Publications of Shadia Habbal

A list of publications authored or co-authored by Shadia Habbal, 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: 0000-0003-4089-9316

List of publications ordered by citations
Number of papers: 216 (refereed: 153)
No. of citations: 6241
First author papers: 67 (refereed: 41)

2026

1. The 2023 Australian Total Solar Eclipse: Line Emission of Fe XIV, Fe X, and Fe XI out to 6 Solar Radii [0]
   Boe, Benjamin, Habbal, Shadia, Druckmüller, Miloslav, Štarha, Pavel, Štarha, Matěj, Hoderová, Jana, Constantinou, Sage, Ayars, Eric & Casillas, Daniell, ApJ, 997, 171
2. Tracking the Evolution of Plasma Instabilities from the Prominence─Corona Transition Region into Interplanetary Space with Total Solar Eclipse and PSP/WISPR White Light Images [0]
   Habbal, Shadia Rifai, Shaik, Shaheda Begum, Bailey, Zachary, Alzate, Nathalia, Bandyopadhyay, Riddhi, Druckmüller, Miloslav, Di Matteo, Simone & Constantinou, Sage N. L., ApJ, 998, 51

2025

1. Measurement of Turbulence Injection Scale Down to the Chromosphere [8]
   Bailey, Zachary, Bandyopadhyay, Riddhi, Habbal, Shadia & Druckmüller, Miloslav, ApJ, 980, L20
2. Kite-borne Spectroscopic Observations of the Corona During the 2023 April 20 Total Solar Eclipse [0]
   Justen, Benedikt, Habbal, Shadia Rifai, Justen, Matthias, Mayer, Oliver, Ding, Adalbert, Brumann, Klemens & Stehr, Herbert, ApJ, 981, L12

2024

1. Total Solar Eclipse White-light Images as a Benchmark for Potential Field Source Surface Coronal Magnetic Field Models: An In-depth Analysis over a Solar Cycle [9]
   Benavitz, Luke Fushimi, Boe, Benjamin & Habbal, Shadia Rifai, ApJ, 974, 178
2. Spectroscopic Observations of the Solar Corona during the 2017 August 21 Total Solar Eclipse: Comparison of Spectral Line Widths and Doppler Shifts between Open and Closed Magnetic Structures [12]
   Zhu, Yingjie, Habbal, Shadia R., Ding, Adalbert, Yamashiro, Bryan, Landi, Enrico, Boe, Benjamin, Constantinou, Sage & Nassir, Michael, ApJ, 966, 122

2023

1. The Solar Minimum Eclipse of 2019 July 2. III. Inferring the Coronal T _e with a Radiative Differential Emission Measure Inversion [11]
   Boe, Benjamin, Downs, Cooper & Habbal, Shadia, ApJ, 951, 55

2022

1. The Solar Minimum Eclipse of 2019 July 2. II. The First Absolute Brightness Measurements and MHD Model Predictions of Fe X, XI, and XIV out to 3.4 R _☉ [25]
   Boe, Benjamin, Habbal, Shadia, Downs, Cooper & Druckmüller, Miloslav, ApJ, 935, 173

2021

1. The Double-bubble Coronal Mass Ejection of the 2020 December 14 Total Solar Eclipse [7]
   Boe, Benjamin, Yamashiro, Bryan, Druckmüller, Miloslav & Habbal, Shadia, ApJ, 914, L39
2. The Color and Brightness of the F-corona Inferred from the 2019 July 2 Total Solar Eclipse [43]
   Boe, Benjamin, Habbal, Shadia, Downs, Cooper & Druckmüller, Miloslav, ApJ, 912, 44
3. Identifying the Coronal Source Regions of Solar Wind Streams from Total Solar Eclipse Observations and in situ Measurements Extending over a Solar Cycle [32]
   Habbal, Shadia R., Druckmüller, Miloslav, Alzate, Nathalia, Ding, Adalbert, Johnson, Judd, Starha, Pavel, Hoderova, Jana, Boe, Benjamin, Constantinou, Sage & Arndt, Martina, ApJ, 911, L4
4. Measuring Solar Differential Rotation with an Iterative Phase Correlation Method [7]
   Hrazdíra, Zdeněk, Druckmüller, Miloslav & Habbal, Shadia, ApJS, 252, 6
5. Exploring the Solar Wind from Its Source on the Corona into the Inner Heliosphere during the First Solar Orbiter-Parker Solar Probe Quadrature [30]
   Telloni, Daniele, Andretta, Vincenzo, Antonucci, Ester, Bemporad, Alessandro, Capuano, Giuseppe E., Fineschi, Silvano, Giordano, Silvio, Habbal, Shadia, Perrone, Denise, Pinto, Rui F., Sorriso-Valvo, Luca, Spadaro, Daniele, Susino, Roberto, Woodham, Lloyd D., Zank, Gary P., Romoli, Marco, Bale, Stuart D., Kasper, Justin C., Auchère, Frédéric, Bruno, Roberto, Capobianco, Gerardo, Case, Anthony W., Casini, Chiara, Casti, Marta, Chioetto, Paolo, Corso, Alain J., Da Deppo, Vania, De Leo, Yara, Dudok de Wit, Thierry, Frassati, Federica, Frassetto, Fabio, Goetz, Keith, Guglielmino, Salvo L., Harvey, Peter R., Heinzel, Petr, Jerse, Giovanna, Korreck, Kelly E., Landini, Federico, Larson, Davin, Liberatore, Alessandro, Livi, Roberto, MacDowall, Robert J., Magli, Enrico, Malaspina, David M., Massone, Giuseppe, Messerotti, Mauro, Moses, John D., Naletto, Giampiero, Nicolini, Gianalfredo, Nisticò, Giuseppe, Panasenco, Olga, Pancrazzi, Maurizio, Pelizzo, Maria G., Pulupa, Marc, Reale, Fabio, Romano, Paolo, Sasso, Clementina, Schühle, Udo, Stangalini, Marco, Stevens, Michael L., Strachan, Leonard, Straus, Thomas, Teriaca, Luca, Uslenghi, Michela, Velli, Marco, Verscharen, Daniel, Volpicelli, Cosimo A., Whittlesey, Phyllis, Zangrilli, Luca, Zimbardo, Gaetano & Zuppella, Paola, ApJ, 920, L14

