Publications of Leon Ofman

A list of publications authored or co-authored by Leon Ofman, 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: 0000-0003-0602-6693

List of publications ordered by citations
Number of papers: 144 (refereed: 133)
No. of citations: 7318
First author papers: 71 (refereed: 65)

2026

1. Observation of Large-scale Kelvin─Helmholtz Instability Wave Driven by a Coronal Mass Ejection [0]
   Ofman, Leon, Khabarova, Olga, Kwon, Ryun-Yong, Yogesh, Heifetz, Eyal & Nykyri, Katariina, ApJ, 997, L28

2025

1. Preferential Energization of Solar Wind Ions Below the Alfvénic Surface [3]
   Mostafavi, Parisa, Jagarlamudi, V. K., Raouafi, N. E., Palacios, J. C., Allen, R. C., Hill, M. E., Ofman, L. & Ho, G. C., ApJ, 991, L35
2. Modeling the Excitation, Propagation, and Damping of Quasiperiodic Fast Magnetosonic Waves in Realistic Coronal Active Region Magnetic Field Structures [1]
   Ofman, Leon, Wang, Tongjiang, Sun, Xudong & Jin, Meng, ApJ, 994, 25
3. Identification of Ion-kinetic Instabilities in Hybrid-PIC Simulations of Solar Wind Plasma with Machine Learning [4]
   Sadykov, Viacheslav M., Ofman, Leon, Boardsen, Scott A., Yogesh, Mostafavi, Parisa, Jian, Lan K., Klein, Kristopher & Martinović, Mihailo, ApJS, 279, 28
4. Evidence of Interaction between Ion-scale Waves and Ion Velocity Distributions in the Solar Wind [7]
   Yogesh, Ofman, Leon, Boardsen, Scott A., Klein, Kristopher, Martinović, Mihailo, Sadykov, Viacheslav M., Verniero, Jaye L., Niranjana, Jian, Lan K., Mostafavi, Parisa, Huang, Jia & Paulson, K. W., ApJ, 986, 119

2024

1. Understanding the Variability of Helium Abundance in the Solar Corona Using Three-fluid Modeling and Ultraviolet Observations [5]
   Ofman, Leon, Yogesh & Giordano, Silvio, ApJ, 970, L16
2. Exploring Standing and Reflected Slow-Mode Waves in Flaring Coronal Loops: A Parametric Study Using 2.5D MHD Modeling [2]
   Wang, Tongjiang, Ofman, Leon & Bradshaw, Stephen J., Solar Physics, 299, 37
3. Origins of Very Low Helium Abundance Streams Detected in the Solar Wind Plasma [6]
   Yogesh, Gopalswamy, N., Chakrabarty, D., Mostafavi, Parisa, Yashiro, Seiji, Srivastava, Nandita & Ofman, Leon, ApJ, 977, 89

2023

1. Reconnection-generated Plasma Flows in the Quasi-separatrix Layer in Localized Solar Corona [9]
   Mondal, Sripan, Srivastava, Abhishek K., Mishra, Sudheer K., Sangal, K., Kayshap, Pradeep, Guo, Yang, Pontin, David I., Uritsky, Vadim M., Ofman, Leon, Wang, Tongjiang & Yuan, Ding, ApJ, 953, 84
2. Observations and Modeling of Unstable Proton and α Particle Velocity Distributions in Sub-Alfvénic Solar Wind at Parker Solar Probe Perihelia [14]
   Ofman, Leon, Boardsen, Scott A., Jian, Lan K., Mostafavi, Parisa, Verniero, Jaye L., Livi, Roberto, McManus, Michael, Rahmati, Ali, Larson, Davin & Stevens, Michael L., ApJ, 954, 109
3. Nonlinear Fast Magnetosonic Waves in Solar Prominence Pillars [4]
   Ofman, Leon, Kucera, Therese A. & DeVore, C. Richard, ApJ, 944, 210

