Publications of Mark C. M. Cheung

A list of publications authored or co-authored by Mark C. M. Cheung, 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: 0000-0003-2110-9753

List of publications ordered by citations
Number of papers: 78 (refereed: 74)
No. of citations: 5866
First author papers: 14 (refereed: 14)

2025

1. Unlocking the hidden potential of pulsar astronomy [0]
   Kaur, D., Hobbs, G., Zic, A., Dawson, J. R., Morgan, J., Ling, W., Camtepe, S., Pieprzyk, J. & Cheung, M. C. M., New Astronomy, 121, 102460
2. Comparison of Plasma Dynamics in Coronal Holes and Quiet Sun Using Flux Emergence Simulations [2]
   Upendran, Vishal, Tripathi, Durgesh, Vaidya, Bhargav, Cheung, Mark C. M. & Yokoyama, Takaaki, ApJ, 985, 27
3. Relevance of Murchison Widefield Array Interplanetary Scintillation Observations to Heliospheric Transient Catalogs [0]
   Waszewski, A., Morgan, J. S., Cheung, M. C. M., Ekers, R., Samara, E., Majumdar, S., Chhetri, R., Bhat, N. D. R. & Johnston‐Hollitt, M., Space Weather, 23, e2025SW004578
4. Latitudinal Dependence of the Solar Wind During Periods of High and Low Activity Through Interplanetary Scintillation [4]
   Waszewski, A., Morgan, J. S., Ekers, R., Johnston-Hollitt, M., Cheung, M. C. M., Bhat, N. D. R., Chhetri, R. & Fu, S. C., Space Weather, 23, e2025SW004342

2024

1. Surface Flux Transport Modeling Using Physics-informed Neural Networks [7]
   Athalathil, Jithu J., Vaidya, Bhargav, Kundu, Sayan, Upendran, Vishal & Cheung, Mark C. M., ApJ, 975, 258

2023

1. Hybrid Data-driven Magnetofrictional and Magnetohydrodynamic Simulations of an Eruptive Solar Active Region [20]
   Afanasyev, Andrey N., Fan, Yuhong, Kazachenko, Maria D. & Cheung, Mark C. M., ApJ, 952, 136
2. Machine learning in solar physics [49]
   Asensio Ramos, Andrés, Cheung, Mark C. M., Chifu, Iulia & Gafeira, Ricardo, Living Reviews in Solar Physics, 20, 4
3. Implications of Different Solar Photospheric Flux-transport Models for Global Coronal and Heliospheric Modeling [16]
   Barnes, Graham, DeRosa, Marc L., Jones, Shaela I., Arge, Charles N., Henney, Carl J. & Cheung, Mark C. M., ApJ, 946, 105
4. Data-driven Radiative Magnetohydrodynamics Simulations with the MURaM Code [18]
   Chen, Feng, Cheung, Mark C. M., Rempel, Matthias & Chintzoglou, Georgios, ApJ, 949, 118
5. Signatures of dynamic fibrils at the coronal base: Observations from Solar Orbiter/EUI [16]
   Mandal, Sudip, Peter, Hardi, Chitta, Lakshmi Pradeep, Cuadrado, Regina Aznar, Schühle, Udo, Teriaca, Luca, Solanki, Sami K., Harra, Louise, Berghmans, David, Auchère, Frédéric, Parenti, Susanna, Zhukov, Andrei N., Buchlin, Éric, Verbeeck, Cis, Kraaikamp, Emil, Rodriguez, Luciano, Long, David M., Schwanitz, Conrad, Barczynski, Krzysztof, Pelouze, Gabriel, Smith, Philip J., Liu, Wei & Cheung, Mark C., A&A, 670, L3
6. Solar Orbiter and SDO Observations, and a Bifrost Magnetohydrodynamic Simulation of Small-scale Coronal Jets [21]
   Panesar, Navdeep K., Hansteen, Viggo H., Tiwari, Sanjiv K., Cheung, Mark C. M., Berghmans, David & Müller, Daniel, ApJ, 943, 24
7. Comprehensive Radiative MHD Simulations of Eruptive Flares above Collisional Polarity Inversion Lines [24]
   Rempel, Matthias, Chintzoglou, Georgios, Cheung, Mark C. M., Fan, Yuhong & Kleint, Lucia, ApJ, 955, 105
8. Resolving Moving Heliospheric Structures Using Interplanetary Scintillation Observations With the Murchison Widefield Array [3]
   Waszewski, A., Morgan, J. S., Chhetri, R., Ekers, R., Cheung, M. C. M., Bhat, N. D. R. & Johnston-Hollitt, M., Space Weather, 21, e2023SW003570
9. Surface Flux Transport on the Sun [58]
   Yeates, Anthony R., Cheung, Mark C. M., Jiang, Jie, Petrovay, Kristof & Wang, Yi-Ming, Space Science Reviews, 219, 31

