Publications of Huw Morgan

A list of publications authored or co-authored by Huw Morgan, 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: 0000-0002-6547-5838

List of publications ordered by citations
Number of papers: 100 (refereed: 98)
No. of citations: 2391
First author papers: 27 (refereed: 27)

2026

1. Polarimeter to Unify the Corona and Heliosphere (PUNCH) [11]
   DeForest, Craig E., Gibson, Sarah E., Killough, Ronnie, Waltham, Nick R., Beasley, Matt N., Colaninno, Robin C., Laurent, Glenn T., Seaton, Daniel B., Hughes, J. Marcus, Guhathakurta, Madhulika, Viall, Nicholeen M., Attié, Raphael, Banerjee, Dipankar, Barnard, Luke, Biesecker, Doug A., Bisi, Mario M., Bothmer, Volker, Brody, Antonina, Burkepile, Joan, Cairns, Iver H., Campbell, Jennifer L., Case, Traci R., Caspi, Amir, Cheney, David, Chhiber, Rohit, Clapp, Matthew J., Cranmer, Steven R., Davies, Jackie A., de Koning, Curt A., Desai, Mihir I., Elliott, Heather A., Farid, Samaiyah, Gallardo-Lacourt, Bea, Gilly, Chris, Gobat, Caden, Hanson, Mary H., Harrison, Richard A., Hassler, Donald M., Henley, Chase, Henry, Alan M., Howard, Russell A., Jackson, Bernard V., Jones, Samuel, Kolinski, Don, Lamb, Derek A., Lehtinen, Florine, Lowder, Chris, Malanushenko, Anna, Matthaeus, William H., McComas, David J., McGee, Jacob, Morgan, Huw, Oberoi, Divya, Odstrcil, Dusan, Parmenter, Chris, Patel, Ritesh, Pecora, Francesco, Persyn, Steve, Pizzo, Victor J., Plunkett, Simon P., Provornikova, Elena, Raouafi, Nour Eddine, Redfern, Jillian A., Rouillard, Alexis P., Smith, Kelly D., Smith, Keith B., Talpas, Zachary S., Tappin, S. James, Thernisien, Arnaud, Thompson, Barbara J., Van Kooten, Samuel, Walsh, Kevin J., Webb, David F., Wells, William L., West, Matthew J., Wiens, Zachary, Yang, Yan & Zhukov, Andrei N., Solar Physics, 301, 16
2. Statistical Patterns in the Time Evolution of Interface Region Imaging Spectrograph Bright Points [0]
   Humphries, Llŷr Dafydd, Morgan, Huw & Kuridze, David, ApJ, 999, 165
3. Five-minute Periodicities in the Population of Solar Coronal Brightenings [0]
   Morgan, Huw, Taroyan, Yeghiazar, Gandhi, Harshita, Humphries, Llŷr & Pillai, Shaktivel, ApJ, 999, 233

2025

1. The Coronal Plasma Density Structure over a Solar Cycle: A Comparison of Tomography and Magnetohydrodynamic Simulations [0]
   Edwards, Liam T., Morgan, Huw, Riley, Pete & Linker, Jon A., ApJ, 987, 183
2. CNN-Based Model for 3D CME Parameter Prediction - A Proof of Concept [0]
   Gandhi, Harshita, Morgan, Huw & Thomas, Cory, essoar.175156660
3. Linking Magnetic Field Diagnostics with 3D Coronal Mass Ejection Speeds in Solar Active Regions [0]
   Gandhi, Harshita & Morgan, Huw, ApJ, 995, 158
4. Linking Critical Heights in Solar Active Regions with 3D Coronal Mass Ejection Speeds: Insights from Automated and Manual Polarity Inversion Line Detection Methods [1]
   Gandhi, Harshita, James, Alexander W., Morgan, Huw & Green, Lucie, ApJ, 983, 103
5. Above-ionization synchrotron-excited silicon-based nanograins by x-ray and EUV radiation: Implications to grain stability and shielding in planetary nebulae [1]
   Nayfeh, Munir H., Mantey, Kevin, Elhalawany, Noha, Malloy, James, Morgan, Huw, Xu, Jiacheng, Taukenov, Aman & Abuhassan, Laila, AIP Advances, 15, 085126

