., Jr., Mewaldt, R. A., Mitchell, D. G., Posner, A., Rankin, J. S., Roelof, E. C., Schwadron, N. A., Stone, E. C., Szalay, J. R., Wiedenbeck, M. E., Vourlidas, A., Bale, S. D., MacDowall, R. J., Pulupa, M., Kasper, J. C., Allen, R. C., Case, A. W., Korreck, K. E., Livi, R., Stevens, M. L., Whittlesey, P. & Poduval, B., ApJS, 246, 35
10. Trajectory Determination for Coronal Ejecta Observed by WISPR/Parker Solar Probe [24]
    Liewer, P. C., Qiu, J., Penteado, P., Hall, J. R., Vourlidas, A. & Howard, R. A., Solar Physics, 295, 140
11. Solar physics in the 2020s: DKIST, parker solar probe, and solar orbiter as a multi-messenger constellation [3]
    Martinez Pillet, V., Tritschler, A., Harra, L., Andretta, V., Vourlidas, A., Raouafi, N., Alterman, B. L., Bellot Rubio, L., Cauzzi, G., Cranmer, S. R., Gibson, S., Habbal, S., Ko, Y. K., Lepri, S. T., Linker, J., Malaspina, D. M., Matthews, S., Parenti, S., Petrie, G., Spadaro, D., Ugarte-Urra, I., Warren, H. & Winslow, R., arXiv:2004.08632
12. Estimation of the Physical Parameters of a CME at High Coronal Heights Using Low-frequency Radio Observations [49]
    Mondal, Surajit, Oberoi, Divya & Vourlidas, Angelos, ApJ, 893, 28
13. When do solar erupting hot magnetic flux ropes form? [22]
    Nindos, A., Patsourakos, S., Vourlidas, A., Cheng, X. & Zhang, J., A&A, 642, A109
14. Simulating White-Light Images of Coronal Structures for Parker Solar Probe/WISPR: Study of the Total Brightness Profiles [12]
    Nisticò, Giuseppe, Bothmer, Volker, Vourlidas, Angelos, Liewer, Paulett C., Thernisien, Arnaud F., Stenborg, Guillermo & Howard, Russell A., Solar Physics, 295, 63
15. Decoding the Pre-Eruptive Magnetic Field Configurations of Coronal Mass Ejections [131]
    Patsourakos, S., Vourlidas, A., Török, T., Kliem, B., Antiochos, S. K., Archontis, V., Aulanier, G., Cheng, X., Chintzoglou, G., Georgoulis, M. K., Green, L. M., Leake, J. E., Moore, R., Nindos, A., Syntelis, P., Yardley, S. L., Yurchyshyn, V. & Zhang, J., Space Science Reviews, 216, 131
16. Detailed Imaging of Coronal Rays with the Parker Solar Probe [29]
    Poirier, Nicolas, Kouloumvakos, Athanasios, Rouillard, Alexis P., Pinto, Rui F., Vourlidas, Angelos, Stenborg, Guillermo, Valette, Emeline, Howard, Russell A., Hess, Phillip, Thernisien, Arnaud, Rich, Nathan, Griton, Lea, Indurain, Mikel, Raouafi, Nour-Edine, Lavarra, Michael & Réville, Victor, ApJS, 246, 60
17. Models and data analysis tools for the Solar Orbiter mission [86]
    Rouillard, A. P., Pinto, R. F., Vourlidas, A., De Groof, A., Thompson, W. T., Bemporad, A., Dolei, S., Indurain, M., Buchlin, E., Sasso, C., Spadaro, D., Dalmasse, K., Hirzberger, J., Zouganelis, I., Strugarek, A., Brun, A. S., Alexandre, M., Berghmans, D., Raouafi, N. E., Wiegelmann, T., Pagano, P., Arge, C. N., Nieves-Chinchilla, T., Lavarra, M., Poirier, N., Amari, T., Aran, A., Andretta, V., Antonucci, E., Anastasiadis, A., Auchère, F., Bellot Rubio, L., Nicula, B., Bonnin, X., Bouchemit, M., Budnik, E., Caminade, S., Cecconi, B., Carlyle, J., Cernuda, I., Davila, J. M., Etesi, L., Espinosa Lara, F., Fedorov, A., Fineschi, S., Fludra, A., Génot, V., Georgoulis, M. K., Gilbert, H. R., Giunta, A., Gomez-Herrero, R., Guest, S., Haberreiter, M., Hassler, D., Henney, C. J., Howard, R. A., Horbury, T. S., Janvier, M., Jones, S. I., Kozarev, K., Kraaikamp, E., Kouloumvakos, A., Krucker, S., Lagg, A., Linker, J., Lavraud, B., Louarn, P., Maksimovic, M., Maloney, S., Mann, G., Masson, A., Müller, D., Önel, H., Osuna, P., Orozco Suarez, D., Owen, C. J., Papaioannou, A., Pérez-Suárez, D., Rodriguez-Pacheco, J., Parenti, S., Pariat, E., Peter, H., Plunkett, S., Pomoell, J., Raines, J. M., Riethmüller, T. L., Rich, N., Rodriguez, L., Romoli, M., Sanchez, L., Solanki, S. K., St Cyr, O. C., Straus, T., Susino, R., Teriaca, L., del Toro Iniesta, J. C., Ventura, R., Verbeeck, C., Vilmer, N., Warmuth, A., Walsh, A. P., Watson, C., Williams, D., Wu, Y. & Zhukov, A. N., A&A, 642, A2
18. Relating Streamer Flows to Density and Magnetic Structures at the Parker Solar Probe [67]
    Rouillard, Alexis P., Kouloumvakos, Athanasios, Vourlidas, Angelos, Kasper, Justin, Bale, Stuart, Raouafi, Nour-Edine, Lavraud, Benoit, Howard, Russell A., Stenborg, Guillermo, Stevens, Michael, Poirier, Nicolas, Davies, Jackie A., Hess, Phillip, Higginson, Aleida K., Lavarra, Michael, Viall, Nicholeen M., Korreck, Kelly, Pinto, Rui F., Griton, Léa, Réville, Victor, Louarn, Philippe, Wu, Yihong, Dalmasse, Kévin, Génot, Vincent, Case, Anthony W., Whittlesey, Phyllis, Larson, Davin, Halekas, Jasper S., Livi, Roberto, Goetz, Keith, Harvey, Peter R., MacDowall, Robert J., Malaspina, D., Pulupa, M., Bonnell, J., de Witt, T. Dudok & Penou, Emmanuel, ApJS, 246, 37
19. Modeling the Early Evolution of a Slow Coronal Mass Ejection Imaged by the Parker Solar Probe [28]
    Rouillard, Alexis P., Poirier, Nicolas, Lavarra, Michael, Bourdelle, Anthony, Dalmasse, Kévin, Kouloumvakos, Athanasios, Vourlidas, Angelos, Kunkel, Valbona, Hess, Phillip, Howard, Russ A., Stenborg, Guillermo & Raouafi, Nour E., ApJS, 246, 72
20. Understanding the origins of the heliosphere: integrating observations and measurements from Parker Solar Probe, Solar Orbiter, and other space- and ground-based observatories [47]
    Velli, M., Harra, L. K., Vourlidas, A., Schwadron, N., Panasenco, O., Liewer, P. C., Müller, D., Zouganelis, I., St Cyr, O. C., Gilbert, H., Nieves-Chinchilla, T., Auchère, F., Berghmans, D., Fludra, A., Horbury, T. S., Howard, R. A., Krucker, S., Maksimovic, M., Owen, C. J., Rodríguez-Pacheco, J., Romoli, M., Solanki, S. K., Wimmer-Schweingruber, R. F., Bale, S., Kasper, J., McComas, D. J., Raouafi, N., Martinez-Pillet, V., Walsh, A. P., De Groof, A. & Williams, D., A&A, 642, A4
21. The Science Case for the $4{\pi}$ Perspective: A Polar/Global View for Studying the Evolution & Propagation of the Solar Wind and Solar Transients [3]
    Vourlidas, A., Gibson, S., Hassler, D., Hoeksema, T., Linton, M., Lugaz, N. & Newmark, J., arXiv:2009.04880
22. Radio Observations of Coronal Mass Ejections: Space Weather Aspects [37]
    Vourlidas, Angelos, Carley, Eoin P. & Vilmer, Nicole, Frontiers in Astronomy and Space Sciences, 7, 43
23. Solving the Space Weather Problem: A 15+ Year Roadmap to Revolutionize Space Weather Research, Protect NASA Space Assets, and Enable Robust Operations [0]
    Vourlidas, Angelos, Likar, Justin, Merkin, Viacheslav, Nikoukar, Romina, Paxton, Larry, Sotirelis, Thomas, Turner, Drew, Ukhorskiy, Aleksandr & Zhang, Yongliang, essoar.10504254
24. Exploring the Critical Coronal Transition Region:The Key to Uncovering the Genesis of the Solar Wind and Solar Eruptions [0]
    Vourlidas, Angelos, Viall, Nicholeen, Laming, Martin, Cranmer, Steven, Arge, Charles, DeForest, Craig, de Toma, Giuliana, Caspi, Amir & Raouafi, NourEddine, essoar.10504451
25. The Coronal Mass Ejection Visibility Function of Modern Coronagraphs [6]
    Vourlidas, Angelos, Balmaceda, L. A., Xie, H. & St. Cyr, O. C., ApJ, 900, 161
26. Imaging the Solar Wind From Space: Where do we stand? [0]
    Vourlidas, Angelos, essoar.10504757
27. How Does Magnetic Reconnection Drive the Early-stage Evolution of Coronal Mass Ejections? [35]
    Zhu, Chunming, Qiu, Jiong, Liewer, Paulett, Vourlidas, Angelos, Spiegel, Michael & Hu, Qiang, ApJ, 893, 141
28. The Solar Orbiter Science Activity Plan. Translating solar and heliospheric physics questions into action [109]
    Zouganelis, I., De Groof, A., Walsh, A. P., Williams, D. R., Müller, D., St Cyr, O. C., Auchère, F., Berghmans, D., Fludra, A., Horbury, T. S., Howard, R. A., Krucker, S., Maksimovic, M., Owen, C. J., Rodríguez-Pacheco, J., Romoli, M., Solanki, S. K., Watson, C., Sanchez, L., Lefort, J., Osuna, P., Gilbert, H. R., Nieves-Chinchilla, T., Abbo, L., Alexandrova, O., Anastasiadis, A., Andretta, V., Antonucci, E., Appourchaux, T., Aran, A., Arge, C. N., Aulanier, G., Baker, D., Bale, S. D., Battaglia, M., Bellot Rubio, L., Bemporad, A., Berthomier, M., Bocchialini, K., Bonnin, X., Brun, A. S., Bruno, R., Buchlin, E., Büchner, J., Bucik, R., Carcaboso, F., Carr, R., Carrasco-Blázquez, I., Cecconi, B., Cernuda Cangas, I., Chen, C. H. K., Chitta, L. P., Chust, T., Dalmasse, K., D'Amicis, R., Da Deppo, V., De Marco, R., Dolei, S., Dolla, L., Dudok de Wit, T., van Driel-Gesztelyi, L., Eastwood, J. P., Espinosa Lara, F., Etesi, L., Fedorov, A., Félix-Redondo, F., Fineschi, S., Fleck, B., Fontaine, D., Fox, N. J., Gandorfer, A., Génot, V., Georgoulis, M. K., Gissot, S., Giunta, A., Gizon, L., Gómez-Herrero, R., Gontikakis, C., Graham, G., Green, L., Grundy, T., Haberreiter, M., Harra, L. K., Hassler, D. M., Hirzberger, J., Ho, G. C., Hurford, G., Innes, D., Issautier, K., James, A. W., Janitzek, N., Janvier, M., Jeffrey, N., Jenkins, J., Khotyaintsev, Y., Klein, K.-L., Kontar, E. P., Kontogiannis, I., Krafft, C., Krasnoselskikh, V., Kretzschmar, M., Labrosse, N., Lagg, A., Landini, F., Lavraud, B., Leon, I., Lepri, S. T., Lewis, G. R., Liewer, P., Linker, J., Livi, S., Long, D. M., Louarn, P., Malandraki, O., Maloney, S., Martinez-Pillet, V., Martinovic, M., Masson, A., Matthews, S., Matteini, L., Meyer-Vernet, N., Moraitis, K., Morton, R. J., Musset, S., Nicolaou, G., Nindos, A., O'Brien, H., Orozco Suarez, D., Owens, M., Pancrazzi, M., Papaioannou, A., Parenti, S., Pariat, E., Patsourakos, S., Perrone, D., Peter, H., Pinto, R. F., Plainaki, C., Plettemeier, D., Plunkett, S. P., Raines, J. M., Raouafi, N., Reid, H., Retino, A., Rezeau, L., Rochus, P., Rodriguez, L., Rodriguez-Garcia, L., Roth, M., Rouillard, A. P., Sahraoui, F., Sasso, C., Schou, J., Schühle, U., Sorriso-Valvo, L., Soucek, J., Spadaro, D., Stangalini, M., Stansby, D., Steller, M., Strugarek, A., Štverák, Š., Susino, R., Telloni, D., Terasa, C., Teriaca, L., Toledo-Redondo, S., del Toro Iniesta, J. C., Tsiropoula, G., Tsounis, A., Tziotziou, K., Valentini, F., Vaivads, A., Vecchio, A., Velli, M., Verbeeck, C., Verdini, A., Verscharen, D., Vilmer, N., Vourlidas, A., Wicks, R., Wimmer-Schweingruber, R. F., Wiegelmann, T., Young, P. R. & Zhukov, A. N., A&A, 642, A3

