First-authored, refereed papers of Noe Lugaz

A list of first-authored, refereed publications of Noe Lugaz, 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: 0000-0002-1890-6156

List of publications ordered by citations
Number of papers: 45
No. of citations: 2144

2026

  1. The Student Collaboration of the Interstellar Mapping And Acceleration Probe (IMAP) Mission: The 3UCubed CubeSat Project and Associated Space Science and Engineering Education [0]
    Lugaz, Noé, Bartolone, Lindsay, Peticolas, Laura M., Alfred, Marcus, Mehta, Sanjeev, Lessard, Marc, Smith, Sonya, Stewart, Christopher, Reedy, Jeffrey, Clarke, Douglas B., Burgett, Jenna, Adams, Oshione, Bedell, Kaiden, Bisson, Kelly, Blais, Sabrina, Blackwell, Brooklyn, Bradley, Luke, Brannan, Jayme, Brunson, Aniyah, Budhathoki, Avash, Campbell, Jeffrey, Casas Gatica, Luis, Castellanos-Vasquez, Erik, Champagne, Mathieu, Chesley, Alex, Conant, Camren, Cooper, Nassim, Copeland, Christina, Coston, Kelsy, Davis, Ruth, Dawson-Trujllo, Jack, Diaz Ramirez, Erika, Estrada, Aaron John, Flynn, Delaney, Foster, Walter, Fowler, Damian, Gales, Matthew, Gopar Carreno, Cristopher, Grant, Jeffrey, Haynes, Ashley, Jackson, Adri, Jean-Baptiste, Wilson, Jiang, Hanyu, Joeger, Haley, Juneau, Nolan, Kierstdet, Tyrese, King, Jared, Mann, Ayanna, Manna, Sia, McGee, Carissma, McLain, Emily, Mora, Onasis, Morrison, Jared, Morrissette, Casey, Nelson, MonTrell, Ogunbanj, Oluwatamilore, Ortiz, Jennifer, Perez, Jonathan, Phyllides, Devin, Pope, Myles, Power, Michaela, Quenneville, Eben, Richardson, Taran, Rochman, Tony, Rollend, Matthew, Rubalcava, Logan, Russell, Aaron, Sager, Trinity, Sanchez, Christian, Santos, Anthony, Schneider, Jack, Vasquez, Alex, Walker, Alexandria, White, Kennedi, Whitfield, Jaela, Williams, Avery, Woods, Shane, Davis, Hilarie, Cominsky, Lynn R. & Jernigan, J. Garrett, Space Science Reviews, 222, 13

2025

  1. Heliospheric Turbulence: Presidential Budget Request Offers a Bleak Forecast for Space Weather Research [0]
    Lugaz, N. & Carter, B. A., Space Weather, 23, e2025SW004589
  2. Space Weather: New Directions for a Maturing Field and Journal [0]
    Lugaz, Noé & Morley, Steven K., Space Weather, 23, e2025SW004872
  3. For All Humankind: Peaceful, Ethical, Cooperative, and Curiosity-Driven Space Science and Space Weather Research [0]
    Lugaz, Noé, Space Weather, 23, e2025SW004707
  4. Space Weather Into the 2030s: The 2024 Solar and Space Physics Decadal Survey [1]
    Lugaz, Noé, Space Weather, 23, 2025SW004361
  5. The Need for a Sub-L1 Space Weather Research Mission: Current Knowledge Gaps on Coronal Mass Ejections [11]
    Lugaz, Noé, Al-Haddad, Nada, Zhuang, Bin, Möstl, Christian, Davies, Emma E., Farrugia, Charles J., Banu, Sahanaj Aktar, Weiler, Eva & Galvin, Antoinette B., Space Weather, 23, 2024SW004189

2024

  1. In Memoriam of Editor Jennifer L. Gannon [9]
    Lugaz, Noé, Knipp, Delores, Morley, Steven K., Liu, Huixin, Hapgood, Mike, Carter, Brett, Zou, Shasha, Lei, Jiuhou & Welling, Dan, Space Weather, 22, e2024SW004016
  2. The Need for Near-Earth Multi-Spacecraft Heliospheric Measurements and an Explorer Mission to Investigate Interplanetary Structures and Transients in the Near-Earth Heliosphere [16]
    Lugaz, Noé, Lee, Christina O., Al-Haddad, Nada, Lillis, Robert J., Jian, Lan K., Curtis, David W., Galvin, Antoinette B., Whittlesey, Phyllis L., Rahmati, Ali, Zesta, Eftyhia, Moldwin, Mark, Summerlin, Errol J., Larson, Davin E., Courtade, Sasha, French, Richard, Hunter, Richard, Covitti, Federico, Cosgrove, Daniel, Prall, J. D., Allen, Robert C., Zhuang, Bin, Winslow, Réka M., Scolini, Camilla, Lynch, Benjamin J., Filwett, Rachael J., Palmerio, Erika, Farrugia, Charles J., Smith, Charles W., Möstl, Christian, Weiler, Eva, Janvier, Miho, Regnault, Florian, Livi, Roberto & Nieves-Chinchilla, Teresa, Space Science Reviews, 220, 73
  3. The Width of Magnetic Ejecta Measured near 1 au: Lessons from STEREO-A Measurements in 2021─2022 [21]
    Lugaz, Noé, Zhuang, Bin, Scolini, Camilla, Al-Haddad, Nada, Farrugia, Charles J., Winslow, Réka M., Regnault, Florian, Möstl, Christian, Davies, Emma E. & Galvin, Antoinette B., ApJ, 962, 193