2022

1. Automated identification of transiting exoplanet candidates in NASA Transiting Exoplanets Survey Satellite (TESS) data with machine learning methods [13]
   Ofman, Leon, Averbuch, Amir, Shliselberg, Adi, Benaun, Idan, Segev, David & Rissman, Aron, New Astronomy, 91, 101693
2. Modeling Ion Beams, Kinetic Instabilities, and Waves Observed by the Parker Solar Probe near Perihelia [22]
   Ofman, Leon, Boardsen, Scott A., Jian, Lan K., Verniero, Jaye L. & Larson, Davin, ApJ, 926, 185
3. Excitation and Damping of Slow Magnetosonic Waves in Flaring Hot Coronal Loops: Effects of Compressive Viscosity [20]
   Ofman, Leon & Wang, Tongjiang, ApJ, 926, 64

2021

1. Oblique High Mach Number Heliospheric Shocks: The Role of α Particles [3]
   Ofman, L., Wilson, L. B., Koval, A. & Szabo, A., Journal of Geophysical Research (Space Physics), 126, e28962
2. Simulating the Solar Minimum Corona in UV Wavelengths with Forward Modeling II. Doppler Dimming and Microscopic Anisotropy Effect [16]
   Zhao, Jie, Gibson, Sarah E., Fineschi, Silvano, Susino, Roberto, Casini, Roberto, Cranmer, Steven R., Ofman, Leon & Li, Hui, ApJ, 912, 141

2020

1. Fast Magnetosonic Waves and Flows in a Solar Prominence Foot: Observations and Modeling [6]
   Ofman, Leon & Kucera, Therese A., ApJ, 899, 99

2019

1. Pitch Angle Scattering of Sub-MeV Relativistic Electrons by Electromagnetic Ion Cyclotron Waves [50]
   Denton, R. E., Ofman, L., Shprits, Y. Y., Bortnik, J., Millan, R. M., Rodger, C. J., da Silva, C. L., Rogers, B. N., Hudson, M. K., Liu, K., Min, K., Glocer, A. & Komar, C., Journal of Geophysical Research (Space Physics), 124, 5610
2. Collisionless relaxation of the ion ring distribution in space plasma [0]
   Ofman, L., Moore, T. E. & Glocer, A., Planetary and Space Science, 165, 75
3. Understanding the Role of α Particles in Oblique Heliospheric Shock Oscillations [8]
   Ofman, L., Koval, A., Wilson, L. B. & Szabo, A., Journal of Geophysical Research (Space Physics), 124, 2393
4. Nonlinear Evolution of Ion Kinetic Instabilities in the Solar Wind [15]
   Ofman, Leon, Solar Physics, 294, 51

2018

1. Motions in Prominence Barbs Observed on the Solar Limb [10]
   Kucera, T. A., Ofman, L. & Tarbell, T. D., ApJ, 859, 121
2. A Truly Global Extreme Ultraviolet Wave from the SOL2017-09-10 X8.2+ Solar Flare-Coronal Mass Ejection [54]
   Liu, Wei, Jin, Meng, Downs, Cooper, Ofman, Leon, Cheung, Mark C. M. & Nitta, Nariaki V., ApJ, 864, L24
3. Quasi-periodic Counter-propagating Fast Magnetosonic Wave Trains from Neighboring Flares: SDO/AIA Observations and 3D MHD Modeling [40]
   Ofman, Leon & Liu, Wei, ApJ, 860, 54
4. Excitation of flare-induced waves in coronal loops and the effects of radiative cooling [20]
   Provornikova, Elena, Ofman, Leon & Wang, Tongjiang, Advances in Space Research, 61, 645
5. Effect of Transport Coefficients on Excitation of Flare-induced Standing Slow-mode Waves in Coronal Loops [30]
   Wang, Tongjiang, Ofman, Leon, Sun, Xudong, Solanki, Sami K. & Davila, Joseph M., ApJ, 860, 107
6. Kelvin-Helmholtz instability in a twisting solar polar coronal hole jet observed by SDO/AIA [12]
   Zhelyazkov, I., Zaqarashvili, T. V., Ofman, L. & Chandra, R., Advances in Space Research, 61, 628