2019

1. Reconstructing Extreme Space Weather From Planet Hosting Stars [1]
   Airapetian, Vladimir, Adibekyan, V., Ansdell, M., Alexander, D., Barklay, T., Bastian, T., Boro Saikia, S., Cohen, O., Cuntz, M., Danchi, W., Davenport, J., DeNolfo, G., DeVore, R., Dong, C. F., Drake, J. J., France, K., Fraschetti, F., Herbst, K., Garcia-Sage, K., Gillon, M., Glocer, A., Grenfell, J. L., Gronoff, G., Gopalswamy, N., Guedel, M., Hartnett, H., Harutyunyan, H., Hinkel, N. R., Jensen, A. G., Jin, M., Johnstone, C., Kahler, S., Kalas, P., Kane, S. R., Kay, C., Kitiashvili, I. N., Kochukhov, O., Kondrashov, D., Lazio, J., Leake, J., Li, G., Linsky, J., Lueftinger, T., Lynch, B., Lyra, W., Mandell, A. M., Mandt, K. E., Maehara, H., Miesch, M. S., Mickaelian, A. M., Mouschou, S., Notsu, Y., Ofman, L., Oman, L. D., Osten, R. A., Oran, R., Petre, R., Ramirez, R. M., Rau, G., Redfield, S., Réville, V., Rugheimer, S., Scheucher, M., Schlieder, J. E., Shibata, K., Schnittman, J. D., Soderblom, David, Strugarek, A., Turner, J. D., Usmanov, A., Van Der Holst, B., Vidotto, A., Vourlidas, A., Way, M. J., Wolk, Scott J., Zank, G. P., Zarka, P., Kopparapu, R., Babakhanova, S., Pevtsov, A. A., Lee, Y., Henning, W., Colón, K. D. & Wolf, E. T., Bulletin of the American Astronomical Society, 51, 564
2. Solar energetic particles in the inner heliosphere: status and open questions [56]
   Anastasiadis, Anastasios, Lario, David, Papaioannou, Athanasios, Kouloumvakos, Athanasios & Vourlidas, Angelos, Philosophical Transactions of the Royal Society of London Series A, 377, 20180100
3. Radio Observational Constraints on Turbulent Astrophysical Plasmas [0]
   Bastian, Tim, Cordes, James, Kasper, Justin, Kobelski, Adam, Korreck, Kelly, Howes, Gregory, Salem, Chadi, Spangler, Steve & Vourlidas, Angelos, Astro2020: Decadal Survey on Astronomy and Astrophysics, 2020, 307
4. Near-Sun observations of an F-corona decrease and K-corona fine structure [99]
   Howard, R. A., Vourlidas, A., Bothmer, V., Colaninno, R. C., DeForest, C. E., Gallagher, B., Hall, J. R., Hess, P., Higginson, A. K., Korendyke, C. M., Kouloumvakos, A., Lamy, P. L., Liewer, P. C., Linker, J., Linton, M., Penteado, P., Plunkett, S. P., Poirier, N., Raouafi, N. E., Rich, N., Rochus, P., Rouillard, A. P., Socker, D. G., Stenborg, G., Thernisien, A. F. & Viall, N. M., Nature, 576, 232
5. Connecting the Properties of Coronal Shock Waves with Those of Solar Energetic Particles [86]
   Kouloumvakos, Athanasios, Rouillard, Alexis P., Wu, Yihong, Vainio, Rami, Vourlidas, Angelos, Plotnikov, Illya, Afanasiev, Alexandr & Önel, Hakan, ApJ, 876, 80
6. Element Abundances: A New Diagnostic for the Solar Wind [94]
   Laming, J. Martin, Vourlidas, Angelos, Korendyke, Clarence, Chua, Damien, Cranmer, Steven R., Ko, Yuan-Kuen, Kuroda, Natsuha, Provornikova, Elena, Raymond, John C., Raouafi, Nour-Eddine, Strachan, Leonard, Tun-Beltran, Samuel, Weberg, Micah & Wood, Brian E., ApJ, 879, 124
7. Simulating White Light Images of Coronal Structures for WISPR/ Parker Solar Probe: Effects of the Near-Sun Elliptical Orbit [32]
   Liewer, P., Vourlidas, A., Thernisien, A., Qiu, J., Penteado, P., Nisticò, G., Howard, R. & Bothmer, V., Solar Physics, 294, 93
8. A Comparative Study of 2017 July and 2012 July Complex Eruptions: Are Solar Superstorms “Perfect Storms” in Nature? [32]
   Liu, Ying D., Zhao, Xiaowei, Hu, Huidong, Vourlidas, Angelos & Zhu, Bei, ApJS, 241, 15
9. Unraveling the Internal Magnetic Field Structure of the Earth-directed Interplanetary Coronal Mass Ejections During 1995 - 2015 [78]
   Nieves-Chinchilla, Teresa, Jian, Lan K., Balmaceda, Laura, Vourlidas, Angelos, dos Santos, Luiz F. G. & Szabo, Adam, Solar Physics, 294, 89
10. Observing the corona and inner heliosphere with Parker Solar Probe [3]
    Nisticò, G., Bothmer, V., Liewer, P., Vourlidas, , A. & Thernisien, A., Nuovo Cimento C Geophysics Space Physics C, 42, 21
11. Combined geometrical modelling and white-light mass determination of coronal mass ejections [20]
    Pluta, Adam, Mrotzek, Niclas, Vourlidas, Angelos, Bothmer, Volker & Savani, Neel, A&A, 623, A139
12. Comparing extrapolations of the coronal magnetic field structure at 2.5 R_☉ with multi-viewpoint coronagraphic observations [12]
    Sasso, C., Pinto, R. F., Andretta, V., Howard, R. A., Vourlidas, A., Bemporad, A., Dolei, S., Spadaro, D., Susino, R., Antonucci, E., Abbo, L., Da Deppo, V., Fineschi, S., Frassetto, F., Landini, F., Naletto, G., Nicolini, G., Nicolosi, P., Pancrazzi, M., Romoli, M., Telloni, D. & Ventura, R., A&A, 627, A9
13. Predicting the geoeffective properties of coronal mass ejections: current status, open issues and path forward [107]
    Vourlidas, A., Patsourakos, S. & Savani, N. P., Philosophical Transactions of the Royal Society of London Series A, 377, 20180096
14. Lyα science from the LST aboard the ASO-S mission [10]
    Vourlidas, Angelos, Research in Astronomy and Astrophysics, 19, 168
15. Tomography of the Solar Corona with the Wide-Field Imager for the Parker Solar Probe [7]
    Vásquez, Alberto M., Frazin, Richard A., Vourlidas, Angelos, Manchester, Ward B., van der Holst, Bart, Howard, Russell A. & Lamy, Philippe, Solar Physics, 294, 81