2023

  1. New Space Companies Meet a "Normal" Solar Maximum [3]
    Lugaz, Noé, Liu, Huixin, Carter, Brett A., Gannon, Jennifer, Zou, Shasha & Morley, Steven K., Space Weather, 21, e2023SW003702

2022

  1. Space Weather Bibliometrics for 2022: Going Beyond Impact Factor [1]
    Lugaz, Noé, Space Weather, 20, e2022SW003276
  2. 2024 Decadal Survey for Space and Solar Physics: Space Weather Inputs [0]
    Lugaz, Noé, Gannon, Jennifer L., Zou, Shasha, Morley, Steven K., Liu, Huixin, Carter, Brett A. & Hapgood, Michael, Space Weather, 20, e2022SW003181
  3. A Coronal Mass Ejection and Magnetic Ejecta Observed In Situ by STEREO-A and Wind at 55° Angular Separation [23]
    Lugaz, Noé, Salman, Tarik M., Zhuang, Bin, Al-Haddad, Nada, Scolini, Camilla, Farrugia, Charles J., Yu, Wenyuan, Winslow, Réka M., Möstl, Christian, Davies, Emma E. & Galvin, Antoinette B., ApJ, 929, 149

2021

  1. Machine-Learning Research in the Space Weather Journal: Prospects, Scope, and Limitations [5]
    Lugaz, Noé, Liu, Huixin, Hapgood, Mike & Morley, Steven, Space Weather, 19, e2021SW003000
  2. Plain Language Summaries Required for Submission to the Space Weather Journal [1]
    Lugaz, Noé, Space Weather, 19, e2021SW002760

2020

  1. Evolution of a Long-Duration Coronal Mass Ejection and Its Sheath Region Between Mercury and Earth on 9-14 July 2013 [37]
    Lugaz, N., Winslow, R. M. & Farrugia, C. J., Journal of Geophysical Research (Space Physics), 125, e27213
  2. PROSWIFT Bill and the 2020 Space Weather Operations and Research Infrastructure Workshop From the National Academies of Sciences, Engineering, and Medicine [1]
    Lugaz, Noé & Lugaz, Space Weather, 18, e02628
  3. Future Interplanetary Space Weather Assets [1]
    Lugaz, Noé, Space Weather, 18, e02518
  4. Inconsistencies Between Local and Global Measures of CME Radial Expansion as Revealed by Spacecraft Conjunctions [39]
    Lugaz, Noé, Salman, Tarik M., Winslow, Réka M., Al-Haddad, Nada, Farrugia, Charles J., Zhuang, Bin & Galvin, Antoinette B., ApJ, 899, 119

2019

  1. Space Weather Journal: Maturation and Open-Access Future [0]
    Lugaz, Noé, Space Weather, 17, 1508

2018

  1. On the Spatial Coherence of Magnetic Ejecta: Measurements of Coronal Mass Ejections by Multiple Spacecraft Longitudinally Separated by 0.01 au [73]
    Lugaz, Noé, Farrugia, Charles J., Winslow, Reka M., Al-Haddad, Nada, Galvin, Antoinette B., Nieves-Chinchilla, Teresa, Lee, Christina O. & Janvier, Miho, ApJ, 864, L7

2017

  1. The Interaction of Successive Coronal Mass Ejections: A Review [212]
    Lugaz, Noé, Temmer, Manuela, Wang, Yuming & Farrugia, Charles J., Solar Physics, 292, 64
  2. Importance of CME Radial Expansion on the Ability of Slow CMEs to Drive Shocks [39]
    Lugaz, Noé, Farrugia, Charles J., Winslow, Reka M., Small, Colin R., Manion, Thomas & Savani, Neel P., ApJ, 848, 75