2017

1. Energy Release in the Solar Atmosphere from a Stream of Infalling Prominence Debris [0]
   Inglis, A. R., Gilbert, H. R. & Ofman, L., ApJ, 847, L17
2. Growth and nonlinear saturation of electromagnetic ion cyclotron waves in multi-ion species magnetospheric plasma [12]
   Ofman, L., Denton, R. E., Bortnik, J., An, X., Glocer, A. & Komar, C., Journal of Geophysical Research (Space Physics), 122, 6469
3. The effects of inhomogeneous proton-α drifts on the heating of the solar wind [20]
   Ofman, L., Viñas, A. F. & Roberts, D. A., Journal of Geophysical Research (Space Physics), 122, 5839
4. Hα Doppler shifts in a tornado in the solar corona [22]
   Schmieder, B., Mein, P., Mein, N., Levens, P. J., Labrosse, N. & Ofman, L., A&A, 597, A109

2016

1. Slow Solar Wind: Observations and Modeling [230]
   Abbo, L., Ofman, L., Antiochos, S. K., Hansteen, V. H., Harra, L., Ko, Y.-K., Lapenta, G., Li, B., Riley, P., Strachan, L., von Steiger, R. & Wang, Y.-M., Space Science Reviews, 201, 55
2. Quasi-periodic fast-mode magnetosonic wave trains within coronal waveguides associated with flares and CMEs [5]
   Liu, Wei, Ofman, Leon, Broder, Brittany, Karlický, Marian & Downs, Cooper, Solar Wind 14, American Institute of Physics Conference Series, 1720, p. 040010
3. MHD Waves in the Solar Wind [2]
   Ofman, L., Geophysical Monograph Series, 216, 241
4. Heating and acceleration of solar wind ions by turbulent wave spectrum in inhomogeneous expanding plasma [0]
   Ofman, Leon, Ozak, Nataly & Viñas, Adolfo F., Solar Wind 14, American Institute of Physics Conference Series, 1720, p. 040012
5. Evidence of thermal conduction suppression in hot coronal loops: supplementary results [7]
   Wang, Tongjiang, Ofman, Leon, Sun, Xudong, Provornikova, Elena & Davila, Joseph M., Solar and Stellar Flares and their Effects on Planets (Editors: Kosovichev, A. G., Hawley, S. L. & Heinzel, P.), IAU Symposium, 320, p. 202

2015

1. Relative drifts and temperature anisotropies of protons and α particles in the expanding solar wind: 2.5D hybrid simulations [38]
   Maneva, Y. G., Ofman, L. & Viñas, A., A&A, 578, A85
2. Nonlinear MHD Waves in a Prominence Foot [14]
   Ofman, L., Knizhnik, K., Kucera, T. & Schmieder, B., ApJ, 813, 124
3. Three-dimensional multi-fluid model of a coronal streamer belt with a tilted magnetic dipole [9]
   Ofman, L., Provornikova, E., Abbo, L. & Giordano, S., Annales Geophysicae, 33, 47
4. Three-dimensional MHD modeling of vertical kink oscillations in an active region plasma curtain [12]
   Ofman, L., Parisi, M. & Srivastava, A. K., A&A, 582, A75
5. Ion Heating in Inhomogeneous Expanding Solar Wind Plasma: The Role of Parallel and Oblique Ion-cyclotron Waves [27]
   Ozak, N., Ofman, L. & Viñas, A.-F., ApJ, 799, 77
6. Evidence of Thermal Conduction Suppression in a Solar Flaring Loop by Coronal Seismology of Slow-mode Waves [77]
   Wang, Tongjiang, Ofman, Leon, Sun, Xudong, Provornikova, Elena & Davila, Joseph M., ApJ, 811, L13
7. Stability of Rotating Magnetized Jets in the Solar Atmosphere. I. Kelvin-Helmholtz Instability [68]
   Zaqarashvili, Teimuraz V., Zhelyazkov, Ivan & Ofman, Leon, ApJ, 813, 123

2014

1. Advances in Observing Various Coronal EUV Waves in the SDO Era and Their Seismological Applications (Invited Review) [199]
   Liu, Wei & Ofman, Leon, Solar Physics, 289, 3233
2. Two-dimensional hybrid models of H⁺-He⁺⁺ expanding solar wind plasma heating [31]
   Ofman, L., Viñas, A. F. & Maneva, Y., Journal of Geophysical Research (Space Physics), 119, 4223