2018

1. How Reliable Are the Properties of Coronal Mass Ejections Measured from a Single Viewpoint? [42]
   Balmaceda, Laura A., Vourlidas, Angelos, Stenborg, Guillermo & Dal Lago, Alisson, ApJ, 863, 57
2. Bridging the Gap: Capturing the Lyα Counterpart of a Type-II Spicule and Its Heating Evolution with VAULT2.0 and IRIS Observations [22]
   Chintzoglou, Georgios, De Pontieu, Bart, Martínez-Sykora, Juan, Pereira, Tiago M. D., Vourlidas, Angelos & Tun Beltran, Samuel, ApJ, 857, 73
3. The Highly Structured Outer Solar Corona [149]
   DeForest, C. E., Howard, R. A., Velli, M., Viall, N. & Vourlidas, A., ApJ, 862, 18
4. Solar Physics from Unconventional Viewpoints [30]
   Gibson, Sarah E., Vourlidas, Angelos, Hassler, Donald M., Rachmeler, Laurel A., Thompson, Michael J., Newmark, Jeffrey, Velli, Marco, Title, Alan & McIntosh, Scott W., Frontiers in Astronomy and Space Sciences, 5, 32
5. Evolution of CME Mass in the Corona [21]
   Howard, Russell A. & Vourlidas, Angelos, Solar Physics, 293, 55
6. The density compression ratio of shock fronts associated with coronal mass ejections [36]
   Kwon, Ryun-Young & Vourlidas, Angelos, Journal of Space Weather and Space Climate, 8, A08
7. Elliptic-cylindrical Analytical Flux Rope Model for Magnetic Clouds [68]
   Nieves-Chinchilla, T., Linton, M. G., Hidalgo, M. A. & Vourlidas, A., ApJ, 861, 139
8. Understanding the Internal Magnetic Field Configurations of ICMEs Using More than 20 Years of Wind Observations [170]
   Nieves-Chinchilla, T., Vourlidas, A., Raymond, J. C., Linton, M. G., Al-haddad, N., Savani, N. P., Szabo, A. & Hidalgo, M. A., Solar Physics, 293, 25
9. Solar Polar Diamond Explorer (SPDEx): Understanding the Origins of Solar Activity Using a New Perspective [5]
   Vourlidas, A., Liewer, P. C., Velli, M. & Webb, D., arXiv:1805.04172
10. EUV Irradiance Inputs to Thermospheric Density Models: Open Issues and Path Forward [26]
    Vourlidas, A. & Bruinsma, S., Space Weather, 16, 5
11. Streamer-blowout Coronal Mass Ejections: Their Properties and Relation to the Coronal Magnetic Field Structure [68]
    Vourlidas, Angelos & Webb, David F., ApJ, 861, 103
12. Information Theoretic Approach to Discovering Causalities in the Solar Cycle [25]
    Wing, Simon, Johnson, Jay R. & Vourlidas, Angelos, ApJ, 854, 85

2017

1. SOLARIS: Solar Sail Investigation of the Sun [1]
   Appourchaux, Thierry, Auchère, Frédéric, Antonucci, Ester, Gizon, Laurent, MacDonald, Malcolm, Hara, Hirohisa, Sekii, Takashi, Moses, Daniel & Vourlidas, Angelos, arXiv:1707.08193
2. Magnetic Flux Rope Shredding By a Hyperbolic Flux Tube: The Detrimental Effects of Magnetic Topology on Solar Eruptions [26]
   Chintzoglou, Georgios, Vourlidas, Angelos, Savcheva, Antonia, Tassev, Svetlin, Tun Beltran, Samuel & Stenborg, Guillermo, ApJ, 843, 93
3. Chromosphere to 1 AU Simulation of the 2011 March 7th Event: A Comprehensive Study of Coronal Mass Ejection Propagation [92]
   Jin, M., Manchester, W. B., van der Holst, B., Sokolov, I., Tóth, G., Vourlidas, A., de Koning, C. A. & Gombosi, T. I., ApJ, 834, 172
4. Investigating the Wave Nature of the Outer Envelope of Halo Coronal Mass Ejections [44]
   Kwon, Ryun-Young & Vourlidas, Angelos, ApJ, 836, 246
5. Structure, Propagation, and Expansion of a CME-driven Shock in the Heliosphere: A Revisit of the 2012 July 23 Extreme Storm [31]
   Liu, Ying D., Hu, Huidong, Zhu, Bei, Luhmann, Janet G. & Vourlidas, Angelos, ApJ, 834, 158
6. Understanding the Physical Nature of Coronal "EIT Waves" [88]
   Long, D. M., Bloomfield, D. S., Chen, P. F., Downs, C., Gallagher, P. T., Kwon, R.-Y., Vanninathan, K., Veronig, A. M., Vourlidas, A., Vršnak, B., Warmuth, A. & Žic, T., Solar Physics, 292, 7
7. CME Dynamics Using STEREO and LASCO Observations: The Relative Importance of Lorentz Forces and Solar Wind Drag [62]
   Sachdeva, Nishtha, Subramanian, Prasad, Vourlidas, Angelos & Bothmer, Volker, Solar Physics, 292, 118
8. Turbulent Density Fluctuations and Proton Heating Rate in the Solar Wind from 9-20 R _☉ [14]
   Sasikumar Raja, K., Subramanian, Prasad, Ramesh, R., Vourlidas, Angelos & Ingale, Madhusudan, ApJ, 850, 129
9. Predicting the magnetic vectors within coronal mass ejections arriving at Earth: 2. Geomagnetic response [25]
   Savani, N. P., Vourlidas, A., Richardson, I. G., Szabo, A., Thompson, B. J., Pulkkinen, A., Mays, M. L., Nieves-Chinchilla, T. & Bothmer, V., Space Weather, 15, 441
10. Multi-viewpoint Coronal Mass Ejection Catalog Based on STEREO COR2 Observations [103]
    Vourlidas, Angelos, Balmaceda, Laura A., Stenborg, Guillermo & Dal Lago, Alisson, ApJ, 838, 141
11. Is There a CME Rate Floor? CME and Magnetic Flux Values for the Last Four Solar Cycle Minima [15]
    Webb, D. F., Howard, R. A., St. Cyr, O. C. & Vourlidas, A., ApJ, 851, 142
12. Observation of an Extremely Large-Density Heliospheric Plasma Sheet Compressed by an Interplanetary Shock at 1 AU [9]
    Wu, Chin-Chun, Liou, Kan, Lepping, R. P., Vourlidas, Angelos, Plunkett, Simon, Socker, Dennis & Wu, S. T., Solar Physics, 292, 109

2016

1. Using ForeCAT Deflections and Rotations to Constrain the Early Evolution of CMEs [32]
   Kay, C., Opher, M., Colaninno, R. C. & Vourlidas, A., ApJ, 827, 70
2. Waves and Magnetism in the Solar Atmosphere (WAMIS) [50]
   Ko, Yuan-Kuen, Moses, John D., Laming, John M., Strachan, Leonard, Tun Beltran, Samuel, Tomczyk, Steven, Gibson, Sarah E., Auchère, Frédéric, Casini, Roberto, Fineschi, Silvano, Knoelker, Michael, Korendyke, Clarence, McIntosh, Scott W., Romoli, Marco, Rybak, Jan, Socker, Dennis G., Vourlidas, Angelos & Wu, Qian, Frontiers in Astronomy and Space Sciences, 3, 1
3. Multi-viewpoint Observations of a Widely distributed Solar Energetic Particle Event: The Role of EUV Waves and White-light Shock Signatures [31]
   Kouloumvakos, A., Patsourakos, S., Nindos, A., Vourlidas, A., Anastasiadis, A., Hillaris, A. & Sandberg, I., ApJ, 821, 31
4. An Analysis of Interplanetary Solar Radio Emissions Associated with a Coronal Mass Ejection [18]
   Krupar, V., Eastwood, J. P., Kruparova, O., Santolik, O., Soucek, J., Magdalenić, J., Vourlidas, A., Maksimovic, M., Bonnin, X., Bothmer, V., Mrotzek, N., Pluta, A., Barnes, D., Davies, J. A., Martínez Oliveros, J. C. & Bale, S. D., ApJ, 823, L5
5. Three-dimensional Geometry of a Current Sheet in the High Solar Corona: Evidence for Reconnection in the Late Stage of the Coronal Mass Ejections [12]
   Kwon, Ryun-Young, Vourlidas, Angelos & Webb, David, ApJ, 826, 94
6. Longitudinal Properties of a Widespread Solar Energetic Particle Event on 2014 February 25: Evolution of the Associated CME Shock [93]
   Lario, D., Kwon, R.-Y., Vourlidas, A., Raouafi, N. E., Haggerty, D. K., Ho, G. C., Anderson, B. J., Papaioannou, A., Gómez-Herrero, R., Dresing, N. & Riley, P., ApJ, 819, 72
7. Scientific challenges in thermosphere-ionosphere forecasting - conclusions from the October 2014 NASA JPL community workshop [8]
   Mannucci, Anthony J., Hagan, Maura E., Vourlidas, Angelos, Huang, Cheryl Y., Verkhoglyadova, Olga P. & Deng, Yue, Journal of Space Weather and Space Climate, 6, E01
8. Relationship of EUV Irradiance Coronal Dimming Slope and Depth to Coronal Mass Ejection Speed and Mass [74]
   Mason, James Paul, Woods, Thomas N., Webb, David F., Thompson, Barbara J., Colaninno, Robin C. & Vourlidas, Angelos, ApJ, 830, 20
9. A Circular-cylindrical Flux-rope Analytical Model for Magnetic Clouds [77]
   Nieves-Chinchilla, T., Linton, M. G., Hidalgo, M. A., Vourlidas, A., Savani, N. P., Szabo, A., Farrugia, C. & Yu, W., ApJ, 823, 27
10. The Major Geoeffective Solar Eruptions of 2012 March 7: Comprehensive Sun-to-Earth Analysis [72]
    Patsourakos, S., Georgoulis, M. K., Vourlidas, A., Nindos, A., Sarris, T., Anagnostopoulos, G., Anastasiadis, A., Chintzoglou, G., Daglis, I. A., Gontikakis, C., Hatzigeorgiu, N., Iliopoulos, A. C., Katsavrias, C., Kouloumvakos, A., Moraitis, K., Nieves-Chinchilla, T., Pavlos, G., Sarafopoulos, D., Syntelis, P., Tsironis, C., Tziotziou, K., Vogiatzis, I. I., Balasis, G., Georgiou, M., Karakatsanis, L. P., Malandraki, O. E., Papadimitriou, C., Odstrčil, D., Pavlos, E. G., Podlachikova, O., Sandberg, I., Turner, D. L., Xenakis, M. N., Sarris, E., Tsinganos, K. & Vlahos, L., ApJ, 817, 14
11. Deriving the Properties of Coronal Pressure Fronts in 3D: Application to the 2012 May 17 Ground Level Enhancement [99]
    Rouillard, A. P., Plotnikov, I., Pinto, R. F., Tirole, M., Lavarra, M., Zucca, P., Vainio, R., Tylka, A. J., Vourlidas, A., De Rosa, M. L., Linker, J., Warmuth, A., Mann, G., Cohen, C. M. S. & Mewaldt, R. A., ApJ, 833, 45
12. Investigation of the Chromosphere-Corona Interface with the Upgraded Very High Angular Resolution Ultraviolet Telescope (VAULT2.0) [10]
    Vourlidas, Angelos, Beltran, Samuel Tun, Chintzoglou, Georgios, Eisenhower, Kevin, Korendyke, Clarence, Feldman, Ronen, Moser, John, Shea, John, Johnson-Rambert, Mary, McMullin, Don, Stenborg, Guillermo, Shepler, Ed & Roberts, David, Journal of Astronomical Instrumentation, 5, 1640003
13. The Wide-Field Imager for Solar Probe Plus (WISPR) [212]
    Vourlidas, Angelos, Howard, Russell A., Plunkett, Simon P., Korendyke, Clarence M., Thernisien, Arnaud F. R., Wang, Dennis, Rich, Nathan, Carter, Michael T., Chua, Damien H., Socker, Dennis G., Linton, Mark G., Morrill, Jeff S., Lynch, Sean, Thurn, Adam, Van Duyne, Peter, Hagood, Robert, Clifford, Greg, Grey, Phares J., Velli, Marco, Liewer, Paulett C., Hall, Jeffrey R., DeJong, Eric M., Mikic, Zoran, Rochus, Pierre, Mazy, Emanuel, Bothmer, Volker & Rodmann, Jens, Space Science Reviews, 204, 83
14. LASCO White-Light Observations of Eruptive Current Sheets Trailing CMEs [40]
    Webb, David F. & Vourlidas, Angelos, Solar Physics, 291, 3725
15. Global magnetohydrodynamic simulation of the 15 March 2013 coronal mass ejection event—Interpretation of the 30-80 MeV proton flux [23]
    Wu, Chin-Chun, Liou, Kan, Vourlidas, Angelos, Plunkett, Simon, Dryer, Murray, Wu, S. T. & Mewaldt, Richard A., Journal of Geophysical Research (Space Physics), 121, 56
16. Numerical simulation of multiple CME-driven shocks in the month of 2011 September [19]
    Wu, Chin-Chun, Liou, Kan, Vourlidas, Angelos, Plunkett, Simon, Dryer, Murray, Wu, S. T., Socker, Dennis, Wood, Brian E., Hutting, Lynn & Howard, Russell A., Journal of Geophysical Research (Space Physics), 121, 1839