2022

1. Probing the Physics of the Solar Atmosphere with the Multi-slit Solar Explorer (MUSE). II. Flares and Eruptions [54]
   Cheung, Mark C. M., Martínez-Sykora, Juan, Testa, Paola, De Pontieu, Bart, Chintzoglou, Georgios, Rempel, Matthias, Polito, Vanessa, Kerr, Graham S., Reeves, Katharine K., Fletcher, Lyndsay, Jin, Meng, Nóbrega-Siverio, Daniel, Danilovic, Sanja, Antolin, Patrick, Allred, Joel, Hansteen, Viggo, Ugarte-Urra, Ignacio, DeLuca, Edward, Longcope, Dana, Takasao, Shinsuke, DeRosa, Marc L., Boerner, Paul, Jaeggli, Sarah, Nitta, Nariaki V., Daw, Adrian, Carlsson, Mats, Golub, Leon & The, ApJ, 926, 53
2. Probing the Physics of the Solar Atmosphere with the Multi-slit Solar Explorer (MUSE). I. Coronal Heating [72]
   De Pontieu, Bart, Testa, Paola, Martínez-Sykora, Juan, Antolin, Patrick, Karampelas, Konstantinos, Hansteen, Viggo, Rempel, Matthias, Cheung, Mark C. M., Reale, Fabio, Danilovic, Sanja, Pagano, Paolo, Polito, Vanessa, De Moortel, Ineke, Nóbrega-Siverio, Daniel, Van Doorsselaere, Tom, Petralia, Antonino, Asgari-Targhi, Mahboubeh, Boerner, Paul, Carlsson, Mats, Chintzoglou, Georgios, Daw, Adrian, DeLuca, Edward, Golub, Leon, Matsumoto, Takuma, Ugarte-Urra, Ignacio, McIntosh, Scott W. & the MUSE Team, ApJ, 926, 52
3. The Solar Internetwork. III. Unipolar versus Bipolar Flux Appearance [13]
   Gošić, M., Bellot Rubio, L. R., Cheung, M. C. M., Orozco Suárez, D., Katsukawa, Y. & del Toro Iniesta, J. C., ApJ, 925, 188
4. SynthIA: A Synthetic Inversion Approximation for the Stokes Vector Fusing SDO and Hinode into a Virtual Observatory [18]
   Higgins, Richard E. L., Fouhey, David F., Antiochos, Spiro K., Barnes, Graham, Cheung, Mark C. M., Hoeksema, J. Todd, Leka, K. D., Liu, Yang, Schuck, Peter W. & Gombosi, Tamas I., ApJS, 259, 24
5. Coronal Mass Ejections and Dimmings: A Comparative Study Using MHD Simulations and SDO Observations [29]
   Jin, Meng, Cheung, Mark C. M., DeRosa, Marc L., Nitta, Nariaki V. & Schrijver, Carolus J., ApJ, 928, 154
6. The Coronal Veil [43]
   Malanushenko, A., Cheung, M. C. M., DeForest, C. E., Klimchuk, J. A. & Rempel, M., ApJ, 927, 1
7. Exploring the Limits of Synthetic Creation of Solar EUV Images via Image-to-image Translation [12]
   Salvatelli, Valentina, dos Santos, Luiz F. G., Bose, Souvik, Neuberg, Brad, Cheung, Mark C. M., Janvier, Miho, Jin, Meng, Gal, Yarin & Güneș Baydin, Atilim, ApJ, 937, 100