2020

1. Coronal Magnetic Field Topology from Total Solar Eclipse Observations [44]
   Boe, Benjamin, Habbal, Shadia & Druckmüller, Miloslav, ApJ, 895, 123
2. CME-induced Thermodynamic Changes in the Corona as Inferred from Fe XI and Fe XIV Emission Observations during the 2017 August 21 Total Solar Eclipse [29]
   Boe, Benjamin, Habbal, Shadia, Druckmüller, Miloslav, Ding, Adalbert, Hodérova, Jana & Štarha, Pavel, ApJ, 888, 100
3. Total Solar Eclipse Observations: A Treasure Trove from the Source and Acceleration Regions of the Solar Wind [1]
   Habbal, Shadia Rifai, Journal of Physics Conference Series, Journal of Physics Conference Series, 1620, p. 012006
4. Iterative Phase Correlation Algorithm for High-precision Subpixel Image Registration [9]
   Hrazdíra, Zdenek, Druckmüller, Miloslav & Habbal, Shadia, ApJS, 247, 8
5. 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

2018

1. Imprints of Coronal Mass Ejections on Coronal Structures [0]
   Alzate, Nathalia & Habbal, Shadia R., 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 109.04
2. Coordinated Multi-site Imaging and Spectroscopic Observations of the 2017 August 21 Total Solar Eclipse [0]
   Arndt, Martina B., Habbal, Shadia R., Ding, Adalbert, Druckmuller, Miloslav, Johnson, Judd & Aniol, Peter, 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 303.089
3. The First Empirical Determination of the Fe¹⁰⁺ and Fe¹³⁺ Freeze-in Distances in the Solar Corona [47]
   Boe, Benjamin, Habbal, Shadia, Druckmüller, Miloslav, Landi, Enrico, Kourkchi, Ehsan, Ding, Adalbert, Starha, Pavel & Hutton, Joseph, ApJ, 859, 155
4. Lunar Solar Origins Explorer (LunaSOX) for the Deep Space Gateway [0]
   Cooper, J. F., Habbal, S. R., Stubbs, T. J. & Glenar, D. A., Deep Space Gateway Concept Science Workshop (Editors: LPI Editorial Board), LPI Contributions, 2063, p. 3038
5. Solar Coronal Observations from Lunar Orbit [0]
   Cooper, John F., Habbal, Shadia R., Stubbs, Timothy John & Glenar, David A., 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 218.06
6. Unique Diagnostic Properties of Spectroscopy in the Visible: Results from a Novel Imaging Spectrometer Operated During the 2015 and 2017 Total Solar Eclipses [0]
   Ding, Adalbert, Habbal, Shadia R., Nassir, Michael & Boe, Benjamin, 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 313.01
7. Plasma Properties of the Corona and Sources of the Solar Wind as Derived from Total Solar Eclipse Observations [0]
   Habbal, Shadia R., Druckmuller, Miloslav, Ding, Adalbert, Starha, Pavel, Landi, Enrico, Arndt, Martina B., Hoderova, Jana, Johnson, Judd & Starha, Petr, 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 321.04

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. First Detection of Prominence Material Embedded within a 2 × 10⁶ K CME Front Streaming away at 100-1500 km s^-1 in the Solar Corona [41]
   Ding, Adalbert & Habbal, Shadia Rifai, ApJ, 842, L7
3. Tethered Prominence-CME Systems Captured during the 2012 November 13 and 2013 November 3 Total Solar Eclipses [10]
   Druckmüller, Miloslav, Habbal, Shadia R., Alzate, Nathalia & Emmanouilidis, Constantinos, ApJ, 851, L41
4. Video cascade accumulation of the total solar eclipse on Svalbard 2015 [1]
   Sigernes, Fred, Ellingsen, Pål Gunnar, Partamies, Noora, Syrjäsuo, Mikko, Brekke, Pål, Eriksen Holmen, Silje, Danielsen, Arne, Olsen, Bernt, Chen, Xiangcai, Dyrland, Margit, Baddeley, Lisa, Lorentzen, Dag Arne, Aleksander Krogtoft, Marcus, Dragland, Torstein, Mortensson, Hans, Smistad, Lisbeth, Heinselman, Craig J. & Habbal, Shadia, Geoscientific Instrumentation, Methods and Data Systems, 6, 9

2016

1. Tracing the path towards totality [0]
   Habbal, Shadia, Physics World, 29, 34
2. Coronal plasma diagnostics from ground-based observations [50]
   Landi, E., Habbal, S. R. & Tomczyk, S., Journal of Geophysical Research (Space Physics), 121, 8237

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

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. From Forbidden Coronal Lines to Meaningful Coronal Magnetic Fields [34]
   Judge, P. G., Habbal, S. & Landi, E., Solar Physics, 288, 467
4. An Anisotropic-Alfvénic-turbulence-based Solar Wind Model with Proton Temperature Anisotropy [2]
   Li, B. & Habbal, S. R., Numerical Modeling of Space Plasma Flows (ASTRONUM2012) (Editors: Pogorelov, N. V., Audit, E. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 474, p. 153
5. The Period Ratio for Standing Kink and Sausage Modes in Solar Structures with Siphon Flow. I. Magnetized Slabs [30]
   Li, Bo, Habbal, Shadia Rifai & Chen, Yanjun, ApJ, 767, 169

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. Plasma Dynamics at the Prominence—Corona Interface [7]
   Miloch, W. J., Habbal, S. R. & Esser, R., ApJ, 752, 85
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. Modeling Iron Abundance Enhancements in the Slow Solar Wind [7]
   Byhring, H. S., Cranmer, S. R., Lie-Svendsen, Ø., Habbal, S. R. & Esser, R., ApJ, 732, 119
2. Enhancing Coronal Structures with the Fourier Normalizing-radial-graded Filter [23]
   Druckmüllerová, Hana, Morgan, Huw & Habbal, Shadia R., ApJ, 737, 88
3. A new view of coronal structures: implications for the source and acceleration of the solar wind [1]
   Habbal, S. R., Morgan, H. & Druckmüller, M., Astronomical Society of India Conference Series, Astronomical Society of India Conference Series, 2, p. 259
4. Exploring the Physics of the Corona with Total Solar Eclipse Observations [7]
   Habbal, Shadia R., Cooper, John, Daw, Adrian, Ding, Adalbert, Druckmuller, Miloslav, Esser, Ruth, Johnson, Judd & Morgan, Huw, arXiv:1108.2323
5. 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
6. The U.S. Eclipse Megamovie in 2017: a white paper on a unique outreach event [7]
   Hudson, Hugh S., McIntosh, Scott W., Habbal, Shadia R., Pasachoff, Jay M. & Peticolas, Laura, arXiv:1108.3486
7. Observation of High-speed Outflow on Plume-like Structures of the Quiet Sun and Coronal Holes with Solar Dynamics Observatory/Atmospheric Imaging Assembly [92]
   Tian, Hui, McIntosh, Scott W., Habbal, Shadia Rifai & He, Jiansen, ApJ, 736, 130