2015

1. Formation of Magnetic Flux Ropes during a Confined Flaring Well before the Onset of a Pair of Major Coronal Mass Ejections [82]
   Chintzoglou, Georgios, Patsourakos, Spiros & Vourlidas, Angelos, ApJ, 809, 34
2. Using Multiple-viewpoint Observations to Determine the Interaction of Three Coronal Mass Ejections Observed on 2012 March 5 [36]
   Colaninno, Robin C. & Vourlidas, Angelos, ApJ, 815, 70
3. Are Halo-like Solar Coronal Mass Ejections Merely a Matter of Geometric Projection Effects? [51]
   Kwon, Ryun-Young, Zhang, Jie & Vourlidas, Angelos, ApJ, 799, L29
4. Observations and Analysis of the Non-Radial Propagation of Coronal Mass Ejections Near the Sun [59]
   Liewer, Paulett, Panasenco, Olga, Vourlidas, Angelos & Colaninno, Robin, Solar Physics, 290, 3343
5. How Common Are Hot Magnetic Flux Ropes in the Low Solar Corona? A Statistical Study of EUV Observations [78]
   Nindos, A., Patsourakos, S., Vourlidas, A. & Tagikas, C., ApJ, 808, 117
6. On extracting plasma compression signatures from white light coronal images [1]
   Roelof, E. C. & Vourlidas, A., Journal of Physics Conference Series, Journal of Physics Conference Series, 642, p. 012024
7. CME Propagation: Where does Aerodynamic Drag 'Take Over'? [65]
   Sachdeva, Nishtha, Subramanian, Prasad, Colaninno, Robin & Vourlidas, Angelos, ApJ, 809, 158
8. Predicting the magnetic vectors within coronal mass ejections arriving at Earth: 1. Initial architecture [79]
   Savani, N. P., Vourlidas, A., Szabo, A., Mays, M. L., Richardson, I. G., Thompson, B. J., Pulkkinen, A., Evans, R. & Nieves-Chinchilla, T., Space Weather, 13, 374
9. Waves and Magnetism in the Solar Atmosphere (WAMIS) [3]
   Strachan, L., Ko, Y.-K., Moses, J. D., Laming, J. M., Auchere, F., Casini, R., Fineschi, S., Gibson, S., Knoelker, M., Korendyke, C., Mcintosh, S., Romoli, M., Rybak, J., Socker, D., Tomczyk, S., Vourlidas, A. & Wu, Q., Polarimetry (Editors: Nagendra, K. N., Bagnulo, Stefano, Centeno, Rebecca & Jes\'us Martinez González, Maria.), IAU Symposium, 305, p. 121
10. Periodic Density Structures and the Origin of the Slow Solar Wind [115]
    Viall, Nicholeen M. & Vourlidas, Angelos, ApJ, 807, 176
11. Mission to the Sun-Earth L₅ Lagrangian Point: An Optimal Platform for Space Weather Research [66]
    Vourlidas, Angelos, Space Weather, 13, 197

2014

1. Tracking the Evolution of a Coherent Magnetic Flux Rope Continuously from the Inner to the Outer Corona [79]
   Cheng, X., Ding, M. D., Guo, Y., Zhang, J., Vourlidas, A., Liu, Y. D., Olmedo, O., Sun, J. Q. & Li, C., ApJ, 780, 28
2. Three-Dimensional Evolution of Flux-Rope CMEs and Its Relation to the Local Orientation of the Heliospheric Current Sheet [128]
   Isavnin, A., Vourlidas, A. & Kilpua, E. K. J., Solar Physics, 289, 2141
3. Solar Energetic Particle Events in Different Types of Solar Wind [14]
   Kahler, S. W. & Vourlidas, A., ApJ, 791, 4
4. Do Interacting Coronal Mass Ejections Play a Role in Solar Energetic Particle Events? [42]
   Kahler, S. W. & Vourlidas, A., ApJ, 784, 47
5. Solar Sources of Interplanetary Coronal Mass Ejections During the Solar Cycle 23/24 Minimum [57]
   Kilpua, E. K. J., Mierla, M., Zhukov, A. N., Rodriguez, L., Vourlidas, A. & Wood, B., Solar Physics, 289, 3773
6. CME Expansion as the Driver of Metric Type II Shock Emission as Revealed by Self-consistent Analysis of High-Cadence EUV Images and Radio Spectrograms [38]
   Kouloumvakos, A., Patsourakos, S., Hillaris, A., Vourlidas, A., Preka-Papadema, P., Moussas, X., Caroubalos, C., Tsitsipis, P. & Kontogeorgos, A., Solar Physics, 289, 2123
7. Self-similar Expansion of Solar Coronal Mass Ejections: Implications for Lorentz Self-force Driving [50]
   Subramanian, Prasad, Arunbabu, K. P., Vourlidas, Angelos & Mauriya, Adwiteey, ApJ, 790, 125
8. The flux rope nature of coronal mass ejections [68]
   Vourlidas, Angelos, Plasma Physics and Controlled Fusion, 56, 064001