2021

1. Coupling a Global Heliospheric Magnetohydrodynamic Model to a Magnetofrictional Model of the Low Corona [18]
   Hayashi, Keiji, Abbett, William P., Cheung, Mark C. M. & Fisher, George H., ApJS, 254, 1
2. The Magnetic Origin of Solar Campfires [75]
   Panesar, Navdeep K., Tiwari, Sanjiv K., Berghmans, David, Cheung, Mark C. M., Müller, Daniel, Auchere, Frederic & Zhukov, Andrei, ApJ, 921, L20
3. Non-Neutralized Electric Current of Active Regions Explained as a Projection Effect [5]
   Sun, Xudong & Cheung, Mark C. M., Solar Physics, 296, 7
4. Sun-as-a-star Multi-wavelength Observations: A Milestone for Characterization of Stellar Active Regions [0]
   Toriumi, Shin, Airapetian, Vladimir S., Hudson, Hugh S., Schrijver, Carolus J., Cheung, Mark C. M. & DeRosa, Marc L., The 20.5th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun (CS20.5), Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun, p. 46

2020

1. aiapy: A Python Package for Analyzing Solar EUV Image Data from AIA [73]
   Barnes, Will, Cheung, Mark, Bobra, Monica, Boerner, Paul, Chintzoglou, Georgios, Leonard, Drew, Mumford, Stuart, Padmanabhan, Nicholas, Shih, Albert, Shirman, Nina, Stansby, David & Wright, Paul, The Journal of Open Source Software, 5, 2801
2. The Multi-slit Approach to Coronal Spectroscopy with the Multi-slit Solar Explorer (MUSE) [86]
   De Pontieu, Bart, Martínez-Sykora, Juan, Testa, Paola, Winebarger, Amy R., Daw, Adrian, Hansteen, Viggo, Cheung, Mark C. M. & Antolin, Patrick, ApJ, 888, 3
3. The PDFI_SS Electric Field Inversion Software [40]
   Fisher, George H., Kazachenko, Maria D., Welsch, Brian T., Sun, Xudong, Lumme, Erkka, Bercik, David J., DeRosa, Marc L. & Cheung, Mark C. M., ApJS, 248, 2
4. The Coronal Global Evolutionary Model: Using HMI Vector Magnetogram and Doppler Data to Determine Coronal Magnetic Field Evolution [50]
   Hoeksema, J. Todd, Abbett, William P., Bercik, David J., Cheung, Mark C. M., DeRosa, Marc L., Fisher, George H., Hayashi, Keiji, Kazachenko, Maria D., Liu, Yang, Lumme, Erkka, Lynch, Benjamin J., Sun, Xudong & Welsch, Brian T., ApJS, 250, 28
5. Coronal dimming as a proxy for stellar coronal mass ejections [18]
   Jin, M., Cheung, M. C. M., DeRosa, M. L., Nitta, N. V., Schrijver, C. J., France, K., Kowalski, A., Mason, J. P. & Osten, R., Solar and Stellar Magnetic Fields: Origins and Manifestations (Editors: Kosovichev, A., Strassmeier, S. & Jardine, M.), IAU Symposium, 354, p. 426
6. Sun-as-a-star Spectral Irradiance Observations of Transiting Active Regions [29]
   Toriumi, Shin, Airapetian, Vladimir S., Hudson, Hugh S., Schrijver, Carolus J., Cheung, Mark C. M. & DeRosa, Marc L., ApJ, 902, 36
7. Comparative Study of Data-driven Solar Coronal Field Models Using a Flux Emergence Simulation as a Ground-truth Data Set [34]
   Toriumi, Shin, Takasao, Shinsuke, Cheung, Mark C. M., Jiang, Chaowei, Guo, Yang, Hayashi, Keiji & Inoue, Satoshi, ApJ, 890, 103
8. Solar Wind Prediction Using Deep Learning [53]
   Upendran, Vishal, Cheung, Mark C. M., Hanasoge, Shravan & Krishnamurthi, Ganapathy, Space Weather, 18, e02478