2010

1. 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
2. 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
3. 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
4. A Method for Separating Coronal Mass Ejections from the Quiescent Corona [16]
   Morgan, Huw & Habbal, Shadia, ApJ, 711, 631
5. Observational Aspects of the Three-dimensional Coronal Structure Over a Solar Activity Cycle [43]
   Morgan, Huw & Habbal, Shadia Rifai, ApJ, 710, 1
6. 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. Mapping the Structure of the Corona Using Fourier Backprojection Tomography [23]
   Morgan, Huw, Habbal, Shadia Rifai & Lugaz, Noé, ApJ, 690, 1119
2. 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. Impact of Active Regions on Coronal Hole Outflows [9]
   Habbal, Shadia Rifai, Scholl, Isabelle F. & McIntosh, Scott W., ApJ, 683, L75
2. In situ spectroscopy of the solar corona [4]
   Morgan, H., Fineschi, S., Habbal, S. R. & Li, B., A&A, 482, 981
3. Automatic Detection and Classification of Coronal Holes and Filaments Based on EUV and Magnetogram Observations of the Solar Disk [64]
   Scholl, Isabelle F. & Habbal, Shadia Rifai, Solar Physics, 248, 425

2007

1. Large-scale structure of the fast solar wind [20]
   Bisi, M. M., Fallows, R. A., Breen, A. R., Habbal, S. Rifai & Jones, R. A., Journal of Geophysical Research (Space Physics), 112, A06101
2. 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
3. S olar Orbiter Neutral Solar Wind Detector [0]
   Hilchenbach, M., Orsini, S., Hsieh, K. C., Antonucci, E., Barabash, S., Bamert, K., Bruno, R., Collier, M. R., Czechowski, A., D'Amicis, R., De Angelis, E., Dandouras, I., Di Lellis, A. M., Esser, R., Giacalone, J., Gruntman, M., Habbal, S. R., Jokipii, J. R., Kallio, E., Kota, J., Kucharek, H., Leoni, R., Livi, S., Mann, I., Marsch, E., Massetti, S., Milillo, A., Möbius, E., Mura, A., Sheldon, R. B., Schmidt, W., Selci, S., Szego, K., Woch, J., Wurz, P., Zanza, V. & Zurbuchen, T. H., Second Solar Orbiter Workshop (Editors: Marsch, E., Tsinganos, K., Marsden, R. & Conroy, L.), ESA Special Publication, 641, p. 46
4. On VI and H₂ Lines in Sunspots [2]
   Labrosse, N., Morgan, H., Habbal, S. R. & Brown, D., The Physics of Chromospheric Plasmas (Editors: Heinzel, P., Dorotovi\vc, I. & Rutten, R. J.), Astronomical Society of the Pacific Conference Series, 368, p. 247
5. Angular Momentum Transport and Proton-Alpha-Particle Differential Streaming in the Solar Wind [10]
   Li, Bo, Habbal, Shadia Rifai & Li, Xing, ApJ, 661, 593
6. Understanding coronal heating and solar wind acceleration: Case for in situ near-Sun measurements [89]
   McComas, D. J., Velli, M., Lewis, W. S., Acton, L. W., Balat-Pichelin, M., Bothmer, V., Dirling, R. B., Feldman, W. C., Gloeckler, G., Habbal, S. R., Hassler, D. M., Mann, I., Matthaeus, W. H., McNutt, R. L., Mewaldt, R. A., Murphy, N., Ofman, L., Sittler, E. C., Smith, C. W. & Zurbuchen, T. H., Reviews of Geophysics, 45, RG1004
7. Viewing Structure In Coronal Images [0]
   Morgan, H., Habbal, S. R. & Fineschi, S., Second Solar Orbiter Workshop (Editors: Marsch, E., Tsinganos, K., Marsden, R. & Conroy, L.), ESA Special Publication, 641, p. 15
8. 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
9. Are solar maximum fan streamers a consequence of twisting sheet structures? [22]
   Morgan, H. & Habbal, S. R., A&A, 465, L47
10. 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. Using Polarimetric Imaging and Spectroscopy of the Corona from 400 to 1800 nm for Exploring the near Sun Plasma [1]
   Habbal, S. Rifai, Kuhn, J., Mickey, D., Jaeggli, S., Morgan, H., Roussev, I., Johnson, J., Arndt, M. B., Daw, A. & Nayfeh, M. H., Solar Physics and Solar Eclipses (SPSE 2006) (Editors: Ramelli, Renzo, Shalabiea, Osama, Saleh, Ibrahim & Stenflo, Jan O.), p. 27
2. Solar Maximum Streamers as Thin Twisting Sheets [0]
   Morgan, H. & Habbal, S. Rifai, Solar Physics and Solar Eclipses (SPSE 2006) (Editors: Ramelli, Renzo, Shalabiea, Osama, Saleh, Ibrahim & Stenflo, Jan O.), p. 93
3. The Depiction of Coronal Structure in White-Light Images [133]
   Morgan, Huw, Habbal, Shadia Rifai & Woo, Richard, Solar Physics, 236, 263

2005

1. Siphon flows and oscillations in long coronal loops due to Alfvén waves [6]
   Grappin, R., Léorat, J. & Habbal, S. Rifai, A&A, 437, 1081
2. Effect of the latitudinal distribution of temperature at the coronal base on the interplanetary magnetic field configuration and the solar wind flow [4]
   Li, Bo, Habbal, Shadia Rifai, Li, Xing & Mountford, Chris, Journal of Geophysical Research (Space Physics), 110, A12112
3. Hybrid Simulation of Ion Cyclotron Resonance in the Solar Wind: Ion Velocity Distribution Functions [1]
   Li, X. & Habbal, S. R., Solar Wind 11/SOHO 16, Connecting Sun and Heliosphere (Editors: Fleck, B., Zurbuchen, T. H. & Lacoste, H.), ESA Special Publication, 592, p. 181
4. Hybrid simulation of ion cyclotron resonance in the solar wind: Evolution of velocity distribution functions [20]
   Li, Xing & Habbal, Shadia R., Journal of Geophysical Research (Space Physics), 110, A10109
5. Solar Probe: Humanity's First Visit to a Star (Invited) [2]
   McComas, D. J., Velli, M., Lewis, W. S., Acton, L. W., Balat-Pichelin, M., Bothmer, V., Dirling, R. B., Eng, D. A., Feldman, W. C., Gloeckler, G., Guhathakurtha, M., Habbal, S. R., Hassler, D. M., Mann, I., Maldonado, H. M., Matthaeus, W. H., McNutt, R. L., Mewaldt, R. A., Murphy, N., Ofman, L., Potocki, K. A., Sittler, E. C., Smith, C. W. & Zurbuchen, T. H., Solar Wind 11/SOHO 16, Connecting Sun and Heliosphere (Editors: Fleck, B., Zurbuchen, T. H. & Lacoste, H.), ESA Special Publication, 592, p. 279
6. The Impact of Sunspots on the Interpretation of Coronal Observations of the O VI Doublet [6]
   Morgan, H. & Habbal, S. Rifai, ApJ, 630, L189
7. Crystalline Si Nanoparticles as Carriers of the Blue Luminescence in the Red Rectangle Nebula [12]
   Nayfeh, Munir H., Habbal, Shadia Rifai & Rao, Satish, ApJ, 621, L121
8. Observation of strong direct-like oscillator strength in the photoluminescence of Si nanoparticles [31]
   Smith, A., Yamani, Z. H., Roberts, N., Turner, J., Habbal, S. R., Granick, S. & Nayfeh, M. H., Physical Review B, 72, 205307
9. Origin and Acceleration of the Slow Solar Wind [13]
   Woo, Richard & Habbal, Shadia Rifai, ApJ, 629, L129