2013

1. The Height Evolution of the "True" Coronal Mass Ejection Mass derived from STEREO COR1 and COR2 Observations [52]
   Bein, B. M., Temmer, M., Vourlidas, A., Veronig, A. M. & Utz, D., ApJ, 768, 31
2. Quantitative comparison of methods for predicting the arrival of coronal mass ejections at Earth based on multiview imaging [82]
   Colaninno, R. C., Vourlidas, A. & Wu, C. C., Journal of Geophysical Research (Space Physics), 118, 6866
3. The solar and heliospheric imager (SoloHI) instrument for the solar orbiter mission [19]
   Howard, Russell A., Vourlidas, Angelos, Korendyke, Clarence M., Plunkett, Simon P., Carter, Michael T., Wang, Dennis, Rich, Nathan, McMullin, Donald R., Lynch, Sean, Thurn, Adam, Clifford, Greg, Socker, Dennis G., Thernisien, Arnaud F., Chua, Damien, Linton, Mark G., Keller, David, Janesick, James R., Tower, John, Grygon, Mark, Hagood, Robert, Bast, William, Liewer, Paulett C., DeJong, Eric M., Velli, Marco M. C., Mikic, Zoran, Bothmer, Volker, Rochus, Pierre, Halain, Jean-Philippe & Lamy, Philippe L., Solar Physics and Space Weather Instrumentation V (Editors: Fineschi, Silvano & Fennelly, Judy), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 8862, p. 88620H
4. Three-Dimensional Evolution of Erupted Flux Ropes from the Sun (2 - 20 R _☉) to 1 AU [72]
   Isavnin, A., Vourlidas, A. & Kilpua, E. K. J., Solar Physics, 284, 203
5. A Comparison of the Intensities and Energies of Gradual Solar Energetic Particle Events with the Dynamical Properties of Associated Coronal Mass Ejections [47]
   Kahler, S. W. & Vourlidas, A., ApJ, 769, 143
6. On the relationship between interplanetary coronal mass ejections and magnetic clouds [74]
   Kilpua, E. K. J., Isavnin, A., Vourlidas, A., Koskinen, H. E. J. & Rodriguez, L., Annales Geophysicae, 31, 1251
7. Development and test of an active pixel sensor detector for heliospheric imager on solar orbiter and solar probe plus [11]
   Korendyke, Clarence M., Vourlidas, Angelos, Plunkett, Simon P., Howard, Russell A., Wang, Dennis, Marshall, Cheryl J., Waczynski, Augustyn, Janesick, James J., Elliott, Thomas, Tun, Samuel, Tower, John, Grygon, Mark, Keller, David & Clifford, Gregory E., Solar Physics and Space Weather Instrumentation V (Editors: Fineschi, Silvano & Fennelly, Judy), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 8862, p. 88620J
8. Solar energetic particles and their variability from the sun and beyond [23]
   Mewaldt, R. A., Cohen, C. M. S., Mason, G. M., von Rosenvinge, T. T., Leske, R. A., Luhmann, J. G., Odstrcil, D. & Vourlidas, A., Solar Wind 13 (Editors: Zank, Gary P., Borovsky, Joe, Bruno, Roberto, Cirtain, Jonathan, Cranmer, Steve, Elliott, Heather, Giacalone, Joe, Gonzalez, Walter, Li, Gang, Marsch, Eckart, Moebius, Ebehard, Pogorelov, Nick, Spann, Jim & Verkhoglyadova, Olga), American Institute of Physics Conference Series, 1539, p. 116
9. SDO Observations of Solar Jets [16]
   Moschou, S. P., Tsinganos, K., Vourlidas, A. & Archontis, V., Solar Physics, 284, 427
10. Inner Heliospheric Evolution of a "Stealth" CME Derived from Multi-view Imaging and Multipoint in Situ observations. I. Propagation to 1 AU [60]
    Nieves-Chinchilla, T., Vourlidas, A., Stenborg, G., Savani, N. P., Koval, A., Szabo, A. & Jian, L. K., ApJ, 779, 55
11. Origins of Rolling, Twisting, and Non-radial Propagation of Eruptive Solar Events [83]
    Panasenco, Olga, Martin, Sara F., Velli, Marco & Vourlidas, Angelos, Solar Physics, 287, 391
12. Direct Evidence for a Fast Coronal Mass Ejection Driven by the Prior Formation and Subsequent Destabilization of a Magnetic Flux Rope [192]
    Patsourakos, S., Vourlidas, A. & Stenborg, G., ApJ, 764, 125
13. A Plasma β Transition within a Propagating Flux Rope [12]
    Savani, N. P., Vourlidas, A., Shiota, D., Linton, M. G., Kusano, K., Lugaz, N. & Rouillard, A. P., ApJ, 779, 142
14. Tracking the momentum flux of a CME and quantifying its influence on geomagnetically induced currents at Earth [16]
    Savani, N. P., Vourlidas, A., Pulkkinen, A., Nieves-Chinchilla, T., Lavraud, B. & Owens, M. J., Space Weather, 11, 245
15. Study of a Coronal Mass Ejection with SOHO/UVCS and STEREO data [4]
    Susino, Roberto, Bemporad, Alessandro, Dolei, Sergio & Vourlidas, Angelos, Advances in Space Research, 52, 957
16. Derivation of the Magnetic Field in a Coronal Mass Ejection Core via Multi-frequency Radio Imaging [67]
    Tun, Samuel D. & Vourlidas, A., ApJ, 766, 130
17. How Many CMEs Have Flux Ropes? Deciphering the Signatures of Shocks, Flux Ropes, and Prominences in Coronagraph Observations of CMEs [386]
    Vourlidas, A., Lynch, B. J., Howard, R. A. & Li, Y., Solar Physics, 284, 179
18. Seeing the corona with the solar probe plus mission: the wide-field imager for solar probe+ (WISPR) [6]
    Vourlidas, Angelos, Howard, Russell A., Plunkett, Simon P., Korendyke, Clarence M., Carter, Michael T., Thernisien, Arnaud F. R., Chua, Damien H., Van Duyne, Peter, Socker, Dennis G., Linton, Mark G., Liewer, Paulett C., Hall, Jeffrey R., Morrill, Jeff S., DeJong, Eric M., Mikic, Zoran, Rochus, Pierre L. P. M., Bothmer, Volker, Rodman, Jens & Lamy, Philippe, Solar Physics and Space Weather Instrumentation V (Editors: Fineschi, Silvano & Fennelly, Judy), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 8862, p. 88620I

2012

1. Three-Dimensional Properties of Coronal Mass Ejections from STEREO/SECCHI Observations [39]
   Bosman, E., Bothmer, V., Nisticò, G., Vourlidas, A., Howard, R. A. & Davies, J. A., Solar Physics, 281, 167
2. Investigation of the Formation and Separation of an Extreme-ultraviolet Wave from the Expansion of a Coronal Mass Ejection [112]
   Cheng, X., Zhang, J., Olmedo, O., Vourlidas, A., Ding, M. D. & Liu, Y., ApJ, 745, L5
3. Initiation and Development of the White-light and Radio Coronal Mass Ejection on 2001 April 15 [38]
   Démoulin, P., Vourlidas, A., Pick, M. & Bouteille, A., ApJ, 750, 147
4. Global Energetics of Thirty-eight Large Solar Eruptive Events [440]
   Emslie, A. G., Dennis, B. R., Shih, A. Y., Chamberlin, P. C., Mewaldt, R. A., Moore, C. S., Share, G. H., Vourlidas, A. & Welsch, B. T., ApJ, 759, 71
5. Intercomparison of the LASCO-C2, SECCHI-COR1, SECCHI-COR2, and Mk4 Coronagraphs [43]
   Frazin, Richard A., Vásquez, Alberto M., Thompson, William T., Hewett, Russell J., Lamy, Philippe, Llebaria, Antoine, Vourlidas, Angelos & Burkepile, Joan, Solar Physics, 280, 273
6. Remote and in situ observations of an unusual Earth-directed coronal mass ejection from multiple viewpoints [100]
   Nieves-Chinchilla, T., Colaninno, R., Vourlidas, A., Szabo, A., Lepping, R. P., Boardsen, S. A., Anderson, B. J. & Korth, H., Journal of Geophysical Research (Space Physics), 117, A06106
7. Secondary Waves and/or the "Reflection" from and "Transmission" through a Coronal Hole of an Extreme Ultraviolet Wave Associated with the 2011 February 15 X2.2 Flare Observed with SDO/AIA and STEREO/EUVI [93]
   Olmedo, Oscar, Vourlidas, Angelos, Zhang, Jie & Cheng, Xin, ApJ, 756, 143
8. On the Nature and Genesis of EUV Waves: A Synthesis of Observations from SOHO, STEREO, SDO, and Hinode (Invited Review) [141]
   Patsourakos, Spiros & Vourlidas, Angelos, Solar Physics, 281, 187
9. The Longitudinal Properties of a Solar Energetic Particle Event Investigated Using Modern Solar Imaging [173]
   Rouillard, A. P., Sheeley, N. R., Tylka, A., Vourlidas, A., Ng, C. K., Rakowski, C., Cohen, C. M. S., Mewaldt, R. A., Mason, G. M., Reames, D., Savani, N. P., StCyr, O. C. & Szabo, A., ApJ, 752, 44
10. A Study of the Heliocentric Dependence of Shock Standoff Distance and Geometry using 2.5D Magnetohydrodynamic Simulations of Coronal Mass Ejection Driven Shocks [20]
    Savani, N. P., Shiota, D., Kusano, K., Vourlidas, A. & Lugaz, N., ApJ, 759, 103
11. Super-elastic collision of large-scale magnetized plasmoids in the heliosphere [86]
    Shen, Chenglong, Wang, Yuming, Wang, Shui, Liu, Ying, Liu, Rui, Vourlidas, Angelos, Miao, Bin, Ye, Pinzhong, Liu, Jiajia & Zhou, Zhenjun, Nature Physics, 8, 923
12. High spatial resolution VAULT H-Lyα observations and multiwavelength analysis of an active region filament [15]
    Vial, J.-C., Olivier, K., Philippon, A. A., Vourlidas, A. & Yurchyshyn, V., A&A, 541, A108
13. Uncovering the Birth of a Coronal Mass Ejection from Two-Viewpoint SECCHI Observations [25]
    Vourlidas, A., Syntelis, P. & Tsinganos, K., Solar Physics, 280, 509
14. A decade of coronagraphic and spectroscopic studies of CME-driven shocks [13]
    Vourlidas, Angelos & Bemporad, Alessandro, Physics of the Heliosphere: A 10 Year Retrospective (Editors: Heerikhuisen, Jacob, Li, Gang, Pogorelov, Nikolai & Zank, Gary), American Institute of Physics Conference Series, 1436, p. 279
15. Magnetic Topology of Active Regions and Coronal Holes: Implications for Coronal Outflows and the Solar Wind [69]
    van Driel-Gesztelyi, L., Culhane, J. L., Baker, D., Démoulin, P., Mandrini, C. H., DeRosa, M. L., Rouillard, A. P., Opitz, A., Stenborg, G., Vourlidas, A. & Brooks, D. H., Solar Physics, 281, 237

2011

1. Deriving the Physical Parameters of a Solar Ejection with an Isotropic Magnetohydrodynamic Evolutionary Model [7]
   Berdichevsky, Daniel B., Stenborg, Guillermo & Vourlidas, Angelos, ApJ, 741, 47
2. Evidence for a current sheet forming in the wake of a coronal mass ejection from multi-viewpoint coronagraph observations [35]
   Patsourakos, S. & Vourlidas, A., A&A, 525, A27
3. Interpreting the Properties of Solar Energetic Particle Events by Using Combined Imaging and Modeling of Interplanetary Shocks [101]
   Rouillard, A. P., Odstřcil, D., Sheeley, N. R., Tylka, A., Vourlidas, A., Mason, G., Wu, C.-C., Savani, N. P., Wood, B. E., Ng, C. K., Stenborg, G., Szabo, A. & St. Cyr, O. C., ApJ, 735, 7
4. A novel technique to measure intensity fluctuations in EUV images and to detect coronal sound waves nearby active regions [19]
   Stenborg, G., Marsch, E., Vourlidas, A., Howard, R. & Baldwin, K., A&A, 526, A58
5. CME reconstruction: Pre-STEREO and STEREO era [46]
   Thernisien, A., Vourlidas, A. & Howard, R. A., Journal of Atmospheric and Solar-Terrestrial Physics, 73, 1156
6. The First Observation of a Rapidly Rotating Coronal Mass Ejection in the Middle Corona [127]
   Vourlidas, A., Colaninno, R., Nieves-Chinchilla, T. & Stenborg, G., ApJ, 733, L23
7. Uncovering the Wave Nature of the EIT Wave for the 2010 January 17 Event through Its Correlation to the Background Magnetosonic Speed [16]
   Zhao, X. H., Wu, S. T., Wang, A. H., Vourlidas, A., Feng, X. S. & Jiang, C. W., ApJ, 742, 131