2024

1. Connecting the Low to High Corona: Propagating Disturbances as Tracers of the Near-Sun Solar Wind [10]
   Alzate, Nathalia, Di Matteo, Simone, Morgan, Huw, Viall, Nicholeen & Vourlidas, Angelos, ApJ, 973, 130
2. Constraints on Solar Wind Density and Velocity Based on Coronal Tomography and Parker Solar Probe Measurements [9]
   Bunting, Kaine A., Barnard, Luke, Owens, Mathew J. & Morgan, Huw, ApJ, 961, 64
3. Correcting Projection Effects in CMEs Using GCS-Based Large Statistics of Multi-Viewpoint Observations [5]
   Gandhi, Harshita, Patel, Ritesh, Pant, Vaibhav, Majumdar, Satabdwa, Pal, Sanchita, Banerjee, Dipankar & Morgan, Huw, Space Weather, 22, e2023SW003805
4. An In-depth Analysis of Quiet-Sun IRIS Brightenings [4]
   Humphries, Llŷr Dafydd, Morgan, Huw & Kuridze, David, ApJ, 976, 194
5. First Insights into the Applicability and Importance of Different 3D Magnetic Field Extrapolation Approaches for Studying the Preeruptive Conditions of Solar Active Regions [8]
   Korsós, Marianna B., Jarolim, Robert, Erdélyi, Robertus, Veronig, Astrid M., Morgan, Huw & Zuccarello, Francesca, ApJ, 962, 171
6. Insight into the Solar Plage Chromosphere with DKIST [13]
   Kuridze, David, Uitenbroek, Han, Wöger, Friedrich, Mathioudakis, Mihalis, Morgan, Huw, Campbell, Ryan, Fischer, Catherine, Cauzzi, Gianna, Schad, Thomas, Reardon, Kevin, da Silva Santos, João M., Beck, Christian, Tritschler, Alexandra & Rimmele, Thomas, ApJ, 965, 15

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. Tracking Nonradial Outflows in Extreme Ultraviolet and White Light Solar Images [10]
   Alzate, Nathalia, Morgan, Huw & Di Matteo, Simone, ApJ, 945, 116
3. An Empirical Relationship Between Coronal Density and Solar Wind Velocity in the Middle Corona With Applications to Space Weather [4]
   Bunting, Kaine A. & Morgan, Huw, Space Weather, 21, e2023SW003448
4. Derived Electron Densities from Linear Polarization Observations of the Visible-Light Corona During the 14 December 2020 Total Solar Eclipse [3]
   Edwards, Liam, Bunting, Kaine A., Ramsey, Brad, Gunn, Matthew, Fearn, Tomos, Knight, Thomas, Muro, Gabriel Domingo & Morgan, Huw, Solar Physics, 298, 140
5. Visible Emission Line Spectroscopy of the Solar Corona During the 2019 Total Solar Eclipse [6]
   Muro, Gabriel D., Gunn, Matt, Fearn, Stephen, Fearn, Tomos & Morgan, Huw, Solar Physics, 298, 75
6. Automated analysis of oscillations in coronal bright points [4]
   Ramsey, B., Verwichte, E. & Morgan, H., A&A, 679, A10