2004

1. Origin of the Solar Wind and Open Coronal Magnetic Structures [0]
   Habbal, S. R. & Woo, R., Stars as Suns : Activity, Evolution and Planets (Editors: Dupree, Andrea K. & Benz, Arnold O.), IAU Symposium, 219, p. 587
2. Solar wind: The solar wind and the Sun-Earth link [1]
   Habbal, Shadia Rifai & Woo, Richard, Astronomy and Geophysics, 45, 4.38
3. A two-dimensional Alfvén wave-driven solar wind model with proton temperature anisotropy [35]
   Li, Bo, Li, Xing, Hu, You-Qiu & Habbal, Shadia R., Journal of Geophysical Research (Space Physics), 109, A07103
4. Transition Region and Coronal Loops Heated by Turbulence [2]
   Li, X., O'Neill, I. & Habbal, S. R., SOHO 13 Waves, Oscillations and Small-Scale Transients Events in the Solar Atmosphere: Joint View from SOHO and TRACE (Editors: Lacoste, H.), ESA Special Publication, 547, p. 279
5. 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
6. Excited states of tetrahedral single-core Si₂₉ nanoparticles [33]
   Rao, S., Sutin, J., Clegg, R., Gratton, E., Nayfeh, M. H., Habbal, S., Tsolakidis, A. & Martin, R. M., Physical Review B, 69, 205319
7. Role of Closed Magnetic Fields in Solar Wind Flow [44]
   Woo, Richard, Habbal, Shadia Rifai & Feldman, Uri, ApJ, 612, 1171

2003

1. Large Amplitude Alfvén Waves In Open And Closed Coronal Structures [1]
   Grappin, R., Léorat, J. & Habbal, S. R., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 277
2. On the Coexistence of a Radial and Non-radial Component of the Coronal Magnetic Field [0]
   Habbal, S. R., Woo, R., Arndt, M. & Arnaud, J., Solar Polarization (Editors: Trujillo-Bueno, Javier & Sanchez Almeida, Jorge), Astronomical Society of the Pacific Conference Series, 307, p. 446
3. On the Detection of the Signature of Silicon Nanoparticle Dust Grains in Coronal Holes [19]
   Habbal, Shadia Rifai, Arndt, Martina Belz, Nayfeh, Munir H., Arnaud, Jean, Johnson, Judd, Hegwer, Steve, Woo, Richard, Ene, Alexandru & Habbal, Feras, ApJ, 592, L87
4. A 2.5-dimensional MHD Alfvén-wave-driven solar wind model [14]
   Hu, Y. Q., Li, X. & Habbal, S. R., Journal of Geophysical Research (Space Physics), 108, 1378
5. Are coronal holes the only source of fast solar wind at solar minimum? [28]
   Hu, Y. Q., Habbal, S. R., Chen, Y. & Li, X., Journal of Geophysical Research (Space Physics), 108, 1377
6. Coronal Loops Heated by Turbulence-driven Alfvén Waves [20]
   Li, Xing & Habbal, Shadia Rifai, ApJ, 598, L125
7. Effect of solar wind flow geometry on solar wind parameters at 1 AU for a low-frequency cascade driven solar wind [1]
   Mountford, C. J., Habbal, S. R. & Li, X., Journal of Geophysical Research (Space Physics), 108, 1079
8. Ubiquitous Open Magnetic Field Lines in the Inner Corona [8]
   Woo, Richard & Habbal, Shadia Rifai, Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 55

2002

1. Large-amplitude Alfvén waves in open and closed coronal structures: A numerical study [13]
   Grappin, R., LéOrat, J. & Habbal, S. Rifai, Journal of Geophysical Research (Space Physics), 107, 1380
2. Radiative transfer effects on hydrogen (and helium) in the solar atmosphere [2]
   Labrosse, N., Li, X., Habbal, S. R., Gouttebroze, P. & Mountford, C. J., Solar Variability: From Core to Outer Frontiers (Editors: Wilson, A.), ESA Special Publication, 1, p. 13
3. Ion Effective Temperatures in Polar Coronal Holes: Observations versus Ion-Cyclotron Resonance [9]
   Patsourakos, S., Habbal, S. R. & Hu, Y. Q., ApJ, 581, L125
4. The Origin of the Solar Wind [3]
   Woo, Richard & Habbal, Shadia Rifai, American Scientist, 90, 532

2001

1. UVCS Observations of Velocity Shear at Streamer Boundaries in the Corona [2]
   Habbal, Shadia Rifai, Woo, Richard & Vial, Jean-Claude, Space Science Reviews, 97, 5
2. On the Predominance of the Radial Component of the Magnetic Field in the Solar Corona [28]
   Habbal, Shadia Rifai, Woo, Richard & Arnaud, Jean, ApJ, 558, 852
3. Connecting the Sun and the Solar Wind: Comparison of the Latitudinal Profiles of Coronal and Ulysses Measurements of the Fast Wind [16]
   Habbal, Shadia Rifai & Woo, Richard, ApJ, 549, L253
4. Damping of fast and ion cyclotron oblique waves in the multi-ion fast solar wind [42]
   Li, Xing & Habbal, Shadia Rifai, Journal of Geophysical Research, 106, 10669
5. The polar coronal holes and the fast solar wind: Some recent results [0]
   Patsourakos, S., Habbal, S.-R., Vial, J.-C. & Hu, Y. Q., Joint SOHO/ACE workshop ``Solar and Galactic Composition'' (Editors: Wimmer-Schweingruber, Robert F.), American Institute of Physics Conference Series, 598, p. 299
6. Photospheric Network as the Energy Source for the quiet-Sun corona [26]
   Ryutova, M., Habbal, S., Woo, R. & Tarbell, T., Solar Physics, 200, 213
7. Associating the Solar Wind Measured by Ulysses with its Source at the sun [2]
   Woo, Richard & Habbal, Shadia Rifai, Space Science Reviews, 97, 81