2013

1. Energy Release from Impacting Prominence Material Following the 2011 June 7 Eruption [45]
   Gilbert, H. R., Inglis, A. R., Mays, M. L., Ofman, L., Thompson, B. J. & Young, C. A., ApJ, 776, L12
2. Global Coronal Seismology in the Extended Solar Corona through Fast Magnetosonic Waves Observed by STEREO SECCHI COR1 [30]
   Kwon, Ryun-Young, Kramar, Maxim, Wang, Tongjiang, Ofman, Leon, Davila, Joseph M., Chae, Jongchul & Zhang, Jie, ApJ, 776, 55
3. STEREO Observations of Fast Magnetosonic Waves in the Extended Solar Corona Associated with EIT/EUV Waves [55]
   Kwon, Ryun-Young, Ofman, Leon, Olmedo, Oscar, Kramar, Maxim, Davila, Joseph M., Thompson, Barbara J. & Cho, Kyung-Suk, ApJ, 766, 55
4. The effect of broad-band Alfvén-cyclotron waves spectra on the preferential heating and differential acceleration of He⁺⁺ ions in the solar wind [7]
   Maneva, Y. G., Ofman, L. & Viñas, A. F., 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. 34
5. Turbulent heating and acceleration of He⁺⁺ ions by spectra of Alfvén-cyclotron waves in the expanding solar wind: 1.5-D hybrid simulations [45]
   Maneva, Y. G., ViñAs, A. F. & Ofman, L., Journal of Geophysical Research (Space Physics), 118, 2842
6. Two-dimensional hybrid simulations of quasi-perpendicular collisionless shock dynamics: Gyrating downstream ion distributions [37]
   Ofman, L. & Gedalin, M., Journal of Geophysical Research (Space Physics), 118, 1828
7. Observations and Models of Slow Solar Wind with Mg^{9 +} Ions in Quiescent Streamers [10]
   Ofman, L., Abbo, L. & Giordano, S., ApJ, 762, 18
8. Rippled quasi-perpendicular collisionless shocks: Local and global normals [21]
   Ofman, L. & Gedalin, M., Journal of Geophysical Research (Space Physics), 118, 5999
9. Measuring Temperature-dependent Propagating Disturbances in Coronal Fan Loops Using Multiple SDO/AIA Channels and the Surfing Transform Technique [37]
   Uritsky, Vadim M., Davila, Joseph M., Viall, Nicholeen M. & Ofman, Leon, ApJ, 778, 26
10. Stochastic Coupling of Solar Photosphere and Corona [32]
    Uritsky, Vadim M., Davila, Joseph M., Ofman, Leon & Coyner, Aaron J., ApJ, 769, 62
11. Three-dimensional Magnetohydrodynamic Modeling of Propagating Disturbances in Fan-like Coronal Loops [48]
    Wang, Tongjiang, Ofman, Leon & Davila, Joseph M., ApJ, 775, L23

2012

1. Hybrid simulation of the shock wave trailing the Moon [4]
   Israelevich, P. & Ofman, L., Journal of Geophysical Research (Space Physics), 117, A08223
2. Quasi-periodic Fast-mode Wave Trains within a Global EUV Wave and Sequential Transverse Oscillations Detected by SDO/AIA [156]
   Liu, Wei, Ofman, Leon, Nitta, Nariaki V., Aschwanden, Markus J., Schrijver, Carolus J., Title, Alan M. & Tarbell, Theodore D., ApJ, 753, 52
3. Slow Magnetosonic Waves and Fast Flows in Active Region Loops [72]
   Ofman, L., Wang, T. J. & Davila, J. M., ApJ, 754, 111
4. Persistent Doppler Shift Oscillations Observed with Hinode/EIS in the Solar Corona: Spectroscopic Signatures of Alfvénic Waves and Recurring Upflows [176]
   Tian, Hui, McIntosh, Scott W., Wang, Tongjiang, Ofman, Leon, De Pontieu, Bart, Innes, Davina E. & Peter, Hardi, ApJ, 759, 144
5. Growing Transverse Oscillations of a Multistranded Loop Observed by SDO/AIA [143]
   Wang, Tongjiang, Ofman, Leon, Davila, Joseph M. & Su, Yang, ApJ, 751, L27