2022

1. An inner boundary condition for solar wind models based on coronal density [10]
   Bunting, Kaine A. & Morgan, Huw, Journal of Space Weather and Space Climate, 12, 30
2. A Solar-cycle Study of Coronal Rotation: Large Variations, Rapid Changes, and Implications for Solar-wind Models [18]
   Edwards, Liam, Kuridze, David, Williams, Thomas & Morgan, Huw, ApJ, 928, 42
3. HiRISE - High-Resolution Imaging and Spectroscopy Explorer - Ultrahigh resolution, interferometric and external occulting coronagraphic science [1]
   Erdélyi, Robertus, Damé, Luc, Fludra, Andrzej, Mathioudakis, Mihalis, Amari, T., Belucz, B., Berrilli, F., Bogachev, S., Bolsée, D., Bothmer, V., Brun, S., Dewitte, S., de Wit, T. Dudok, Faurobert, M., Gizon, L., Gyenge, N., Korsós, M. B., Labrosse, N., Matthews, S., Meftah, M., Morgan, H., Pallé, P., Rochus, P., Rozanov, E., Schmieder, B., Tsinganos, K., Verwichte, E., Zharkov, S., Zuccarello, F. & Wimmer-Schweingruber, R., Experimental Astronomy, 54, 227
4. Magnetic Helicity Flux Oscillations in the Atmospheres of Flaring and Nonflaring Active Regions [8]
   Korsós, M. B., Erdélyi, R., Huang, X. & Morgan, H., ApJ, 933, 66
5. Ionization-induced optical heterogeneity and ion-like direct emission in 1-nm silicon nanoparticle grains: Prospect for fast optical modulation [3]
   Mantey, Kevin, Morgan, Huw, Nayfeh, Ammar, Bahceci, Ersin & Nayfeh, Munir H., AIP Advances, 12, 125007
6. An Improved Method for Estimating the Velocity Field of Coronal Propagating Disturbances [5]
   Morgan, Huw & Korsós, Marianna B., Solar Physics, 297, 102
7. Tracing the Magnetic Field Topology of the Quiet Corona Using Propagating Disturbances [5]
   Morgan, Huw & Korsós, Marianna B., ApJ, 933, L27
8. Time-thermo-dynamics of anti-Stokes and Stokes scattering and luminescence in 1-nm silicon nanoparticles: Toward an optical nanorefrigerator [2]
   Nayfeh, Munir H., Morgan, Huw, Nayfeh, Ammar, Bahceci, Ersin & Abuhassan, Laila, AIP Advances, 12, 065219
9. SULIS: A coronal magnetism explorer for ESA's Voyage 2050 [1]
   Scullion, E., Morgan, H., Lin, H., Fedun, V. & Morton, R., Experimental Astronomy, 54, 317
10. On the Differences in the Periodic Behavior of Magnetic Helicity Flux in Flaring Active Regions with and without X-class Events [10]
    Soós, Sz., Korsós, M. B., Morgan, H. & Erdélyi, R., ApJ, 925, 129
11. Automated Detection of coronaL MAss Ejecta origiNs for Space Weather AppliCations (ALMANAC) [8]
    Williams, Thomas & Morgan, Huw, Space Weather, 20, e2022SW003253

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. Detecting and Characterising Small-Scale Brightenings in Solar Imaging Data [8]
   Humphries, Llŷr Dafydd, Morgan, Huw & Kuridze, David, Solar Physics, 296, 140
3. A Multi-wavelength Analysis of Small-scale Brightenings Observed by IRIS [7]
   Humphries, Llŷr Dafydd & Morgan, Huw, ApJ, 922, 226
4. Testing and Validating Two Morphological Flare Predictors by Logistic Regression Machine Learning [6]
   Korsós, M. B., Erdélyi, R., Liu, J. & Morgan, H., Frontiers in Astronomy and Space Sciences, 7, 113
5. Dynamic transition of nanosilicon from indirect to direct-like nature by strain-induced structural relaxation [2]
   Mantey, Kevin, Morgan, Huw, Boparai, Jack, Yamani, Zain, Bahceci, Ersin & Nayfeh, Munir Hasan, AIP Advances, 11, 095319
6. Daily Variations of Plasma Density in the Solar Streamer Belt [7]
   Morgan, Huw, ApJ, 922, 165
7. The Cross-sectional Shape and Height Expansion of Coronal Loops: High-resolution Coronal Imager (Hi-C) Analysis of AR 12712 [12]
   Williams, Thomas, Walsh, Robert W. & Morgan, Huw, ApJ, 919, 47