2000

1. Thermal coupling of protons and neutral hydrogen with anisotropic temperatures in the fast solar wind [19]
   Allen, Lorraine A., Habbal, Shadia R. & Li, Xing, Journal of Geophysical Research, 105, 23123
2. Solar Wind: Coronal Origins [0]
   Habbal, S. & Woo, R., Encyclopedia of Astronomy and Astrophysics (Editors: Murdin, P.), p.2313
3. A four-fluid turbulence-driven solar wind model for preferential acceleration and heating of heavy ions [59]
   Hu, You Qiu, Esser, Ruth & Habbal, Shadia R., Journal of Geophysical Research, 105, 5093
4. Proton/alpha magnetosonic instability in the fast solar wind [49]
   Li, Xing & Habbal, Shadia Rifai, Journal of Geophysical Research, 105, 7483
5. Electron kinetic firehose instability [88]
   Li, Xing & Habbal, Shadia Rifai, Journal of Geophysical Research, 105, 27377
6. Here Comes Solar Probe! [4]
   Möbius, E., Gloeckler, G., Goldstein, B., Habbal, S., McNutt, R., Randolph, J., Title, A. & Tsurutani, B., Advances in Space Research, 25, 1961
7. Commission 49: Interplanetary Plasma and Heliosphere: (Plasma Interplanetaire et Heliosphere) [0]
   Verheest, F., Vandas, M., Buti, B., Cramer, N. F., Dryer, M., Habbal, S. R., Hollweg, J. V., Huber, M. C. E., Kojima, M. & Ripken, H., Transactions of the International Astronomical Union, Series A, 24, 77
8. Connecting the Sun and the solar wind: Source regions of the fast wind observed in interplanetary space [14]
   Woo, Richard & Habbal, Shadia Rifai, Journal of Geophysical Research, 105, 12667
9. Observed Associations between the Solar Interior, Corona, and Solar Wind [9]
   Woo, Richard, Armstrong, J. W. & Habbal, Shadia Rifai, ApJ, 538, L171

1999

1. Coronal plumes and the expansion of pressure-balanced structures in the fast solar wind [26]
   Casalbuoni, Sara, Del Zanna, Luca, Habbal, Shadia R. & Velli, Marco, Journal of Geophysical Research, 104, 9947
2. An Empirical Model of a Polar Coronal Hole at Solar Minimum [316]
   Cranmer, S. R., Kohl, J. L., Noci, G., Antonucci, E., Tondello, G., Huber, M. C. E., Strachan, L., Panasyuk, A. V., Gardner, L. D., Romoli, M., Fineschi, S., Dobrzycka, D., Raymond, J. C., Nicolosi, P., Siegmund, O. H. W., Spadaro, D., Benna, C., Ciaravella, A., Giordano, S., Habbal, S. R., Karovska, M., Li, X., Martin, R., Michels, J. G., Modigliani, A., Naletto, G., O'Neal, R. H., Pernechele, C., Poletto, G., Smith, P. L. & Suleiman, R. M., ApJ, 511, 481
3. Plasma Properties in Coronal Holes Derived from Measurements of Minor Ion Spectral Lines and Polarized White Light Intensity [196]
   Esser, Ruth, Fineschi, Silvano, Dobrzycka, Danuta, Habbal, Shadia R., Edgar, Richard J., Raymond, John C., Kohl, John L. & Guhathakurta, Madhulika, ApJ, 510, L63
4. Solar probe: A mission to the sun and the inner core of the heliosphere [1]
   Gloeckler, G., Suess, S. T., Habbal, S. R., McNutt, R. L., Randolph, J. E., Title, A. M. & Tsurutani, B. T., Geophysical Monograph Series, 109, 237
5. Resonant acceleration and heating of solar wind ions by dispersive ion cyclotron waves [93]
   Hu, You Qiu & Habbal, Shadia Rifai, Journal of Geophysical Research, 104, 17045
6. On the cascade process of Alfvén waves in the fast solar wind [50]
   Hu, You Qiu, Habbal, Shadia Rifai & Li, Xing, Journal of Geophysical Research, 104, 24819
7. Proton temperature anisotropy in the fast solar wind: Turbulence-driven dispersive ion cyclotron waves [3]
   Li, Xing, Habbal, Shadia R., Hollweg, Joseph V. & Esser, Ruth, Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 531
8. Ion cyclotron waves, instabilities and solar wind heating [22]
   Li, Xing & Habbal, Shadia R., Solar Physics, 190, 485
9. Heating and cooling of protons by turbulence-driven ion cyclotron waves in the fast solar wind [114]
   Li, Xing, Habbal, Shadia R., Hollweg, Joseph V. & Esser, Ruth, Journal of Geophysical Research, 104, 2521
10. On the cascade process of Alfvén waves in the fast solar wind [0]
    Qiu Hu, You, Habbal, Shadia Rifai & Li, Xing, Journal of Geophysical Research, 104, 24819
11. Magnetic energy avalanche as the source of the fast wind [0]
    Ryutova, M. P., Habbal, S. R., Woo, R. & Tarbell, T., Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 227
12. A new view of the origin of the solar wind [1]
    Woo, Richard & Habbal, Shadia Rifai, Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 71
13. Radial evolution of density structure in the solar corona [23]
    Woo, Richard & Habbal, Shadia Rifai, Geophysical Research Letters, 26, 1793
14. Extension of the Polar Coronal Hole Boundary into Interplanetary space [18]
    Woo, Richard, Habbal, Shadia Rifai, Howard, Russell A. & Korendyke, Clarence M., ApJ, 513, 961
15. Imprint of the Sun on the Solar Wind [29]
    Woo, Richard & Habbal, Shadia Rifai, ApJ, 510, L69
16. Comparison of Fe λ5303, λ6374 and λ7892 spectral line observations in a coronal hole and streamer [2]
    Wood, Christine H., Habbal, Shadia R., Esser, Ruth & Penn, Matthew, Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 293