2011

1. Probing the Thermodynamics and Kinematics of Solar Coronal Streamers [12]
   Airapetian, V., Ofman, L., Sittler, E. C. & Kramar, M., ApJ, 728, 67
2. Hybrid simulation of ion-acoustic waves excitation by non-linear Alfvén wave [7]
   Israelevich, P. L. & Ofman, L., Advances in Space Research, 48, 25
3. Direct Imaging of Quasi-periodic Fast Propagating Waves of ~2000 km s^-1 in the Low Solar Corona by the Solar Dynamics Observatory Atmospheric Imaging Assembly [153]
   Liu, Wei, Title, Alan M., Zhao, Junwei, Ofman, Leon, Schrijver, Carolus J., Aschwanden, Markus J., De Pontieu, Bart & Tarbell, Theodore D., ApJ, 736, L13
4. Modeling Super-fast Magnetosonic Waves Observed by SDO in Active Region Funnels [60]
   Ofman, L., Liu, W., Title, A. & Aschwanden, M., ApJ, 740, L33
5. SDO/AIA Observation of Kelvin-Helmholtz Instability in the Solar Corona [108]
   Ofman, L. & Thompson, B. J., ApJ, 734, L11
6. Hybrid models of solar wind plasma heating [25]
   Ofman, L., Viñas, A.-F. & Moya, P. S., Annales Geophysicae, 29, 1071
7. Multi-fluid Model of a Streamer at Solar Minimum and Comparison with Observations [14]
   Ofman, Leon, Abbo, Lucia & Giordano, Silvio, ApJ, 734, 30
8. Slow Magnetoacoustic Wave Oscillation of an Expanding Coronal Loop [6]
   Schmidt, J. M. & Ofman, L., ApJ, 739, 75
9. The Role of Active Region Loop Geometry. I. How Can it Affect Coronal Seismology? [19]
   Selwa, M., Ofman, L. & Solanki, S. K., ApJ, 726, 42
10. The Role of Active Region Loop Geometry. II. Symmetry Breaking in Three-dimensional Active Region: Why are Vertical Kink Oscillations Observed so Rarely? [23]
    Selwa, M., Solanki, S. K. & Ofman, L., ApJ, 728, 87

2010

1. Streamers study at solar minimum: combination of UV observations and numerical modeling [5]
   Abbo, Lucia, Ofman, Leon & Giordano, Silvio, 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. 387
2. Winds from Luminous Late-type Stars. II. Broadband Frequency Distribution of Alfvén Waves [48]
   Airapetian, V., Carpenter, K. G. & Ofman, L., ApJ, 723, 1210
3. Hybrid model of inhomogeneous solar wind plasma heating by Alfvén wave spectrum: Parametric studies [30]
   Ofman, L., Journal of Geophysical Research (Space Physics), 115, A04108
4. Acceleration and Heating of Solar Wind Ions by Nonlinear Waves [1]
   Ofman, L., Advances in Geosciences, Volume 21: Solar Terrestrial (ST) (Editors: Duldig, Marc), 21, p. 1
5. Wave Modeling of the Solar Wind [95]
   Ofman, Leon, Living Reviews in Solar Physics, 7, 4
6. Global Simulation of an Extreme Ultraviolet Imaging Telescope Wave [70]
   Schmidt, J. M. & Ofman, L., ApJ, 713, 1008
7. The Role of Active Region Topology in Excitation, Trapping, and Damping of Coronal Loop Oscillations [19]
   Selwa, M. & Ofman, L., ApJ, 714, 170
8. Web-Based Data Processing System for Automated Detection of Oscillations with Applications to the Solar Atmosphere [22]
   Sych, R. A., Nakariakov, V. M., Anfinogentov, S. A. & Ofman, L., Solar Physics, 266, 349