2020

1. The compound stream event of March 20-25, 2011 as measured by the STEREO B spacecraft [2]
   Al-Shakarchi, Duraid A. & Morgan, Huw, Astrophysics and Space Science, 365, 61
2. Observation of Differential Rotation Within a Sunspot Umbra During an X-Class Flare [5]
   Grimes, Richard, Pintér, Balázs & Morgan, Huw, Solar Physics, 295, 87
3. Multiwavelength Imaging and Spectral Analysis of Jet-like Phenomena in a Solar Active Region Using IRIS and AIA [3]
   Humphries, Llŷr Dafydd, Verwichte, Erwin, Kuridze, David & Morgan, Huw, ApJ, 898, 17
4. Source and Propagation of a Streamer Blowout Coronal Mass Ejection Observed by the Parker Solar Probe [32]
   Korreck, Kelly E., Szabo, Adam, Nieves Chinchilla, Teresa, Lavraud, Benoit, Luhmann, Janet, Niembro, Tatiana, Higginson, Aleida, Alzate, Nathalia, Wallace, Samantha, Paulson, Kristoff, Rouillard, Alexis, Kouloumvakos, Athanasios, Poirier, Nicolas, Kasper, Justin C., Case, A. W., Stevens, Michael L., Bale, Stuart D., Pulupa, Marc, Whittlesey, Phyllis, Livi, Roberto, Goetz, Keith, Larson, Davin, Malaspina, David M., Morgan, Huw, Narock, Ayris A., Schwadron, Nathan A., Bonnell, John, Harvey, Peter & Wygant, John, ApJS, 246, 69
5. Differences in Periodic Magnetic Helicity Injection Behavior between Flaring and Non-flaring Active Regions: Case Study [18]
   Korsós, M. B., Romano, P., Morgan, H., Ye, Y., Erdélyi, R. & Zuccarello, F., ApJ, 897, L23
6. Spectral Characteristics and Formation Height of Off-limb Flare Ribbons [10]
   Kuridze, David, Mathioudakis, Mihalis, Heinzel, Petr, Koza, Július, Morgan, Huw, Oliver, Ramon, Kowalski, Adam F. & Allred, Joel C., ApJ, 896, 120
7. The Streamer Blowout Origin of a Flux Rope and Energetic Particle Event Observed by Parker Solar Probe at 0.5 au [17]
   Lario, D., Balmaceda, L., Alzate, N., Mays, M. L., Richardson, I. G., Allen, R. C., Florido-Llinas, M., Nieves-Chinchilla, T., Koval, A., Lugaz, N., Jian, L. K., Arge, C. N., Macneice, P. J., Odstrcil, D., Morgan, H., Szabo, A., Desai, M. I., Whittlesey, P. L., Stevens, M. L., Ho, G. C. & Luhmann, J. G., ApJ, 897, 134
8. The Width, Density, and Outflow of Solar Coronal Streamers [37]
   Morgan, Huw & Cook, Anthony C., ApJ, 893, 57
9. Analysis of the Internal Structure of the Streamer Blowout Observed by the Parker Solar Probe During the First Solar Encounter [46]
   Nieves-Chinchilla, Teresa, Szabo, Adam, Korreck, Kelly E., Alzate, Nathalia, Balmaceda, Laura A., Lavraud, Benoit, Paulson, Kristoff, Narock, Ayris A., Wallace, Samantha, Jian, Lan K., Luhmann, Janet G., Morgan, Huw, Higginson, Aleida, Arge, Charles N., Bale, Stuart D., Case, Anthony W., Dudfok de Wit, Thierry, Giacalone, Joe, Goetz, Keith, Harvey, Peter R., Jones-Melosky, Shaela I., Kasper, J. C., Larson, Davin E., Livi, Roberto, McComas, David J., MacDowall, Robert J., Malaspina, David M., Pulupa, Marc, Raouafi, Nour E., Schwadron, Nathan, Stevens, Michael Louis & Whittlesey, Phyllis L., ApJS, 246, 63

2019

1. Spectral Diagnostics of Cool Flare Loops Observed by the SST. I. Inversion of the Ca II 8542 Å and Hβ Lines [15]
   Koza, Július, Kuridze, David, Heinzel, Petr, Jejčič, Sonja, Morgan, Huw & Zapiór, Maciej, ApJ, 885, 154
2. Mapping the Magnetic Field of Flare Coronal Loops [77]
   Kuridze, D., Mathioudakis, M., Morgan, H., Oliver, R., Kleint, L., Zaqarashvili, T. V., Reid, A., Koza, J., Löfdahl, M. G., Hillberg, T., Kukhianidze, V. & Hanslmeier, A., ApJ, 874, 126
3. SITES: Solar Iterative Temperature Emission Solver for Differential Emission Measure Inversion of EUV Observations [22]
   Morgan, Huw & Pickering, James, Solar Physics, 294, 135
4. An Atlas of Coronal Electron Density at 5R _☉. II. A Spherical Harmonic Method for Density Reconstruction [23]
   Morgan, Huw, ApJS, 242, 3
5. GRID-SITES: Gridded Solar Iterative Temperature Emission Solver for Fast DEM Inversion [7]
   Pickering, James & Morgan, Huw, Solar Physics, 294, 136
6. Fine-scale structure in cometary dust tails I: Analysis of striae in Comet C/2006 P1 (McNaught) through temporal mapping [21]
   Price, Oliver, Jones, Geraint H., Morrill, Jeff, Owens, Mathew, Battams, Karl, Morgan, Huw, Drückmuller, Miloslav & Deiries, Sebastian, Icarus, 319, 540