2016

  1. Factors affecting the geoeffectiveness of shocks and sheaths at 1 AU [74]
    Lugaz, N., Farrugia, C. J., Winslow, R. M., Al-Haddad, N., Kilpua, E. K. J. & Riley, P., Journal of Geophysical Research (Space Physics), 121, 10,861
  2. Earth's magnetosphere and outer radiation belt under sub-Alfvénic solar wind [29]
    Lugaz, Noé, Farrugia, Charles J., Huang, Chia-Lin, Winslow, Reka M., Spence, Harlan E. & Schwadron, Nathan A., Nature Communications, 7, 13001

2015

  1. Shocks inside CMEs: A survey of properties from 1997 to 2006 [72]
    Lugaz, N., Farrugia, C. J., Smith, C. W. & Paulson, K., Journal of Geophysical Research (Space Physics), 120, 2409
  2. Extreme geomagnetic disturbances due to shocks within CMEs [52]
    Lugaz, N., Farrugia, C. J., Huang, C.-L. & Spence, H. E., Geophysical Research Letters, 42, 4694

2014

  1. A new class of complex ejecta resulting from the interaction of two CMEs and its expected geoeffectiveness [64]
    Lugaz, N. & Farrugia, C. J., Geophysical Research Letters, 41, 769

2013

  1. Effect of Solar Wind Drag on the Determination of the Properties of Coronal Mass Ejections from Heliospheric Images [19]
    Lugaz, N. & Kintner, P., Solar Physics, 285, 281
  2. The Interaction of Two Coronal Mass Ejections: Influence of Relative Orientation [67]
    Lugaz, N., Farrugia, C. J., Manchester, W. B., IV & Schwadron, N., ApJ, 778, 20

2012

  1. Heliospheric Observations of STEREO-Directed Coronal Mass Ejections in 2008 - 2010: Lessons for Future Observations of Earth-Directed CMEs [26]
    Lugaz, N., Kintner, P., Möstl, C., Jian, L. K., Davis, C. J. & Farrugia, C. J., Solar Physics, 279, 497
  2. The Deflection of the Two Interacting Coronal Mass Ejections of 2010 May 23-24 as Revealed by Combined in Situ Measurements and Heliospheric Imaging [168]
    Lugaz, N., Farrugia, C. J., Davies, J. A., Möstl, C., Davis, C. J., Roussev, I. I. & Temmer, M., ApJ, 759, 68

2011

  1. Numerical modeling of interplanetary coronal mass ejections and comparison with heliospheric images [53]
    Lugaz, N. & Roussev, I. I., Journal of Atmospheric and Solar-Terrestrial Physics, 73, 1187
  2. Numerical Investigation of a Coronal Mass Ejection from an Anemone Active Region: Reconnection and Deflection of the 2005 August 22 Eruption [115]
    Lugaz, N., Downs, C., Shibata, K., Roussev, I. I., Asai, A. & Gombosi, T. I., ApJ, 738, 127
  3. Determining CME parameters by fitting heliospheric observations: Numerical investigation of the accuracy of the methods [13]
    Lugaz, Noé, Roussev, Ilia I. & Gombosi, Tamas I., Advances in Space Research, 48, 292

2010

  1. Accuracy and Limitations of Fitting and Stereoscopic Methods to Determine the Direction of Coronal Mass Ejections from Heliospheric Imagers Observations [99]
    Lugaz, N., Solar Physics, 267, 411
  2. 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
  3. Solar-Terrestrial Simulations of CMEs with a Realistic Initiation Mechanism: Case Study for Active Region 10069 [8]
    Lugaz, N., Roussev, I. I., Sokolov, I. V. & Jacobs, C., Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 440

2009

  1. 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
  2. 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

2008

  1. Observational evidence of CMEs interacting in the inner heliosphere as inferred from MHD simulations [19]
    Lugaz, N., Manchester, W. B., IV, Roussev, I. I. & Gombosi, T. I., Journal of Atmospheric and Solar-Terrestrial Physics, 70, 598
  2. 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

2007

  1. Numerical Investigation of the Homologous Coronal Mass Ejection Events from Active Region 9236 [89]
    Lugaz, N., Manchester, W. B., IV, Roussev, I. I., Tóth, G. & Gombosi, T. I., ApJ, 659, 788

2005

  1. Numerical Simulation of the Interaction of Two Coronal Mass Ejections from Sun to Earth [189]
    Lugaz, N., Manchester, W. B., IV & Gombosi, T. I., ApJ, 634, 651
  2. The Evolution of Coronal Mass Ejection Density Structures [102]
    Lugaz, N., Manchester, W. B., IV & Gombosi, T. I., ApJ, 627, 1019

Created on Wed Apr 22 04:27:57 2026.