2019

1. Three-dimensional modeling of chromospheric spectral lines in a simulated active region [45]
   Bjørgen, Johan P., Leenaarts, Jorrit, Rempel, Matthias, Cheung, Mark C. M., Danilovic, Sanja, de la Cruz Rodríguez, Jaime & Sukhorukov, Andrii V., A&A, 631, A33
2. A comprehensive three-dimensional radiative magnetohydrodynamic simulation of a solar flare [137]
   Cheung, M. C. M., Rempel, M., Chintzoglou, G., Chen, F., Testa, P., Martínez-Sykora, J., Sainz Dalda, A., DeRosa, M. L., Malanushenko, A., Hansteen, V., De Pontieu, B., Carlsson, M., Gudiksen, B. & McIntosh, S. W., Nature Astronomy, 3, 160
3. Multi-component Decomposition of Astronomical Spectra by Compressed Sensing [33]
   Cheung, Mark C. M., De Pontieu, Bart, Martínez-Sykora, Juan, Testa, Paola, Winebarger, Amy R., Daw, Adrian, Hansteen, Viggo, Antolin, Patrick, Tarbell, Theodore D., Wuelser, Jean-Pierre, Young, Peter & MUSE Team, ApJ, 882, 13
4. The Origin of Major Solar Activity: Collisional Shearing between Nonconjugated Polarities of Multiple Bipoles Emerging within Active Regions [80]
   Chintzoglou, Georgios, Zhang, Jie, Cheung, Mark C. M. & Kazachenko, Maria, ApJ, 871, 67
5. Machine learning reveals systematic accumulation of electric current in lead-up to solar flares [12]
   Dhuri, Dattaraj B., Hanasoge, Shravan M. & Cheung, Mark C. M., Proceedings of the National Academy of Science, 116, 11141
6. A Machine-learning Data Set Prepared from the NASA Solar Dynamics Observatory Mission [65]
   Galvez, Richard, Fouhey, David F., Jin, Meng, Szenicer, Alexandre, Muñoz-Jaramillo, Andrés, Cheung, Mark C. M., Wright, Paul J., Bobra, Monica G., Liu, Yang, Mason, James & Thomas, Rajat, ApJS, 242, 7
7. Auto-Calibration of Remote Sensing Solar Telescopes with Deep Learning [2]
   Neuberg, Brad, Bose, Souvik, Salvatelli, Valentina, dos Santos, Luiz F. G., Cheung, Mark, Janvier, Miho, Gunes Baydin, Atilim, Gal, Yarin & Jin, Meng, arXiv:1911.04008
8. Using U-Nets to Create High-Fidelity Virtual Observations of the Solar Corona [13]
   Salvatelli, Valentina, Bose, Souvik, Neuberg, Brad, dos Santos, Luiz F. G., Cheung, Mark, Janvier, Miho, Gunes Baydin, Atilim, Gal, Yarin & Jin, Meng, arXiv:1911.04006
9. A deep learning virtual instrument for monitoring extreme UV solar spectral irradiance [27]
   Szenicer, Alexandre, Fouhey, David F., Munoz-Jaramillo, Andres, Wright, Paul J., Thomas, Rajat, Galvez, Richard, Jin, Meng & Cheung, Mark C. M., Science Advances, 5, eaaw6548