2018

1. Properties of the HPS-ICME-CIR Interaction Event of 9-10 September 2011 [7]
   Al-Shakarchi, Duraid A. & Morgan, Huw, Journal of Geophysical Research (Space Physics), 123, 2535
2. Experimental and theoretical study of ultraviolet-induced structural/optical instability in nano silicon-based luminescence [3]
   Malloy, James, Mantey, Kevin, Maximenko, Yulia, Bahceci, Ersin, Morgan, Huw, Yamani, Zain, Boparai, Jack, Puthalath, Krithik & Nayfeh, Munir H., Journal of Applied Physics, 124, 044501
3. Ubiquitous and Continuous Propagating Disturbances in the Solar Corona [15]
   Morgan, Huw & Hutton, Joseph, ApJ, 853, 145
4. Global Non-Potential Magnetic Models of the Solar Corona During the March 2015 Eclipse [64]
   Yeates, Anthony R., Amari, Tahar, Contopoulos, Ioannis, Feng, Xueshang, Mackay, Duncan H., Mikić, Zoran, Wiegelmann, Thomas, Hutton, Joseph, Lowder, Christopher A., Morgan, Huw, Petrie, Gordon, Rachmeler, Laurel A., Upton, Lisa A., Canou, Aurelien, Chopin, Pierre, Downs, Cooper, Druckmüller, Miloslav, Linker, Jon A., Seaton, Daniel B. & Török, Tibor, Space Science Reviews, 214, 99

2017

1. Dynamics of Large-scale Coronal Structures as Imaged during the 2012 and 2013 Total Solar Eclipses [19]
   Alzate, Nathalia, Habbal, Shadia R., Druckmüller, Miloslav, Emmanouilidis, Constantinos & Morgan, Huw, ApJ, 848, 84
2. Identification of Low Coronal Sources of “Stealth” Coronal Mass Ejections Using New Image Processing Techniques [39]
   Alzate, Nathalia & Morgan, Huw, ApJ, 840, 103
3. Automated detection of coronal mass ejections in three-dimensions using multi-viewpoint observations [15]
   Hutton, J. & Morgan, H., A&A, 599, A68
4. Global conditions in the solar corona from 2010 to 2017 [36]
   Morgan, Huw & Taroyan, Youra, Science Advances, 3, e1602056

2016

1. Jets, Coronal “Puffs,” and a Slow Coronal Mass Ejection Caused by an Opposite-polarity Region within an Active Region Footpoint [19]
   Alzate, N. & Morgan, H., ApJ, 823, 129

2015

1. Erupting Filaments with Large Enclosing Flux Tubes as Sources of High-mass Three-part CMEs, and Erupting Filaments in the Absence of Enclosing Flux Tubes as Sources of Low-mass Unstructured CMEs [18]
   Hutton, Joe & Morgan, Huw, ApJ, 813, 35
2. An Atlas of Coronal Electron Density at 5R_☉. I. Data Processing and Calibration [46]
   Morgan, Huw, ApJS, 219, 23