2010

1. Evidence for extended acceleration of solar flare ions from 1-8 MeV solar neutrons detected with the MESSENGER Neutron Spectrometer [26]
   Feldman, William C., Lawrence, David J., Goldsten, John O., Gold, Robert E., Baker, Daniel N., Haggerty, Dennis K., Ho, George C., Krucker, SäM., Lin, Robert P., Mewaldt, Richard A., Murphy, Ronald J., Nittler, Larry R., Rhodes, Edgar A., Slavin, James A., Solomon, Sean C., Starr, Richard D., Vilas, Faith & Vourlidas, Angelos, Journal of Geophysical Research (Space Physics), 115, A01102
2. Tracking of Coronal White-Light Events by Texture [21]
   Goussies, N., Stenborg, G., Vourlidas, A. & Howard, R., Solar Physics, 262, 481
3. Reconstructing Coronal Mass Ejections with Coordinated Imaging and in Situ Observations: Global Structure, Kinematics, and Implications for Space Weather Forecasting [148]
   Liu, Ying, Thernisien, Arnaud, Luhmann, Janet G., Vourlidas, Angelos, Davies, Jackie A., Lin, Robert P. & Bale, Stuart D., ApJ, 722, 1762
4. Geometric Triangulation of Imaging Observations to Track Coronal Mass Ejections Continuously Out to 1 AU [185]
   Liu, Ying, Davies, Jackie A., Luhmann, Janet G., Vourlidas, Angelos, Bale, Stuart D. & Lin, Robert P., ApJ, 710, L82
5. Determining the Azimuthal Properties of Coronal Mass Ejections from Multi-Spacecraft Remote-Sensing Observations with STEREO SECCHI [134]
   Lugaz, N., Hernandez-Charpak, J. N., Roussev, I. I., Davis, C. J., Vourlidas, A. & Davies, J. A., ApJ, 715, 493
6. Sun to 1 AU propagation and evolution of a slow streamer-blowout coronal mass ejection [65]
   Lynch, B. J., Li, Y., Thernisien, A. F. R., Robbrecht, E., Fisher, G. H., Luhmann, J. G. & Vourlidas, A., Journal of Geophysical Research (Space Physics), 115, A07106
7. On the 3-D reconstruction of Coronal Mass Ejections using coronagraph data [139]
   Mierla, M., Inhester, B., Antunes, A., Boursier, Y., Byrne, J. P., Colaninno, R., Davila, J., de Koning, C. A., Gallagher, P. T., Gissot, S., Howard, R. A., Howard, T. A., Kramar, M., Lamy, P., Liewer, P. C., Maloney, S., Marqué, C., McAteer, R. T. J., Moran, T., Rodriguez, L., Srivastava, N., St. Cyr, O. C., Stenborg, G., Temmer, M., Thernisien, A., Vourlidas, A., West, M. J., Wood, B. E. & Zhukov, A. N., Annales Geophysicae, 28, 203
8. Toward understanding the early stages of an impulsively accelerated coronal mass ejection. SECCHI observations [95]
   Patsourakos, S., Vourlidas, A. & Kliem, B., A&A, 522, A100
9. The Genesis of an Impulsive Coronal Mass Ejection Observed at Ultra-high Cadence by AIA on SDO [101]
   Patsourakos, S., Vourlidas, A. & Stenborg, G., ApJ, 724, L188
10. Extreme Ultraviolet Observations and Analysis of Micro-Eruptions and Their Associated Coronal Waves [35]
    Podladchikova, O., Vourlidas, A., Van der Linden, R. A. M., Wülser, J.-P. & Patsourakos, S., ApJ, 709, 369
11. Intermittent release of transients in the slow solar wind: 1. Remote sensing observations [103]
    Rouillard, A. P., Davies, J. A., Lavraud, B., Forsyth, R. J., Savani, N. P., Bewsher, D., Brown, D. S., Sheeley, N. R., Davis, C. J., Harrison, R. A., Howard, R. A., Vourlidas, A., Lockwood, M., Crothers, S. R. & Eyles, C. J., Journal of Geophysical Research (Space Physics), 115, A04103
12. Examining Periodic Solar-Wind Density Structures Observed in the SECCHI Heliospheric Imagers [72]
    Viall, Nicholeen M., Spence, Harlan E., Vourlidas, Angelos & Howard, Russell, Solar Physics, 267, 175
13. Comprehensive Analysis of Coronal Mass Ejection Mass and Energy Properties Over a Full Solar Cycle [264]
    Vourlidas, A., Howard, R. A., Esfandiari, E., Patsourakos, S., Yashiro, S. & Michalek, G., ApJ, 722, 1522
14. The Structure and Dynamics of the Upper Chromosphere and Lower Transition Region as Revealed by the Subarcsecond VAULT Observations [63]
    Vourlidas, A., Sanchez Andrade-Nuño, B., Landi, E., Patsourakos, S., Teriaca, L., Schühle, U., Korendyke, C. M. & Nestoras, I., Solar Physics, 261, 53

2009

1. POLAR investigation of the Sun—POLARIS [23]
   Appourchaux, T., Liewer, P., Watt, M., Alexander, D., Andretta, V., Auchère, F., D'Arrigo, P., Ayon, J., Corbard, T., Fineschi, S., Finsterle, W., Floyd, L., Garbe, G., Gizon, L., Hassler, D., Harra, L., Kosovichev, A., Leibacher, J., Leipold, M., Murphy, N., Maksimovic, M., Martinez-Pillet, V., Matthews, B. S. A., Mewaldt, R., Moses, D., Newmark, J., Régnier, S., Schmutz, W., Socker, D., Spadaro, D., Stuttard, M., Trosseille, C., Ulrich, R., Velli, M., Vourlidas, A., Wimmer-Schweingruber, C. R. & Zurbuchen, T., Experimental Astronomy, 23, 1079
2. First Measurements of the Mass of Coronal Mass Ejections from the EUV Dimming Observed with STEREO EUVI A+B Spacecraft [63]
   Aschwanden, Markus J., Nitta, Nariaki V., Wuelser, Jean-Pierre, Lemen, James R., Sandman, Anne, Vourlidas, Angelos & Colaninno, Robin C., ApJ, 706, 376
3. First Determination of the True Mass of Coronal Mass Ejections: A Novel Approach to Using the Two STEREO Viewpoints [133]
   Colaninno, Robin C. & Vourlidas, Angelos, ApJ, 698, 852
4. The SOHO/LASCO CME Catalog [586]
   Gopalswamy, N., Yashiro, S., Michalek, G., Stenborg, G., Vourlidas, A., Freeland, S. & Howard, R., Earth Moon and Planets, 104, 295
5. Two Years of the STEREO Heliospheric Imagers. Invited Review [50]
   Harrison, Richard A., Davies, Jackie A., Rouillard, Alexis P., Davis, Christopher J., Eyles, Christopher J., Bewsher, Danielle, Crothers, Steve R., Howard, Russell A., Sheeley, Neil R., Vourlidas, Angelos, Webb, David F., Brown, Daniel S. & Dorrian, Gareth D., Solar Physics, 256, 219
6. Study of the 2007 April 20 CME-Comet Interaction Event with an MHD Model [21]
   Jia, Y. D., Russell, C. T., Jian, L. K., Manchester, W. B., Cohen, O., Vourlidas, A., Hansen, K. C., Combi, M. R. & Gombosi, T. I., ApJ, 696, L56
7. STEREO observations of interplanetary coronal mass ejections and prominence deflection during solar minimum period [121]
   Kilpua, E. K. J., Pomoell, J., Vourlidas, A., Vainio, R., Luhmann, J., Li, Y., Schroeder, P., Galvin, A. B. & Simunac, K., Annales Geophysicae, 27, 4491
8. Multispacecraft Observations of Magnetic Clouds and Their Solar Origins between 19 and 23 May 2007 [82]
   Kilpua, E. K. J., Liewer, P. C., Farrugia, C., Luhmann, J. G., Möstl, C., Li, Y., Liu, Y., Lynch, B. J., Russell, C. T., Vourlidas, A., Acuna, M. H., Galvin, A. B., Larson, D. & Sauvaud, J. A., Solar Physics, 254, 325
9. Dynamic Lyα jets [12]
   Koza, J., Rutten, R. J. & Vourlidas, A., A&A, 499, 917
10. Coronal Mass Ejections and Global Coronal Magnetic Field Reconfiguration [39]
    Liu, Ying, Luhmann, Janet G., Lin, Robert P., Bale, Stuart D., Vourlidas, Angelos & Petrie, Gordon J. D., ApJ, 698, L51
11. Deriving the radial distances of wide coronal mass ejections from elongation measurements in the heliosphere - application to CME-CME interaction [159]
    Lugaz, N., Vourlidas, A. & Roussev, I. I., Annales Geophysicae, 27, 3479
12. Solar - Terrestrial Simulation in the STEREO Era: The 24 - 25 January 2007 Eruptions [65]
    Lugaz, N., Vourlidas, A., Roussev, I. I. & Morgan, H., Solar Physics, 256, 269
13. The Impact of Geometry on Observations of CME Brightness and Propagation [11]
    Morrill, J. S., Howard, R. A., Vourlidas, A., Webb, D. F. & Kunkel, V., Solar Physics, 259, 179
14. Quantitative Measurements of Coronal Mass Ejection-Driven Shocks from LASCO Observations [176]
    Ontiveros, Veronica & Vourlidas, Angelos, ApJ, 693, 267
15. What Is the Nature of EUV Waves? First STEREO 3D Observations and Comparison with Theoretical Models [99]
    Patsourakos, S., Vourlidas, A., Wang, Y. M., Stenborg, G. & Thernisien, A., Solar Physics, 259, 49
16. "Extreme Ultraviolet Waves" are Waves: First Quadrature Observations of an Extreme Ultraviolet Wave from STEREO [155]
    Patsourakos, Spiros & Vourlidas, Angelos, ApJ, 700, L182
17. No Trace Left Behind: STEREO Observation of a Coronal Mass Ejection Without Low Coronal Signatures [217]
    Robbrecht, Eva, Patsourakos, Spiros & Vourlidas, Angelos, ApJ, 701, 283
18. Driving Currents for Flux Rope Coronal Mass Ejections [13]
    Subramanian, Prasad & Vourlidas, Angelos, ApJ, 693, 1219
19. Forward Modeling of Coronal Mass Ejections Using STEREO/SECCHI Data [526]
    Thernisien, A., Vourlidas, A. & Howard, R. A., Solar Physics, 256, 111
20. A Review of Coronagraphic Observations of Shocks Driven by Coronal Mass Ejections [50]
    Vourlidas, Angelos & Ontiveros, Veronica, Shock Waves in Space and Astrophysical Environments: 18th Annual International AstroPhysics Conference (Editors: Ao, Xianzhi & Burrows, Gary Zank Ross), American Institute of Physics Conference Series, 1183, p. 139
21. Morphology and density structure of post-CME current sheets [53]
    Vršnak, B., Poletto, G., Vujić, E., Vourlidas, A., Ko, Y.-K., Raymond, J. C., Ciaravella, A., Žic, T., Webb, D. F., Bemporad, A., Landini, F., Schettino, G., Jacobs, C. & Suess, S. T., A&A, 499, 905