2018

1. Order out of Randomness: Self-Organization Processes in Astrophysics [47]
   Aschwanden, Markus J., Scholkmann, Felix, Béthune, William, Schmutz, Werner, Abramenko, Valentina, Cheung, Mark C. M., Müller, Daniel, Benz, Arnold, Chernov, Guennadi, Kritsuk, Alexei G., Scargle, Jeffrey D., Melatos, Andrew, Wagoner, Robert V., Trimble, Virginia & Green, William H., Space Science Reviews, 214, 55
2. An Observationally Constrained Model of a Flux Rope that Formed in the Solar Corona [55]
   James, Alexander W., Valori, Gherardo, Green, Lucie M., Liu, Yang, Cheung, Mark C. M., Guo, Yang & van Driel-Gesztelyi, Lidia, ApJ, 855, L16
3. 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
4. Determination of Differential Emission Measure from Solar Extreme Ultraviolet Images [129]
   Su, Yang, Veronig, Astrid M., Hannah, Iain G., Cheung, Mark C. M., Dennis, Brian R., Holman, Gordon D., Gan, Weiqun & Li, Youping, ApJ, 856, L17
5. Solar Ultraviolet Bursts [124]
   Young, Peter R., Tian, Hui, Peter, Hardi, Rutten, Robert J., Nelson, Chris J., Huang, Zhenghua, Schmieder, Brigitte, Vissers, Gregal J. M., Toriumi, Shin, Rouppe van der Voort, Luc H. M., Madjarska, Maria S., Danilovic, Sanja, Berlicki, Arkadiusz, Chitta, L. P., Cheung, Mark C. M., Madsen, Chad, Reardon, Kevin P., Katsukawa, Yukio & Heinzel, Petr, Space Science Reviews, 214, 120

2017

1. The Life Cycle of Active Region Magnetic Fields [16]
   Cheung, M. C. M., van Driel-Gesztelyi, L., Martínez Pillet, V. & Thompson, M. J., Space Science Reviews, 210, 317
2. Field distribution of magnetograms from simulations of active region formation [2]
   Dacie, S., van Driel-Gesztelyi, L., Démoulin, P., Linton, M. G., Leake, J. E., MacTaggart, D. & Cheung, M. C. M., A&A, 606, A34
3. Witnessing a Large-scale Slipping Magnetic Reconnection along a Dimming Channel during a Solar Flare [34]
   Jing, Ju, Liu, Rui, Cheung, Mark C. M., Lee, Jeongwoo, Xu, Yan, Liu, Chang, Zhu, Chunming & Wang, Haimin, ApJ, 842, L18
4. Various Local Heating Events in the Earliest Phase of Flux Emergence [45]
   Toriumi, Shin, Katsukawa, Yukio & Cheung, Mark C. M., ApJ, 836, 63

2016

1. A Numerical Study of Long-range Magnetic Impacts during Coronal Mass Ejections [52]
   Jin, M., Schrijver, C. J., Cheung, M. C. M., DeRosa, M. L., Nitta, N. V. & Title, A. M., ApJ, 820, 16