2009

1. Collisionless relaxation of ion distributions downstream of laminar quasi-perpendicular shocks [46]
   Ofman, L., Balikhin, M., Russell, C. T. & Gedalin, M., Journal of Geophysical Research (Space Physics), 114, A09106
2. Three-Dimensional Magnetohydrodynamic Models of Twisted Multithreaded Coronal Loop Oscillations [47]
   Ofman, L., ApJ, 694, 502
3. Progress, Challenges, and Perspectives of the 3D MHD Numerical Modeling of Oscillations in the Solar Corona [33]
   Ofman, Leon, Space Science Reviews, 149, 153
4. Three-dimensional MHD modeling of waves in active region loops [4]
   Ofman, Leon & Selwa, Małgorzata, Universal Heliophysical Processes (Editors: Gopalswamy, N. & Webb, D. F.), IAU Symposium, 257, p. 151
5. 3-D numerical simulations of coronal loops oscillations [25]
   Selwa, M. & Ofman, L., Annales Geophysicae, 27, 3899
6. Propagating Slow Magnetoacoustic Waves in Coronal Loops Observed by Hinode/EIS [88]
   Wang, T. J., Ofman, L. & Davila, J. M., ApJ, 696, 1448
7. Hinode/EIS observations of propagating low-frequency slow magnetoacoustic waves in fan-like coronal loops [109]
   Wang, T. J., Ofman, L., Davila, J. M. & Mariska, J. T., A&A, 503, L25

2008

1. Standing fast magnetoacoustic kink waves of solar coronal loops with field-aligned flow [23]
   Gruszecki, M., Murawski, K. & Ofman, L., A&A, 488, 757
2. Three-dimensional Magnetohydrodynamic Wave Behavior in Active Regions: Individual Loop Density Structure [45]
   McLaughlin, J. A. & Ofman, L., ApJ, 682, 1338
3. Hinode observations of transverse waves with flows in coronal loops [136]
   Ofman, L. & Wang, T. J., A&A, 482, L9

2007

1. Attenuation of Alfvén waves in straight and curved coronal slabs [17]
   Gruszecki, M., Murawski, K., Solanki, S. K. & Ofman, L., A&A, 469, 1117
2. Understanding coronal heating and solar wind acceleration: Case for in situ near-Sun measurements [88]
   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
3. Two-dimensional hybrid model of wave and beam heating of multi-ion solar wind plasma [39]
   Ofman, L. & ViñAs, A. F., Journal of Geophysical Research (Space Physics), 112, A06104
4. Three-dimensional MHD Model of Wave Activity in a Coronal Active Region [51]
   Ofman, L., ApJ, 655, 1134
5. Numerical Simulations of Slow Standing Waves in a Curved Solar Coronal Loop [46]
   Selwa, M., Ofman, L. & Murawski, K., ApJ, 668, L83

2006

1. Numerical simulations of vertical oscillations of a multi-stranded coronal loop [23]
   Gruszecki, M., Murawski, K., Selwa, M. & Ofman, L., A&A, 460, 887
2. Semiempirically derived heating function of the corona heliosphere during the Whole Sun Month [21]
   Guhathakurta, M., Sittler, E. C. & Ofman, L., Journal of Geophysical Research (Space Physics), 111, A11215
3. Oscillations of Hard X-Ray Flare Emission Observed by RHESSI: Effects of Super-Alfvénic Beams? [56]
   Ofman, L. & Sui, L., ApJ, 644, L149
4. Wave acceleration of the fast solar wind [4]
   Ofman, Leon, Advances in Space Research, 38, 64
5. Improved input to the empirical coronal mass ejection (CME) driven shock arrival model from CME cone models [27]
   Xie, H., Gopalswamy, N., Ofman, L., St. Cyr, O. C., Michalek, G., Lara, A. & Yashiro, S., Space Weather, 4, S10002

2005

1. High-frequency Alfvén waves in multi-ion coronal plasma: Observational implications [24]
   Ofman, L., Davila, J. M., Nakariakov, V. M. & ViñAs, A.-F., Journal of Geophysical Research (Space Physics), 110, A09102
2. MHD Waves and Heating in Coronal Holes [79]
   Ofman, Leon, Space Science Reviews, 120, 67
3. Three dimensional MHD models of active region loops [27]
   Ofman, Leon, Advances in Space Research, 36, 1572