2008

1. Sun Earth Connection Coronal and Heliospheric Investigation (SECCHI) [1744]
   Howard, R. A., Moses, J. D., Vourlidas, A., Newmark, J. S., Socker, D. G., Plunkett, S. P., Korendyke, C. M., Cook, J. W., Hurley, A., Davila, J. M., Thompson, W. T., St Cyr, O. C., Mentzell, E., Mehalick, K., Lemen, J. R., Wuelser, J. P., Duncan, D. W., Tarbell, T. D., Wolfson, C. J., Moore, A., Harrison, R. A., Waltham, N. R., Lang, J., Davis, C. J., Eyles, C. J., Mapson-Menard, H., Simnett, G. M., Halain, J. P., Defise, J. M., Mazy, E., Rochus, P., Mercier, R., Ravet, M. F., Delmotte, F., Auchere, F., Delaboudiniere, J. P., Bothmer, V., Deutsch, W., Wang, D., Rich, N., Cooper, S., Stephens, V., Maahs, G., Baugh, R., McMullin, D. & Carter, T., Space Science Reviews, 136, 67
2. The Solar Magnetic Field and Coronal Dynamics of the Eruption on 2007 May 19 [39]
   Li, Y., Lynch, B. J., Stenborg, G., Luhmann, J. G., Huttunen, K. E. J., Welsch, B. T., Liewer, P. C. & Vourlidas, A., ApJ, 681, L37
3. The Brightness of Density Structures at Large Solar Elongation Angles: What Is Being Observed by STEREO SECCHI? [35]
   Lugaz, N., Vourlidas, A., Roussev, I. I., Jacobs, C., Manchester, W. B., IV & Cohen, O., ApJ, 684, L111
4. Three-dimensional MHD Simulation of the 2003 October 28 Coronal Mass Ejection: Comparison with LASCO Coronagraph Observations [156]
   Manchester, Ward B., IV, Vourlidas, Angelos, Tóth, Gábor, Lugaz, Noé, Roussev, Ilia I., Sokolov, Igor V., Gombosi, Tamas I., De Zeeuw, Darren L. & Opher, Merav, ApJ, 684, 1448
5. How Efficient are Coronal Mass Ejections at Accelerating Solar Energetic Particles? [38]
   Mewaldt, R. A., Cohen, C. M. S., Giacalone, J., Mason, G. M., Chollet, E. E., Desai, M. I., Haggerty, D. K., Looper, M. D., Selesnick, R. S. & Vourlidas, A., Particle Acceleration and Transport in the Heliosphere and Beyond: 7th Annual International AstroPhysics Conference (Editors: Li, Gang, Hu, Qiang, Verkhoglyadova, Olga, Zank, Gary P., Lin, R. P. & Luhmann, J.), American Institute of Physics Conference Series, 1039, p. 111
6. STEREO SECCHI Stereoscopic Observations Constraining the Initiation of Polar Coronal Jets [147]
   Patsourakos, S., Pariat, E., Vourlidas, A., Antiochos, S. K. & Wuelser, J. P., ApJ, 680, L73
7. Heliospheric Images of the Solar Wind at Earth [141]
   Sheeley, N. R., Jr., Herbst, A. D., Palatchi, C. A., Wang, Y.-M., Howard, R. A., Moses, J. D., Vourlidas, A., Newmark, J. S., Socker, D. G., Plunkett, S. P., Korendyke, C. M., Burlaga, L. F., Davila, J. M., Thompson, W. T., St. Cyr, O. C., Harrison, R. A., Davis, C. J., Eyles, C. J., Halain, J. P., Wang, D., Rich, N. B., Battams, K., Esfandiari, E. & Stenborg, G., ApJ, 675, 853
8. SECCHI Observations of the Sun's Garden-Hose Density Spiral [63]
   Sheeley, N. R., Jr., Herbst, A. D., Palatchi, C. A., Wang, Y.-M., Howard, R. A., Moses, J. D., Vourlidas, A., Newmark, J. S., Socker, D. G., Plunkett, S. P., Korendyke, C. M., Burlaga, L. F., Davila, J. M., Thompson, W. T., St. Cyr, O. C., Harrison, R. A., Davis, C. J., Eyles, C. J., Halain, J. P., Wang, D., Rich, N. B., Battams, K., Esfandiari, E. & Stenborg, G., ApJ, 674, L109
9. A Fresh View of the Extreme-Ultraviolet Corona from the Application of a New Image-Processing Technique [89]
   Stenborg, Guillermo, Vourlidas, Angelos & Howard, Russell A., ApJ, 674, 1201
10. Physical parameters along the boundaries of a mid-latitude streamer and in its adjacent regions [37]
    Susino, R., Ventura, R., Spadaro, D., Vourlidas, A. & Landi, E., A&A, 488, 303

2007

1. Features and Properties of Coronal Mass Ejection/Flare Current Sheets [87]
   Lin, J., Li, J., Forbes, T. G., Ko, Y.-K., Raymond, J. C. & Vourlidas, A., ApJ, 658, L123
2. The Quiet Sun Network at Subarcsecond Resolution: VAULT Observations and Radiative Transfer Modeling of Cool Loops [39]
   Patsourakos, S., Gouttebroze, P. & Vourlidas, A., ApJ, 664, 1214
3. Physical parameters of a mid-latitude streamer during the declining phase of the solar cycle [21]
   Spadaro, D., Susino, R., Ventura, R., Vourlidas, A. & Landi, E., A&A, 475, 707
4. Energetics of solar coronal mass ejections [51]
   Subramanian, P. & Vourlidas, A., A&A, 467, 685
5. The Physical Properties of Coronal Streamers. II. [12]
   Uzzo, M., Strachan, L. & Vourlidas, A., ApJ, 671, 912
6. First Direct Observation of the Interaction between a Comet and a Coronal Mass Ejection Leading to a Complete Plasma Tail Disconnection [55]
   Vourlidas, Angelos, Davis, Chris J., Eyles, Chris J., Crothers, Steve R., Harrison, Richard A., Howard, Russell A., Moses, J. Daniel & Socker, Dennis G., ApJ, 668, L79
7. Identification of a Peculiar Radio Source in the Aftermath of Large Coronal Mass Ejection Events [3]
   Vourlidas, Angelos, Pick, Monique, Hoang, Sang & Démoulin, Pascal, ApJ, 656, L105

2006

1. The Flux-Rope Scaling of the Acceleration of Coronal Mass Ejections and Eruptive Prominences [44]
   Chen, J., Marqué, C., Vourlidas, A., Krall, J. & Schuck, P. W., ApJ, 649, 452
2. Analysis of the Velocity Field of CMEs Using Optical Flow Methods [29]
   Colaninno, Robin C. & Vourlidas, Angelos, ApJ, 652, 1747
3. Theoretical Investigation of the Onsets of Type II Radio Bursts during Solar Eruptions [54]
   Lin, Jun, Mancuso, Salvatore & Vourlidas, Angelos, ApJ, 649, 1110
4. Calibration of the Soho/Lasco C3 White Light Coronagraph [63]
   Morrill, J. S., Korendyke, C. M., Brueckner, G. E., Giovane, F., Howard, R. A., Koomen, M., Moses, D., Plunkett, S. P., Vourlidas, A., Esfandiari, E., Rich, N., Wang, D., Thernisien, A. F., Lamy, P., Llebaria, A., Biesecker, D., Michels, D., Gong, Q. & Andrews, M., Solar Physics, 233, 331
5. Multi-Wavelength Observations of CMEs and Associated Phenomena. Report of Working Group F [63]
   Pick, M., Forbes, T. G., Mann, G., Cane, H. V., Chen, J., Ciaravella, A., Cremades, H., Howard, R. A., Hudson, H. S., Klassen, A., Klein, K. L., Lee, M. A., Linker, J. A., Maia, D., Mikic, Z., Raymond, J. C., Reiner, M. J., Simnett, G. M., Srivastava, N., Tripathi, D., Vainio, R., Vourlidas, A., Zhang, J., Zurbuchen, T. H., Sheeley, N. R. & Marqué, C., Space Science Reviews, 123, 341
6. Coronal Observations of CMEs. Report of Working Group A [82]
   Schwenn, R., Raymond, J. C., Alexander, D., Ciaravella, A., Gopalswamy, N., Howard, R., Hudson, H., Kaufmann, P., Klassen, A., Maia, D., Munoz-Martinez, G., Pick, M., Reiner, M., Srivastava, N., Tripathi, D., Vourlidas, A., Wang, Y.-M. & Zhang, J., Space Science Reviews, 123, 127
7. Modeling of Flux Rope Coronal Mass Ejections [518]
   Thernisien, A. F. R., Howard, R. A. & Vourlidas, A., ApJ, 652, 763
8. Physical Properties of a 2003 April Quiescent Streamer [18]
   Uzzo, M., Strachan, L., Vourlidas, A., Ko, Y.-K. & Raymond, J. C., ApJ, 645, 720
9. The Proper Treatment of Coronal Mass Ejection Brightness: A New Methodology and Implications for Observations [207]
   Vourlidas, Angelos & Howard, Russell A., ApJ, 642, 1216
10. Sunspot Gyroresonance Emission at 17 GHz: A Statistical Study [26]
    Vourlidas, Angelos, Gary, Dale E. & Shibasaki, Kiyoto, Publications of the Astronomical Society of Japan, 58, 11
11. A Review of White Light Streamers at the End of Cycle 23 [3]
    Vourlidas, Angelos, Solar Activity and its Magnetic Origin (Editors: Bothmer, Volker & Hady, Ahmed Abdel), IAU Symposium, 233, p. 197
12. A Radio Burst and Its Associated CME on March 17, 2002 [23]
    Yan, Y., Pick, M., Wang, M., Krucker, S. & Vourlidas, A., Solar Physics, 239, 277