2015

1. Magnetic jam in the corona of the Sun [15]
   Chen, F., Peter, H., Bingert, S. & Cheung, M. C. M., Nature Physics, 11, 492
2. Thermal Diagnostics with the Atmospheric Imaging Assembly on board the Solar Dynamics Observatory: A Validated Method for Differential Emission Measure Inversions [302]
   Cheung, Mark C. M., Boerner, P., Schrijver, C. J., Testa, P., Chen, F., Peter, H. & Malanushenko, A., ApJ, 807, 143
3. Homologous Helical Jets: Observations By IRIS, SDO, and Hinode and Magnetic Modeling With Data-Driven Simulations [114]
   Cheung, Mark C. M., De Pontieu, B., Tarbell, T. D., Fu, Y., Tian, H., Testa, P., Reeves, K. K., Martínez-Sykora, J., Boerner, P., Wülser, J. P., Lemen, J., Title, A. M., Hurlburt, N., Kleint, L., Kankelborg, C., Jaeggli, S., Golub, L., McKillop, S., Saar, S., Carlsson, M. & Hansteen, V., ApJ, 801, 83
4. The Coronal Global Evolutionary Model: Using HMI Vector Magnetogram and Doppler Data to Model the Buildup of Free Magnetic Energy in the Solar Corona [59]
   Fisher, G. H., Abbett, W. P., Bercik, D. J., Kazachenko, M. D., Lynch, B. J., Welsch, B. T., Hoeksema, J. T., Hayashi, K., Liu, Y., Norton, A. A., Dalda, A. Sainz, Sun, X., DeRosa, M. L. & Cheung, M. C. M., Space Weather, 13, 369
5. Multi-parametric Study of Rising 3D Buoyant Flux Tubes in an Adiabatic Stratification Using AMR [26]
   Martínez-Sykora, Juan, Moreno-Insertis, Fernando & Cheung, Mark C. M., ApJ, 814, 2
6. Numerical Study on the Emergence of Kinked Flux Tube for Understanding of Possible Origin of δ-spot Regions [54]
   Takasao, Shinsuke, Fan, Yuhong, Cheung, Mark C. M. & Shibata, Kazunari, ApJ, 813, 112
7. Light Bridge in a Developing Active Region. II. Numerical Simulation of Flux Emergence and Light Bridge Formation [54]
   Toriumi, Shin, Cheung, Mark C. M. & Katsukawa, Yukio, ApJ, 811, 138
8. Light Bridge in a Developing Active Region. I. Observation of Light Bridge and its Dynamic Activity Phenomena [76]
   Toriumi, Shin, Katsukawa, Yukio & Cheung, Mark C. M., ApJ, 811, 137

2014

1. A model for the formation of the active region corona driven by magnetic flux emergence [44]
   Chen, F., Peter, H., Bingert, S. & Cheung, M. C. M., A&A, 564, A12
2. Flux Emergence (Theory) [184]
   Cheung, Mark C. M. & Isobe, Hiroaki, Living Reviews in Solar Physics, 11, 3
3. The Interface Region Imaging Spectrograph (IRIS) [1232]
   De Pontieu, B., Title, A. M., Lemen, J. R., Kushner, G. D., Akin, D. J., Allard, B., Berger, T., Boerner, P., Cheung, M., Chou, C., Drake, J. F., Duncan, D. W., Freeland, S., Heyman, G. F., Hoffman, C., Hurlburt, N. E., Lindgren, R. W., Mathur, D., Rehse, R., Sabolish, D., Seguin, R., Schrijver, C. J., Tarbell, T. D., Wülser, J.-P., Wolfson, C. J., Yanari, C., Mudge, J., Nguyen-Phuc, N., Timmons, R., van Bezooijen, R., Weingrod, I., Brookner, R., Butcher, G., Dougherty, B., Eder, J., Knagenhjelm, V., Larsen, S., Mansir, D., Phan, L., Boyle, P., Cheimets, P. N., DeLuca, E. E., Golub, L., Gates, R., Hertz, E., McKillop, S., Park, S., Perry, T., Podgorski, W. A., Reeves, K., Saar, S., Testa, P., Tian, H., Weber, M., Dunn, C., Eccles, S., Jaeggli, S. A., Kankelborg, C. C., Mashburn, K., Pust, N., Springer, L., Carvalho, R., Kleint, L., Marmie, J., Mazmanian, E., Pereira, T. M. D., Sawyer, S., Strong, J., Worden, S. P., Carlsson, M., Hansteen, V. H., Leenaarts, J., Wiesmann, M., Aloise, J., Chu, K.-C., Bush, R. I., Scherrer, P. H., Brekke, P., Martinez-Sykora, J., Lites, B. W., McIntosh, S. W., Uitenbroek, H., Okamoto, T. J., Gummin, M. A., Auker, G., Jerram, P., Pool, P. & Waltham, N., Solar Physics, 289, 2733
4. Numerical Simulations of Active Region Scale Flux Emergence: From Spot Formation to Decay [142]
   Rempel, M. & Cheung, M. C. M., ApJ, 785, 90
5. High-resolution Observations of the Shock Wave Behavior for Sunspot Oscillations with the Interface Region Imaging Spectrograph [117]
   Tian, H., DeLuca, E., Reeves, K. K., McKillop, S., De Pontieu, B., Martínez-Sykora, J., Carlsson, M., Hansteen, V., Kleint, L., Cheung, M., Golub, L., Saar, S., Testa, P., Weber, M., Lemen, J., Title, A., Boerner, P., Hurlburt, N., Tarbell, T. D., Wuelser, J. P., Kankelborg, C., Jaeggli, S. & McIntosh, S. W., ApJ, 786, 137