1998

1. Thermal coupling of protons and neutral hydrogen in the fast solar wind [61]
   Allen, Lorraine A., Habbal, Shadia R. & Hu, You Q., Journal of Geophysical Research, 103, 6551
2. The Solar Probe Mission: A search for the Origin of the Solar Wind and an Unprecedented View of the Solar Surface [0]
   Habbal, S. R., Gloeckler, G., McNutt, R. L., Jr. & Tsurutani, B. T., Crossroads for European Solar and Heliospheric Physics. Recent Achievements and Future Mission Possibilities (Editors: Priest, E. R.), ESA Special Publication, 417, p. 83
3. UVCS/SOHO Empirical Determinations of Anisotropic Velocity Distributions in the Solar Corona [442]
   Kohl, J. L., Noci, G., Antonucci, E., Tondello, G., Huber, M. C. E., Cranmer, S. R., Strachan, L., Panasyuk, A. V., Gardner, L. D., Romoli, M., Fineschi, S., Dobrzycka, D., Raymond, J. C., Nicolosi, P., Siegmund, O. H. W., Spadaro, D., Benna, C., Ciaravella, A., Giordano, S., Habbal, S. R., Karovska, M., Li, X., Martin, R., Michels, J. G., Modigliani, A., Naletto, G., O'Neal, R. H., Pernechele, C., Poletto, G., Smith, P. L. & Suleiman, R. M., ApJ, 501, L127
4. The Effect of Temperature Anisotropy on Observations of Doppler Dimming and Pumping in the Inner Corona [175]
   Li, Xing, Habbal, Shadia Rifai, Kohl, John L. & Noci, Giancarlo, ApJ, 501, L133
5. Cor-I: a coronal white-light imager for a solar probe [0]
   Vial, J.-C., Koutchmy, S. & Habbal, S. R., Advances in Space Research, 21, 291
6. Multiscale filamentary structures in the solar corona and their implications for the origin and evolution of the solar wind [0]
   Woo, R. & Habbal, S. Rifai, Princeton Series in Physics, Princeton Series in Physics, 15, p. 351
7. Comment on: “Polar plumes and fine-scale coronal structures — On the interpretation of coronal radio sounding data” by Pätzold and Bird [2]
   Woo, Richard & Habbal, Shadia Rifai, Geophysical Research Letters, 25, 1849

1997

1. Coronal Holes and the Solar Wind [3]
   Esser, R. & Habbal, S. R., Cosmic Winds and the Heliosphere (Editors: Jokipii, J. R., Sonett, C. P. & Giampapa, M. S.), p. 297
2. Hot protons in the inner corona and their effect on the flow properties of the solar wind [53]
   Esser, Ruth, Habbal, Shadia R., Coles, William A. & Hollweg, Joseph V., Journal of Geophysical Research, 102, 7063
3. Experimental constraints on pulsed and steady state models of the solar wind near the Sun [42]
   Feldman, W. C., Habbal, S. R., Hoogeveen, G. & Wang, Y.-M., Journal of Geophysical Research, 102, 26905
4. Origins of the Slow and the Ubiquitous Fast Solar Wind [126]
   Habbal, S. R., Woo, R., Fineschi, S., O'Neal, R., Kohl, J., Noci, G. & Korendyke, C., ApJ, 489, L103
5. Remote sensing measurements of the corona with the Solar Probe [1]
   Habbal, Shadia Rifai & Woo, Richard, Robotic Exploration Close to the Sun: Scientific Basis (Editors: Habbal, Shadia Rifai), American Institute of Physics Conference Series, 385, p. 77
6. Imaging the source regions of the solar wind [2]
   Habbal, Shadia Rifai, Robotic Exploration Close to the Sun: Scientific Basis (Editors: Habbal, Shadia Rifai), American Institute of Physics Conference Series, 385, p. 105
7. A fast solar wind model with anisotropic proton temperature [90]
   Hu, Y. Q., Esser, R. & Habbal, S. R., Journal of Geophysical Research, 102, 14661
8. Influence of heavy ions on the high-speed solar wind [41]
   Li, Xing, Esser, Ruth, Habbal, Shadia R. & Hu, You-Qiu, Journal of Geophysical Research, 102, 17419
9. Finest Filamentary Structures of the Corona in the Slow and Fast Solar Wind [52]
   Woo, Richard & Habbal, Shadia Rifai, ApJ, 474, L139
10. Extension of coronal structure into interplanetary space [50]
    Woo, Richard & Habbal, Shadia Rifai, Geophysical Research Letters, 24, 1159

1996

1. Demonstrating the limitations of line ratio temperature diagnostic using Fe X and Fe XIV spectral line intensity observations [0]
   Esser, Ruth, Brickhouse, Nancy S., Habbal, Shadia R. & Mossman, Amy, Proceedings of the eigth International solar wind Conference: Solar wind eight (Editors: Winterhalter, D., Gosling, J. T., Habbal, S. R., Kurth, W. S. & Neugebauer, M.), American Institute of Physics Conference Series, 382, p. 173
2. Modeling high flow speeds in the inner corona [4]
   Esser, Ruth & Habbal, Shadia Rifai, Proceedings of the eigth International solar wind Conference: Solar wind eight (Editors: Winterhalter, D., Gosling, J. T., Habbal, S. R., Kurth, W. S. & Neugebauer, M.), American Institute of Physics Conference Series, 382, p. 133
3. Radio, visible, and X ray emission preceding and following a coronal mass ejection [16]
   Habbal, Shadia R., Mossman, Amy, Gonzalez, Raymond & Esser, Ruth, Journal of Geophysical Research, 101, 19943
4. Inferences of Plasma Parameters from Coronal Hole Observations [1]
   Habbal, Shadia Rifai, Astrophysics and Space Science, 243, 49
5. Exploring the temperature structure of coronal holes with a novel combination of visible Fe lines [0]
   Habbal, Shadia Rifai, Brickhouse, Nancy S. & Esser, Ruth, Proceedings of the eigth International solar wind Conference: Solar wind eight (Editors: Winterhalter, D., Gosling, J. T., Habbal, S. R., Kurth, W. S. & Neugebauer, M.), American Institute of Physics Conference Series, 382, p. 177
6. Flow properties of the solar wind obtained from white light data, Ulysses observations and a two-fluid model [1]
   Habbal, Shadia Rifai, Esser, Ruth, Guhathakurta, Madhulika & Fisher, Richard, Proceedings of the eigth International solar wind Conference: Solar wind eight (Editors: Winterhalter, D., Gosling, J. T., Habbal, S. R., Kurth, W. S. & Neugebauer, M.), American Institute of Physics Conference Series, 382, p. 129