2004

1. Parallel electric field in the auroral ionosphere: excitation of acoustic waves by Alfvén waves [4]
   Israelevich, P. & Ofman, L., Annales Geophysicae, 22, 2797
2. Three-fluid model of the heating and acceleration of the fast solar wind [48]
   Ofman, L., Journal of Geophysical Research (Space Physics), 109, A07102
3. The origin of the slow solar wind in coronal streamers [30]
   Ofman, L., Advances in Space Research, 33, 681
4. Loop Density Enhancement by Nonlinear Magnetohydrodynamic Waves [84]
   Terradas, J. & Ofman, L., ApJ, 610, 523
5. Characteristics of transverse oscillations in a coronal loop arcade [253]
   Verwichte, E., Nakariakov, V. M., Ofman, L. & Deluca, E. E., Solar Physics, 223, 77
6. Multiple ions resonant heating and acceleration by Alfvén/cyclotron fluctuations in the corona and the solar wind [53]
   Xie, Hong, Ofman, Leon & ViñAs, Adolfo, Journal of Geophysical Research (Space Physics), 109, A08103
7. Cone model for halo CMEs: Application to space weather forecasting [254]
   Xie, Hong, Ofman, Leon & Lawrence, Gareth, Journal of Geophysical Research (Space Physics), 109, A03109

2003

1. Consequences of proton and alpha anisotropies in the solar wind: Hybrid simulations [63]
   Gary, S. Peter, Yin, Lin, Winske, Dan, Ofman, Leon, Goldstein, Bruce E. & Neugebauer, Marcia, Journal of Geophysical Research (Space Physics), 108, 1068
2. Flows in coronal loops driven by Alfvén waves: 1.5 MHD simulations with transparent boundary conditions [5]
   Grappin, R., Léorat, J. & Ofman, L., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 750
3. Development of Multidimensional MHD Model for the Solar Corona and Solar Wind [4]
   Sittler, E. C., Ofman, L., Gibson, S., Guhathakurta, M., Davila, J., Skoug, R., Fludra, A. & Holzer, T., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 113

2002

1. Estimating random transverse velocities in the fast solar wind from EISCAT Interplanetary Scintillation measurements [30]
   Canals, A., Breen, A. R., Ofman, L., Moran, P. J. & Fallows, R. A., Annales Geophysicae, 20, 1265
2. Resonant heating and acceleration of ions in coronal holes driven by cyclotron resonant spectra [44]
   Ofman, L., Gary, S. P. & ViñAs, A., Journal of Geophysical Research (Space Physics), 107, 1461
3. Hot Coronal Loop Oscillations Observed by SUMER: Slow Magnetosonic Wave Damping by Thermal Conduction [234]
   Ofman, L. & Wang, Tongjiang, ApJ, 580, L85
4. Damping Time Scaling of Coronal Loop Oscillations Deduced from Transition Region and Coronal Explorer Observations [186]
   Ofman, L. & Aschwanden, M. J., ApJ, 576, L153
5. Interaction of EIT Waves with Coronal Active Regions [168]
   Ofman, L. & Thompson, B. J., ApJ, 574, 440
6. Chromospheric Leakage of Alfvén Waves in Coronal Loops [56]
   Ofman, L., ApJ, 568, L135

2001

1. Electromagnetic heavy ion cyclotron instability: Anisotropy constraint in the solar corona [37]
   Gary, S. Peter, Yin, Lin, Winske, Dan & Ofman, Leon, Journal of Geophysical Research, 106, 10715
2. Three-Fluid 2.5-dimensional Magnetohydrodynamic Model of the Effective Temperature in Coronal Holes [26]
   Ofman, L. & Davila, J. M., ApJ, 553, 935
3. Constraints on the O⁺⁵ Anisotropy in the Solar Corona [41]
   Ofman, L., Viñas, A. & Gary, S. P., ApJ, 547, L175

2000

1. Source regions of the slow solar wind in coronal streamers [43]
   Ofman, L., Geophysical Research Letters, 27, 2885
2. Three-fluid 2.5D MHD models of waves in solar coronal holes and the relation to SOHO/UVCS observations [1]
   Ofman, L., Waves in Dusty, Solar, and Space Plasmas (Editors: Verheest, F., Goossens, M., Hellberg, M. A. & Bharuthram, R.), American Institute of Physics Conference Series, 537, p. 119
3. Imaging the Sun in extreme ultraviolet and in X-rays with spaceborne instruments [0]
   Ofman, Leon, Optics & Photonics News, 11, 54