2005

1. Detection and Diagnostics of a Coronal Shock Wave Driven by a Partial-Halo Coronal Mass Ejection on 2000 June 28 [53]
   Ciaravella, A., Raymond, J. C., Kahler, S. W., Vourlidas, A. & Li, J., ApJ, 621, 1121
2. Coronal mass ejections and other extreme characteristics of the 2003 October-November solar eruptions [161]
   Gopalswamy, N., Yashiro, S., Liu, Y., Michalek, G., Vourlidas, A., Kaiser, M. L. & Howard, R. A., Journal of Geophysical Research (Space Physics), 110, A09S15
3. Fast coronal mass ejection environments and the production of solar energetic particle events [63]
   Kahler, S. W. & Vourlidas, A., Journal of Geophysical Research (Space Physics), 110, A12S01
4. Energetics of Coronal Mass Ejections [2]
   Subramanian, Prasad & Vourlidas, Angelos, Coronal and Stellar Mass Ejections (Editors: Dere, Kenneth, Wang, Jingxiu & Yan, Yihua), IAU Symposium, 226, p. 314

2004

1. Energy partition in two solar flare/CME events [238]
   Emslie, A. G., Kucharek, H., Dennis, B. R., Gopalswamy, N., Holman, G. D., Share, G. H., Vourlidas, A., Forbes, T. G., Gallagher, P. T., Mason, G. M., Metcalf, T. R., Mewaldt, R. A., Murphy, R. J., Schwartz, R. A. & Zurbuchen, T. H., Journal of Geophysical Research (Space Physics), 109, A10104
2. An interplanetary shock traced by planetary auroral storms from the Sun to Saturn [104]
   Prangé, Renée, Pallier, Laurent, Hansen, Kenneth C., Howard, Russ, Vourlidas, Angelos, Courtin, Régis & Parkinson, Chris, Nature, 432, 78
3. A Study of the Kinematic Evolution of Coronal Mass Ejections [256]
   Zhang, J., Dere, K. P., Howard, R. A. & Vourlidas, A., ApJ, 604, 420

2003

1. Physical Parameters of the 2000 February 11 Coronal Mass Ejection: Ultraviolet Spectra versus White-Light Images [58]
   Ciaravella, A., Raymond, J. C., van Ballegooijen, A., Strachan, L., Vourlidas, A., Li, J., Chen, J. & Panasyuk, A., ApJ, 597, 1118
2. Constraints on Coronal Mass Ejection Dynamics from Simultaneous Radio and White-Light Observations [94]
   Reiner, M. J., Vourlidas, A., Cyr, O. C. St., Burkepile, J. T., Howard, R. A., Kaiser, M. L., Prestage, N. P. & Bougeret, J.-L., ApJ, 590, 533
3. Direct Detection of a Coronal Mass Ejection-Associated Shock in Large Angle and Spectrometric Coronagraph Experiment White-Light Images [225]
   Vourlidas, A., Wu, S. T., Wang, A. H., Subramanian, P. & Howard, R. A., ApJ, 598, 1392

2002

1. Solar Phenomena Associated with ``EIT Waves'' [235]
   Biesecker, D. A., Myers, D. C., Thompson, B. J., Hammer, D. M. & Vourlidas, A., ApJ, 569, 1009
2. Solar energetic electron events and coronal shocks [72]
   Klassen, A., Bothmer, V., Mann, G., Reiner, M. J., Krucker, S., Vourlidas, A. & Kunow, H., A&A, 385, 1078
3. Analysis of LASCO observations of streamer blowout events [5]
   Vourlidas, A., Howard, R. A., Morrill, J. S. & Munz, S., Cospar, 14, 201

2001

1. SOHO Observations of a Coronal Mass Ejection [117]
   Akmal, Arya, Raymond, John C., Vourlidas, Angelos, Thompson, Barbara, Ciaravella, A., Ko, Y.-K., Uzzo, M. & Wu, R., ApJ, 553, 922
2. The Coronal Mass Ejection of 1998 April 20: Direct Imaging at Radio Wavelengths [170]
   Bastian, T. S., Pick, M., Kerdraon, A., Maia, D. & Vourlidas, A., ApJ, 558, L65
3. Deriving the Electron Density of the Solar Corona from the Inversion of Total Brightness Measurements [138]
   Hayes, A. P., Vourlidas, A. & Howard, R. A., ApJ, 548, 1081
4. High-resolution Imaging of the Upper Solar Chromosphere: First Light Performance of the Very-high-Resolution Advanced ULtraviolet Telescope [36]
   Korendyke, C. M., Vourlidas, A., Cook, J. W., Dere, K. P., Howard, R. A., Morrill, J. S., Moses, J. D., Moulton, N. E. & Socker, D. G., Solar Physics, 200, 63
5. Tracing shock waves from the corona to 1 AU: Type II radio emission and relationship with CMEs [79]
   Leblanc, Yolande, Dulk, George A., Vourlidas, Angelos & Bougeret, Jean-Louis, Journal of Geophysical Research, 106, 25301
6. Determination of three-dimensional structure of coronal streamers and relationship to the solar magnetic field [35]
   Liewer, P. C., Hall, J. R., De Jong, M., Socker, D. G., Howard, R. A., Crane, P. C., Reiser, P., Rich, N. & Vourlidas, A., Journal of Geophysical Research, 106, 15903
7. Coronal Mass Ejection of 2000 July 14 Flare Event: Imaging from Near-Sun to Earth Environment [76]
   Manoharan, P. K., Tokumaru, M., Pick, M., Subramanian, P., Ipavich, F. M., Schenk, K., Kaiser, M. L., Lepping, R. P. & Vourlidas, A., ApJ, 559, 1180
8. Statistical analysis of coronal shock dynamics implied by radio and white-light observations [51]
   Reiner, M. J., Kaiser, M. L., Gopalswamy, N., Aurass, H., Mann, G., Vourlidas, A. & Maksimovic, M., Journal of Geophysical Research, 106, 25279
9. On the Correlation between Coronal and Lower Transition Region Structures at Arcsecond Scales [40]
   Vourlidas, A., Klimchuk, J. A., Korendyke, C. M., Tarbell, T. D. & Handy, B. N., ApJ, 563, 374

2000

1. Radio-rich solar eruptive events [90]
   Gopalswamy, N., Kaiser, M. L., Thompson, B. J., Burlaga, L. F., Szabo, A., Lara, A., Vourlidas, A., Yashiro, S. & Bougeret, J.-L., Geophysical Research Letters, 27, 1427
2. In-flight performance of the Very high Angular resolution ULtraviolet Telescope sounding rocket payload [1]
   Korendyke, Clarence M., Vourlidas, A., Cook, John W., Dere, Kenneth P., Feldman, R., Howard, Russell A., Lilley, D. N., Morrill, Jeff S., Moses, J. Daniel, Moulton, Norman E., Moye, Robert W., Roberts, D. E., Shepler, E. L., Smith, J. K., Socker, Dennis G., Spears, T. R., Waymire, R. S., Brown, Wayne E., Tarbell, Theodore D., Berger, Tom & Handy, Brian N., Instrumentation for UV/EUV Astronomy and Solar Missions (Editors: Fineschi, Silvano, Korendyke, Clarence M., Siegmund, Oswald H. & Woodgate, Bruce E.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 4139, p. 340
3. Flare- and coronal mass ejection (CME)-associated type II bursts and related radio emissions [13]
   Leblanc, Yolande, Dulk, George A., Vourlidas, Angelos & Bougeret, Jean-Louis, Journal of Geophysical Research, 105, 18225
4. Coronal Mass Ejections and Large Scale Structure of the Corona [1]
   Maia, D., Vourlidas, A., Pick, M., Howard, R., Schwenn, R. & Lamy, P., Advances in Space Research, 25, 1843
5. Development of Coronal Mass Ejections: Radio Shock Signatures [67]
   Maia, Dalmiro, Pick, Monique, Vourlidas, Angelos & Howard, Russel, ApJ, 528, L49
6. Simultaneous SOHO and Ground-Based Observations of a Large Eruptive Prominence and Coronal Mass Ejection [128]
   Plunkett, S. P., Vourlidas, A., Šimberová, S., Karlický, M., Kotrč, P., Heinzel, P., Kupryakov, Yu. A., Guo, W. P. & Wu, S. T., Solar Physics, 194, 371
7. Large-Angle Spectrometric Coronagraph Measurements of the Energetics of Coronal Mass Ejections [275]
   Vourlidas, A., Subramanian, P., Dere, K. P. & Howard, R. A., ApJ, 534, 456

1999

1. Nonthermal Radio Signatures of Coronal Disturbances with and without Coronal Mass Ejections [30]
   Aurass, H., Vourlidas, A., Andrews, M. D., Thompson, B. J., Howard, R. H. & Mann, G., ApJ, 511, 451
2. Calibrated H I Lyman α Observations with TRACE [21]
   Handy, B. N., Tarbell, T. D., Wolfson, C. J., Korendyke, C. M. & Vourlidas, A., Solar Physics, 190, 351

1997

1. The Structure of the Solar Corona above Sunspots as Inferred from Radio, X-Ray, and Magnetic Field Observations [35]
   Vourlidas, A., Bastian, T. S. & Aschwanden, M. J., ApJ, 489, 403

1996

1. Joint Radio and Soft X-Ray Imaging of an `Anemone' Active Region [15]
   Vourlidas, A., Bastian, T. S., Nitta, N. & Aschwanden, M. J., Solar Physics, 163, 99
2. Multiband VLA Observations of Solar Active Regions: Implications for the Distribution of Coronal Plasma [9]
   Vourlidas, A. & Bastian, T. S., ApJ, 466, 1039