1995

1. Demonstrating the limitations of line ratio temperature diagnostic using Fe X and Fe XIV spectral line intensity observations [3]
   Brickhouse, Nancy, Esser, Ruth & Habbal, Shadia R., Solar Wind Eight, p. 69
2. Using Fe X 6374 Å and Fe XIV 5303 Å spectral line intensities to study the effect of line of sight integration on coronal temperature inferences [20]
   Esser, R., Brickhouse, N. S., Habbal, S. R., Altrock, R. C. & Hudson, H. S., Journal of Geophysical Research, 100, 19829
3. Three-fluid solar wind model with Alfven waves [0]
   Esser, Ruth, Habbal, Shadia R. & Hu, You Q., Solar Wind Eight, p. 64
4. Coronal heating and plasma parameters at 1 AU [21]
   Esser, Ruth & Habbal, Shadia Rifai, Geophysical Research Letters, 22, 2661
5. Coronal magnetic field diagnostics via the Hanle effect of Lyman series lines [0]
   Fineschi, S. & Habbal, S. R., Solar Wind Eight, p. 68
6. Determining coronal electron temperatures from observations with UVCS/SOHO [0]
   Fineschi, S., Esser, R., Habbal, S. R., Karovska, M., Romoli, M., Strachan, L., Kohl, J. L. & Huber, M. C. E., Solar Wind Eight, p. 68
7. On the Derivation of Empirical Limits on the Helium Abundance in Coronal Holes Below 1.5 RS [0]
   Habbal, S. R. & Esser, R., The High Latitude Heliosphere (Editors: Marsden, R. G.), p. 39
8. Flow properties of the solar wind obtained from white light data, ULYSSES observations and a two-fluid model [1]
   Habbal, Shadia Rifai, Esser, Ruth, Guhathakurta, Madhulika & Fisher, Richard, Solar Wind Eight, p. 64
9. Flow properties of the solar wind derived from a two-fluid model with constraints from white light and in situ interplanetary observations [123]
   Habbal, Shadia Rifai, Esser, Ruth, Guhathakurta, Madhulika & Fisher, Richard R., Geophysical Research Letters, 22, 1465
10. Exploring the temperature structure of coronal holes with a novel combination of visible Fe lines [0]
    Habbal, Shadia Rifai, Brickhouse, Nancy & Esser, Ruth, Solar Wind Eight, p. 69
11. On the derivation of empirical limits on the helium abundance in coronal holes below 1.5R _s [0]
    Habbal, Shadia Rifai & Esser, Ruth, Space Science Reviews, 72, 39
12. The Ultraviolet Coronagraph Spectrometer for the Solar and Heliospheric Observatory [472]
    Kohl, J. L., Esser, R., Gardner, L. D., Habbal, S., Daigneau, P. S., Dennis, E. F., Nystrom, G. U., Panasyuk, A., Raymond, J. C., Smith, P. L., Strachan, L., Van Ballegooijen, A. A., Noci, G., Fineschi, S., Romoli, M., Ciaravella, A., Modigliani, A., Huber, M. C. E., Antonucci, E., Benna, C., Giordano, S., Tondello, G., Nicolosi, P., Naletto, G., Pernechele, C., Spadaro, D., Poletto, G., Livi, S., Von Der Lühe, O., Geiss, J., Timothy, J. G., Gloeckler, G., Allegra, A., Basile, G., Brusa, R., Wood, B., Siegmund, O. H. W., Fowler, W., Fisher, R. & Jhabvala, M., Solar Physics, 162, 313
13. Ultraviolet Coronagraph Spectrometer for the Solar and Heliospheric Observatory: instrument description and calibration overview [3]
    Kohl, J. L., Esser, R., Gardner, Larry D., Habbal, S., Daigneau, P. S., Nystrom, George U., Raymond, John C., Strachan, Leonard, van Ballegooijen, A. A., Noci, G., Fineschi, Silvano, Romoli, Marco, Ciaravella, A., Modigliani, A., Huber, Martin C., Antonucci, E., Benna, C., Giordano, S., von der Luehe, Oskar, Tondello, Giuseppe, Nicolosi, Piergiorgio, Naletto, Giampiero, Pernechele, Claudio, Geiss, J., Gloeckler, G., Poletto, G., Spadaro, D., Allegra, A., Basile, G., Brusa, R., Wood, B. & Siegmund, Oswald H., X-Ray and EUV/FUV Spectroscopy and Polarimetry (Editors: Fineschi, Silvano), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 2517, p. 40
14. The Effects on Mass Flows on the Dissipation of Alfven Waves in the Upper Layers of the Solar Atmosphere [23]
    Ryutova, Margarita P. & Habbal, Shadia R., ApJ, 451, 381

1994

1. Characteristic Signatures of Solar Activity from the Small Scale Magnetic Field. [0]
   Habbal, S. R., Cool Stars, Stellar Systems, and the Sun (Editors: Caillault, Jean-Pierre), Astronomical Society of the Pacific Conference Series, 64, p. 309
2. Small scale structures in the solar corona [7]
   Habbal, S. R., Space Science Reviews, 70, 37
3. Flow properties of the solar wind obtained from white light data and a two-fluid model [1]
   Habbal, S. R., Esser, Ruth, Guhathakurta, Madhulika & Fisher, Richard, Solar Dynamic Phenomena and Solar Wind Consequences, the Third SOHO Workshop (Editors: Hunt, J. J.), ESA Special Publication, 373, p. 211
4. Standing shocks in a two-fluid solar wind [13]
   Habbal, Shadia R., Hu, You Qiu & Esser, Ruth, Journal of Geophysical Research, 99, 8465
5. The Discrete Nature of the Variable Emission in Active Region Loops [0]
   Habbal, Shadia Rifai, Arndt, Martina Belz & Karovska, Margarita, Solar Active Region Evolution: Comparing Models with Observations (Editors: Balasubramaniam, K. S. & Simon, George W.), Astronomical Society of the Pacific Conference Series, 68, p. 314
6. On the Derivation of Empirical Limits on the Helium Abundance in Coronal Holes below 1.5 R sub sun [14]
   Habbal, Shadia Rifai & Esser, Ruth, ApJ, 421, L59
7. Recovering the fine structures in solar images [0]
   Karovska, M., Habbal, S. R., Golub, L., DeLuca, E. & Hudson, H., Solar Dynamic Phenomena and Solar Wind Consequences, the Third SOHO Workshop (Editors: Hunt, J. J.), ESA Special Publication, 373, p. 183
8. Exploring the Fine Structure at the Limb in Coronal Holes [17]
   Karovska, Magarita, Blundell, Solon F. & Habbal, Shadia Rifai, ApJ, 428, 854
9. Dynamical Structure of Extreme Ultraviolet Macrospicules [30]
   Karovska, Margarita & Habbal, Shadia Rifai, ApJ, 431, L59
10. Coronal plumes and final scale structure in high speed solar wind streams [23]
    Velli, M., Habbal, S. R. & Esser, R., Space Science Reviews, 70, 391

1993

1. Overestimating the Coronal Density and Its Effect on the Velocities Derived from Ly-alpha Doppler Dimming. [4]
   Esser, Ruth & Habbal, Shadia R., Solar Physics, 147, 241
2. How Reliable are Coronal Hole Temperatures Deduced from Observations? [75]
   Habbal, S. R., Esser, R. & Arndt, M. B., ApJ, 413, 435
3. Interaction between perpendicular magnetohydrodynamic shocks [4]
   Hu, Y. Q. & Habbal, S. R., Physics of Fluids B, 5, 732
4. Double shock pairs in the solar wind [13]
   Hu, Y. Q. & Habbal, S. R., Journal of Geophysical Research, 98, 3551