1999

1. TRACE observation of damped coronal loop oscillations: Implications for coronal heating [841]
   Nakariakov, V. M., Ofman, L., Deluca, E. E., Roberts, B. & Davila, J. M., Science, 285, 862
2. Slow Magnetosonic Waves in Coronal Plumes [246]
   Ofman, L., Nakariakov, V. M. & DeForest, C. E., ApJ, 514, 441
3. Two-fluid 2.5D MHD model of the fast solar wind and the effective proton temperature [4]
   Ofman, L. & Davila, J. M., Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 405
4. Alfvén wave phase mixing driven by velocity shear in two dimensions [2]
   Ruderman, M. S., Goldstein, M. L., Roberts, D. A., Deane, A. & Ofman, L., Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 337

1998

1. A Self-consistent Model for the Resonant Heating of Coronal Loops: The Effects of Coupling with the Chromosphere [91]
   Ofman, L., Klimchuk, J. A. & Davila, J. M., ApJ, 493, 474

1997

1. Ultraviolet Coronagraph Spectrometer Observations of Density Fluctuations in the Solar Wind [204]
   Ofman, L., Romoli, M., Poletto, G., Noci, G. & Kohl, J. L., ApJ, 491, L111
2. Solar Wind Acceleration by Solitary Waves in Coronal Holes [70]
   Ofman, L. & Davila, J. M., ApJ, 476, 357
3. Solitary waves in coronal holes-predicted signatures close to the sun [1]
   Ofman, L. & Davila, J. M., Robotic Exploration Close to the Sun: Scientific Basis (Editors: Habbal, Shadia Rifai), American Institute of Physics Conference Series, 385, p. 227

1996

1. Signatures of Global Mode Alfven Resonance Heating in Coronal Loops [16]
   Ofman, L., Davila, J. M. & Shimizu, T., ApJ, 459, L39
2. Nonlinear Excitation of Global Modes and Heating in Randomly Driven Coronal Loops [27]
   Ofman, L. & Davila, J. M., ApJ, 456, L123
3. Heating of coronal holes by the resonant absorption and dissipation of Alfvén waves [1]
   Ofman, L. & Davila, J. M., 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. 149

1995

1. Reply to “Comment on nonlinear studies of coronal heating by the resonant absorption of Alfvén waves” by J. V. Hollweg [2]
   Ofman, L., Davila, J. M. & Steinolfson, R. S., Geophysical Research Letters, 22, 2679
2. Magnetic Reconnection and Current-Sheet Formation at X-type Neutral Points [2]
   Steinolfson, R. S., Ofman, L. & Morrison, P. J., Geophysical Monograph Series, 86, 189

1994

1. Nonlinear studies of coronal heating by the resonant absorption of Alfvén waves [79]
   Ofman, L., Davila, J. M. & Steinolfson, R. S., Geophysical Research Letters, 21, 2259

1993

1. Nonlinear evolution of resistive tearing mode instability with shear flow and viscosity [48]
   Ofman, L., Morrison, P. J. & Steinolfson, R. S., Physics of Fluids B, 5, 376

1992

1. Double tearing instability with shear flow [66]
   Ofman, L., Physics of Fluids B, 4, 2751

1991

1. Resistive tearing mode instability with shear flow and viscosity [80]
   Ofman, L., Chen, X. L., Morrison, P. J. & Steinolfson, R. S., Physics of Fluids B, 3, 1364

1990

1. Thermally Conductive Magnetohydrodynamic Flows in Helmet-Streamer Coronal Structures [31]
   Cuperman, S., Ofman, L. & Dryer, M., ApJ, 350, 846

1986

1. Nonlinear aspects of collective, electromagnetic interactions in magnetized plasmas with anisotropic protons and isotropic alpha particles [3]
   Cuperman, S., Ofman, L. & Dryer, M., Journal of Plasma Physics, 36, 387
2. Magnetic configurations for axisymmetric tandem mirror devices [0]
   Cuperman, S. & Ofman, L., Computer Physics Communications, 42, 217