2014

1. Bridging EUV and White-Light Observations to Inspect the Initiation Phase of a "Two-Stage" Solar Eruptive Event [34]
   Byrne, J. P., Morgan, H., Seaton, D. B., Bain, H. M. & Habbal, S. R., Solar Physics, 289, 4545
2. Discovery of a New Class of Coronal Structures in White Light Eclipse Images [43]
   Druckmüller, Miloslav, Habbal, Shadia Rifai & Morgan, Huw, ApJ, 785, 14
3. Imaging Comet ISON C/2012 S1 in the Inner Corona at Perihelion [6]
   Druckmüller, Miloslav, Habbal, Shadia Rifai, Aniol, Peter, Ding, Adalbert & Morgan, Huw, ApJ, 784, L22
4. Exploring the Prominence-Corona Connection and its Expansion into the Outer Corona Using Total Solar Eclipse Observations [37]
   Habbal, Shadia Rifai, Morgan, Huw & Druckmüller, Miloslav, ApJ, 793, 119
5. Multi-Scale Gaussian Normalization for Solar Image Processing [203]
   Morgan, Huw & Druckmüller, Miloslav, Solar Physics, 289, 2945

2013

1. Improved methods for determining the kinematics of coronal mass ejections and coronal waves [39]
   Byrne, J. P., Long, D. M., Gallagher, P. T., Bloomfield, D. S., Maloney, S. A., McAteer, R. T. J., Morgan, H. & Habbal, S. R., A&A, 557, A96
2. Probing the Fundamental Physics of the Solar Corona with Lunar Solar Occultation Observations [33]
   Habbal, S. Rifai, Morgan, H., Druckmüller, M., Ding, A., Cooper, J. F., Daw, A. & Sittler, E. C., Solar Physics, 285, 9
3. Complex of heavy magnetic ions and luminescent silicon nanoparticles [3]
   Hoang, T., Stupca, M., Mantey, K., Maximenko, Y., Elhalawany, N., Carr, C., Yu, H., Nayfeh, M. H. & Morgan, H., Journal of Applied Physics, 114, 164319-164319-8
4. An observation of solar active region expansion into the heliosphere. [7]
   Morgan, H., MNRAS, 433, L74
5. The Expansion of Active Regions into the Extended Solar Corona [20]
   Morgan, Huw, Jeska, Lauren & Leonard, Drew, ApJS, 206, 19

2012

1. Automatic Detection and Tracking of Coronal Mass Ejections. II. Multiscale Filtering of Coronagraph Images [69]
   Byrne, Jason P., Morgan, Huw, Habbal, Shadia R. & Gallagher, Peter T., ApJ, 752, 145
2. A Solar Tornado Observed by AIA/SDO: Rotational Flow and Evolution of Magnetic Helicity in a Prominence and Cavity [115]
   Li, Xing, Morgan, Huw, Leonard, Drew & Jeska, Lauren, ApJ, 752, L22
3. Automatically Detecting and Tracking Coronal Mass Ejections. I. Separation of Dynamic and Quiescent Components in Coronagraph Images [76]
   Morgan, Huw, Byrne, Jason P. & Habbal, Shadia Rifai, ApJ, 752, 144

2011

1. Enhancing Coronal Structures with the Fourier Normalizing-radial-graded Filter [23]
   Druckmüllerová, Hana, Morgan, Huw & Habbal, Shadia R., ApJ, 737, 88
2. Thermodynamics of the Solar Corona and Evolution of the Solar Magnetic Field as Inferred from the Total Solar Eclipse Observations of 2010 July 11 [79]
   Habbal, Shadia Rifai, Druckmüller, Miloslav, Morgan, Huw, Ding, Adalbert, Johnson, Judd, Druckmüllerová, Hana, Daw, Adrian, Arndt, Martina B., Dietzel, Martin & Saken, Jon, ApJ, 734, 120
3. Longitudinal Drifts of Streamers across the Heliospheric Current Sheet [13]
   Morgan, Huw, ApJ, 738, 190
4. The Rotation of the White Light Solar Corona at Height 4 R _sun from 1996 to 2010: A Tomographical Study of Large Angle and Spectrometric Coronagraph C2 Observations [27]
   Morgan, Huw, ApJ, 738, 189