1992

1. Temperature measurements in the inner corona. [3]
   Esser, Ruth, Habbal, S. R. & Arndt, M. B., Coronal Streamers, Coronal Loops, and Coronal and Solar Wind Composition (Editors: Mattok, C.), ESA Special Publication, 348, p. 277
2. Variable EUV emission in the quiet sun and coronal heating [2]
   Habbal, S. R., Solar Wind Seven Colloquium (Editors: Marsch, E. & Schwenn, R.), p. 41
3. Coronal energy distribution and X-ray activity in the small scale magnetic field of the quiet sun. [47]
   Habbal, S. R., Annales Geophysicae, 10, 34

1991

1. Observations of Coronal Bright Points and Implications for Coronal Heating Mechanisms (With 3 Figures) [3]
   Habbal, S. R., Mechanisms of Chromospheric and Coronal Heating (Editors: Ulmschneider, Peter, Priest, Eric R. & Rosner, Robert), p. 260
2. The Connection between Coronal Bright Points and the Variability of the Quiet-Sun Extreme-Ultraviolet Emission [23]
   Habbal, Shadia R. & Grace, Edmund, ApJ, 382, 667
3. First Observations of Macrospicules at 4.8 GHz at the Solar Limb in Polar Coronal Holes [31]
   Habbal, Shadia R. & Gonzalez, Raymond D., ApJ, 376, L25
4. High-Resolution Studies of the Structure of the Solar Atmosphere Using a New Imaging Algorithm [13]
   Karovska, Margarita & Habbal, Shadia Rifai, ApJ, 371, 402

1990

1. Spectral Line and White-Light Intensities in the Coronal in the Presence of Propagating or Standing Shocks [4]
   Esser, Ruth & Habbal, Shadia Rifai, Solar Physics, 129, 153
2. A Comparison between Bright Points in a Coronal Hole and a Quiet-Sun Region [73]
   Habbal, Shadia Rifai, Dowdy, James F., Jr. & Withbroe, George L., ApJ, 352, 333

1989

1. Synthesis Mapping of a Solar Type I Storm Simultaneously at 90 and 20 Centimeters with the VLA [13]
   Habbal, Shadia Rifai, Ellman, Nancy E. & Gonzalez, Raymond, ApJ, 342, 594

1988

1. Dynamic Nature of coronal heating [0]
   Habbal, S. R. & Harvey, K. L., Activity in Cool Star Envelopes (Editors: Havnes, O., Pettersen, B. R., Schmitt, J. H. M. M. & Solheim, J. E.), 143, p. 215
2. Simultaneous Observations of 20 Centimeter Bright Points and He i 10830 Angstrom Dark Points in the Quiet Sun [27]
   Habbal, Shadia R. & Harvey, Karen L., ApJ, 326, 988

1986

1. A two-fluid solar wind model with Alfven waves: parameter study and application to observations [71]
   Esser, Ruth, Leer, Egil, Habbal, Shadia R. & Withbroe, George L., Journal of Geophysical Research, 91, 2950
2. Solar Coronal Bright Points Observed with the VLA [44]
   Habbal, S. R., Ronan, R. S., Withbroe, G. L., Shevgaonkar, R. K. & Kundu, M. R., ApJ, 306, 740
3. Simultaneous observations of changes in coronal bright point emissionat the 20 cm radio and He I λ10830 wavelengths. [1]
   Habbal, Shadia R. & Harvey, Karen L., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 343

1985

1. Spatial and Temporal Variations of Solar Coronal Loops [35]
   Habbal, S. R., Ronan, R. & Withbroe, G. L., Solar Physics, 98, 323
2. The formation of a standing shock in a polytropic solar wind model within 1-10 R_s [11]
   Habbal, S. R., Journal of Geophysical Research, 90, 199
3. Impulsive Phenomena in a Small Active Region [23]
   Withbroe, G. L., Habbal, S. R. & Ronan, R., Solar Physics, 95, 297

1984

1. A wind-type model for the generation of astrophysical jets [31]
   Ferrari, A., Habbal, S. R., Rosner, R. & Tsinganos, K., ApJ, 277, L35
2. Fast-mode magnetohydrodynamic waves in coronal holes and the solar wind [37]
   Fla, T., Habbal, S. R., Holzer, T. E. & Leer, E., ApJ, 280, 382
3. Temporal evolution of the solar wind and the formation of a standing shock [11]
   Habbal, Shadia Rifai & Rosner, Robert, Journal of Geophysical Research, 89, 10645

1983

1. Multiple transonic solutions and a new class of shock transitions in solar and stellar winds. [3]
   Habbal, S. R., Tsinganos, K. & Rosner, R., NASA Conference Publication (Editors: Neugebauer, M.), NASA Conference Publication, 228, p. 0.213
2. Multiple transonic solutions with a new class of shock transitions in steady isothermal solar and stellar winds [40]
   Habbal, S. R. & Tsinganos, K., Journal of Geophysical Research, 88, 1965
3. Formation of standing shocks in stellar winds and related astrophysical flows. [4]
   Tsinganos, K., Habbal, S. R. & Rosner, R., NASA Conference Publication (Editors: Neugebauer, M.), NASA Conference Publication, 228, p. 0.289

1982

1. Electron heating by fast mode magnetohydrodynamic waves in the solar wind emanating from coronal holes [37]
   Habbal, S. R. & Leer, E., ApJ, 253, 318

1981

1. Spatial and Temporal Variations of EUV Coronal Bright Points [122]
   Habbal, S. R. & Withbroe, G. L., Solar Physics, 69, 77

1979

1. Heating of Coronal Loops by Fast Mode Mhd-Waves [2]
   Habbal, S. R., Holzer, T. E. & Leer, E., IAU Colloquium 44: Physics of Solar Prominences (Editors: Jensen, E., Maltby, P. & Orrall, F. Q.), p. 228
2. Plan MHD flows in a hyperbolic magnetic field: implications for the problem of magnetic field line reconnexion [7]
   Habbal, S. R. & Tuan, T.-F., Journal of Plasma Physics, 21, 85
3. Thermal instabilities in magnetically confined plasmas - Solar coronal loops [50]
   Habbal, S. R. & Rosner, R., ApJ, 234, 1113
4. Heating of Coronal Loops by Fast-Mode Magnetohydrodynamic Waves [46]
   Habbal, Shadia Rifai, Leer, Egil & Holzer, Thomas E., Solar Physics, 64, 287

1974

1. Microscopic nuclear magnetic moment calculations including Hartree-Fock graphs [2]
   Habbal, S. Rifai & Mavromatis, H. A., Nuclear Physics A, 223, 174