2013

1. The Location of Non-thermal Velocity in the Early Phases of Large Flares—Revealing Pre-eruption Flux Ropes [38]
   Harra, Louise K., Matthews, Sarah, Culhane, J. L., Cheung, Mark C. M., Kontar, Eduard P. & Hara, Hirohisa, ApJ, 774, 122

2012

1. A Method for Data-driven Simulations of Evolving Solar Active Regions [154]
   Cheung, Mark C. M. & DeRosa, Marc L., ApJ, 757, 147
2. Magnetohydrodynamics of the Weakly Ionized Solar Photosphere [56]
   Cheung, Mark C. M. & Cameron, Robert H., ApJ, 750, 6
3. Heliophysics Event Knowledgebase for the Solar Dynamics Observatory (SDO) and Beyond [123]
   Hurlburt, N., Cheung, M., Schrijver, C., Chang, L., Freeland, S., Green, S., Heck, C., Jaffey, A., Kobashi, A., Schiff, D., Serafin, J., Seguin, R., Slater, G., Somani, A. & Timmons, R., Solar Physics, 275, 67
4. How the inclination of Earth's orbit affects incoming solar irradiance [23]
   Vieira, L. E. A., Norton, A., Dudok de Wit, T., Kretzschmar, M., Schmidt, G. A. & Cheung, M. C. M., Geophysical Research Letters, 39, L16104

2010

1. Simulation of the Formation of a Solar Active Region [263]
   Cheung, M. C. M., Rempel, M., Title, A. M. & Schüssler, M., ApJ, 720, 233

2009

1. A Critical Assessment of Nonlinear Force-Free Field Modeling of the Solar Corona for Active Region 10953 [345]
   De Rosa, Marc L., Schrijver, Carolus J., Barnes, Graham, Leka, K. D., Lites, Bruce W., Aschwanden, Markus J., Amari, Tahar, Canou, Aurélien, McTiernan, James M., Régnier, Stéphane, Thalmann, Julia K., Valori, Gherardo, Wheatland, Michael S., Wiegelmann, Thomas, Cheung, Mark C. M., Conlon, Paul A., Fuhrmann, Marcel, Inhester, Bernd & Tadesse, Tilaye, ApJ, 696, 1780
2. Simulation of a flux emergence event and comparison with observations by Hinode [15]
   Yelles Chaouche, L., Cheung, M. C. M., Solanki, S. K., Schüssler, M. & Lagg, A., A&A, 507, L53

2008

1. Solar Surface Emerging Flux Regions: A Comparative Study of Radiative MHD Modeling and Hinode SOT Observations [177]
   Cheung, M. C. M., Schüssler, M., Tarbell, T. D. & Title, A. M., ApJ, 687, 1373

2007

1. Magnetic flux emergence in granular convection: radiative MHD simulations and observational signatures [161]
   Cheung, M. C. M., Schüssler, M. & Moreno-Insertis, F., A&A, 467, 703
2. The origin of the reversed granulation in the solar photosphere [78]
   Cheung, M. C. M., Schüssler, M. & Moreno-Insertis, F., A&A, 461, 1163

2006

1. Moving magnetic tubes: fragmentation, vortex streets and the limit of the approximation of thin flux tubes [29]
   Cheung, M. C. M., Moreno-Insertis, F. & Schüssler, M., A&A, 451, 303

2004

1. Supernova remnant G292.2-0.5, its pulsar, and the Galactic magnetic field [53]
   Caswell, J. L., McClure-Griffiths, N. M. & Cheung, M. C. M., MNRAS, 352, 1405