2010

1. From the Sun to the Earth: The 13 May 2005 Coronal Mass Ejection [75]
   Bisi, M. M., Breen, A. R., Jackson, B. V., Fallows, R. A., Walsh, A. P., Mikić, Z., Riley, P., Owen, C. J., Gonzalez-Esparza, A., Aguilar-Rodriguez, E., Morgan, H., Jensen, E. A., Wood, A. G., Owens, M. J., Tokumaru, M., Manoharan, P. K., Chashei, I. V., Giunta, A. S., Linker, J. A., Shishov, V. I., Tyul'bashev, S. A., Agalya, G., Glubokova, S. K., Hamilton, M. S., Fujiki, K., Hick, P. P., Clover, J. M. & Pintér, B., Solar Physics, 265, 49
2. Total Solar Eclipse Observations of Hot Prominence Shrouds [100]
   Habbal, S. Rifai, Druckmüller, M., Morgan, H., Scholl, I., Rušin, V., Daw, A., Johnson, J. & Arndt, M., ApJ, 719, 1362
3. Mapping the Distribution of Electron Temperature and Fe Charge States in the Corona with Total Solar Eclipse Observations [58]
   Habbal, S. Rifai, Druckmüller, M., Morgan, H., Daw, A., Johnson, J., Ding, A., Arndt, M., Esser, R., Rušin, V. & Scholl, I., ApJ, 708, 1650
4. On the Constancy of the Electron Temperature in the Expanding Corona Throughout Solar Cycle 23 [23]
   Habbal, Shadia Rifai, Morgan, Huw, Druckmüller, Miloslav & Ding, Adalbert, ApJ, 711, L75
5. A Method for Separating Coronal Mass Ejections from the Quiescent Corona [16]
   Morgan, Huw & Habbal, Shadia, ApJ, 711, 631
6. Observational Aspects of the Three-dimensional Coronal Structure Over a Solar Activity Cycle [43]
   Morgan, Huw & Habbal, Shadia Rifai, ApJ, 710, 1
7. Observations of the 3D coronal structure over a solar cycle [0]
   Morgan, Huw & Habbal, Shadia, 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. 691

2009

1. Toward Reconstruction of Coronal Mass Ejection Density from Only Three Points of View [25]
   Frazin, R. A., Jacob, M., Manchester, W. B., IV, Morgan, H. & Wakin, M. B., ApJ, 695, 636
2. 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
3. Mapping the Structure of the Corona Using Fourier Backprojection Tomography [23]
   Morgan, Huw, Habbal, Shadia Rifai & Lugaz, Noé, ApJ, 690, 1119
4. Space-time localization of inner heliospheric plasma turbulence using multiple spacecraft radio links [6]
   Richie-Halford, Adam C., Iess, L., Tortora, P., Armstrong, J. W., Asmar, S. W., Woo, Richard, Habbal, Shadia Rifai & Morgan, Huw, Space Weather, 7, S12003

2008

1. In situ spectroscopy of the solar corona [4]
   Morgan, H., Fineschi, S., Habbal, S. R. & Li, B., A&A, 482, 981

2007

1. Localized Enhancements of Fe⁺¹⁰ Density in the Corona as Observed in Fe XI 789.2 nm during the 2006 March 29 Total Solar Eclipse [42]
   Habbal, Shadia Rifai, Morgan, Huw, Johnson, Judd, Arndt, Martina Belz, Daw, Adrian, Jaeggli, Sarah, Kuhn, Jeff & Mickey, Don, ApJ, 663, 598
2. The long-term stability of the visible F corona at heights of 3-6 R_☉ [41]
   Morgan, H. & Habbal, S. R., A&A, 471, L47
3. Are solar maximum fan streamers a consequence of twisting sheet structures? [22]
   Morgan, H. & Habbal, S. R., A&A, 465, L47
4. An empirical 3D model of the large-scale coronal structure based on the distribution of Hα filaments on the solar disk [20]
   Morgan, H. & Habbal, S. R., A&A, 464, 357

2006

1. The Depiction of Coronal Structure in White-Light Images [133]
   Morgan, Huw, Habbal, Shadia Rifai & Woo, Richard, Solar Physics, 236, 263

2005

1. The Impact of Sunspots on the Interpretation of Coronal Observations of the O VI Doublet [6]
   Morgan, H. & Habbal, S. Rifai, ApJ, 630, L189

2004

1. Hydrogen Lyα Intensity Oscillations Observed by the Solar and Heliospheric Observatory Ultraviolet Coronagraph Spectrometer [26]
   Morgan, H., Habbal, S. Rifai & Li, X., ApJ, 605, 521