Publications of Matthias Rempel

A list of publications authored or co-authored by Matthias Rempel, 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: 0000-0001-5850-3119

List of publications ordered by citations
Number of papers: 53 (refereed: 53)
No. of citations: 2058
First author papers: 10 (refereed: 10)

2026

1. Measuring the Coronal Magnetic Field with 2D Coronal Seismology: A Forward-modeling Validation [0]
   Yang, Zihao, Rempel, Matthias, Gibson, Sarah & de Toma, Giuliana, ApJS, 283, 3

2025

1. Using the Hanle Effect in Mg II k to Quantify the Open Flux above the Solar Poles [1]
   Hofmann, Ryan A., Afonso Delgado, David, Centeno, Rebecca, Casini, Roberto, Rempel, Matthias & del Pino Alemán, Tanausú, ApJ, 990, 134
2. The Striated Solar Photosphere Observed at 0.″03 Resolution [3]
   Kuridze, David, Wöger, Friedrich, Uitenbroek, Han, Rempel, Matthias, Tritschler, Alexandra, Rimmele, Thomas, Fischer, Catherine & Steiner, Oskar, ApJ, 985, L23
3. Structure and dynamics of the internetwork solar chromosphere: Results of a small-scale dynamo simulation [5]
   Przybylski, D., Cameron, R., Solanki, S. K., Rempel, M., Danilovic, S. & Leenaarts, J., A&A, 703, A148
4. Spectropolarimetric Inversion in Four Dimensions with Deep Learning (SPIn4D). II. A Physics-informed Machine Learning Method for 3D Solar Photosphere Reconstruction [0]
   Yang, Kai E., Sun, Xudong, Tarr, Lucas A., Liu, Jiayi, Sadowski, Peter, Dodds, S. Curt, Rempel, Matthias, Jaeggli, Sarah A., Schad, Thomas A., Cunnyngham, Ian, Glaser, Yannik & Wolniewicz, Linnea, ApJ, 995, 146

2024

1. Observations of Locally Excited Waves in the Low Solar Atmosphere Using the Daniel K. Inouye Solar Telescope [1]
   Bahauddin, Shah Mohammad, Fischer, Catherine E., Rast, Mark P., Milic, Ivan, Woeger, Friedrich, Rempel, Matthias, Keys, Peter H. & Rimmele, Thomas R., ApJ, 971, L1
2. Magnetic Field Evolution of the Solar Active Region 13664 [22]
   Jarolim, Robert, Veronig, Astrid M., Purkhart, Stefan, Zhang, Peijin & Rempel, Matthias, ApJ, 976, L12
3. Advancing Solar Magnetic Field Extrapolations through Multiheight Magnetic Field Measurements [19]
   Jarolim, Robert, Tremblay, Benoit, Rempel, Matthias, Molnar, Momchil, Veronig, Astrid M., Thalmann, Julia K. & Podladchikova, Tatiana, ApJ, 963, L21
4. Magnetic Flux in the Sun Emerges Unaffected by Supergranular-scale Surface Flows [5]
   Mani, Prasad, Hanson, Chris S., Dhanpal, Siddharth, Hanasoge, Shravan, Das, Srijan Bharati & Rempel, Matthias, ApJ, 965, 186
5. Spatial resolution effects on the solar open flux estimates [10]
   Milić, I., Centeno, R., Sun, X., Rempel, M. & de la Cruz Rodríguez, J., A&A, 683, A134
6. Spectropolarimetric Inversion in Four Dimensions with Deep Learning (SPIn4D). I. Overview, Magnetohydrodynamic Modeling, and Stokes Profile Synthesis [7]
   Yang, Kai E., Tarr, Lucas A., Rempel, Matthias, Dodds, S. Curt, Jaeggli, Sarah A., Sadowski, Peter, Schad, Thomas A., Cunnyngham, Ian, Liu, Jiayi, Glaser, Yannik & Sun, Xudong, ApJ, 976, 204
7. Constraints on Acoustic Wave Energy Fluxes and Radiative Losses in the Solar Chromosphere from Non-LTE Inversions [5]
   da Silva Santos, J. M., Molnar, M., Milić, I., Rempel, M., Reardon, K. & de la Cruz Rodríguez, J., ApJ, 976, 21

2023

1. Limitations and Biases in the Retrieval of the Polar Magnetic Field. I. The Role of the Magnetic Filling Factor in Milne-Eddington Inversions of Simulated Hinode/SP Data [10]
   Centeno, Rebecca, Milić, Ivan, Rempel, Matthias, Nitta, Nariaki V. & Sun, Xudong, ApJ, 951, 23
2. Data-driven Radiative Magnetohydrodynamics Simulations with the MURaM Code [17]
   Chen, Feng, Cheung, Mark C. M., Rempel, Matthias & Chintzoglou, Georgios, ApJ, 949, 118
3. Eruption of a Magnetic Flux Rope in a Comprehensive Radiative Magnetohydrodynamic Simulation of Flare-productive Active Regions [17]
   Chen, Feng, Rempel, Matthias & Fan, Yuhong, ApJ, 950, L3
4. Rapid blue- and redshifted excursions in Hα line profiles synthesized from realistic 3D magnetohydrodynamic simulations [4]
   Danilovic, S., Bjørgen, J. P., Leenaarts, J. & Rempel, M., A&A, 670, A50
5. Comprehensive Radiative MHD Simulations of Eruptive Flares above Collisional Polarity Inversion Lines [23]
   Rempel, Matthias, Chintzoglou, Georgios, Cheung, Mark C. M., Fan, Yuhong & Kleint, Lucia, ApJ, 955, 105
6. Small-Scale Dynamos: From Idealized Models to Solar and Stellar Applications [32]
   Rempel, Matthias, Bhatia, Tanayveer, Bellot Rubio, Luis & Korpi-Lagg, Maarit J., Space Science Reviews, 219, 36
7. Small-scale loops heated to transition region temperatures and their chromospheric signatures in the simulated solar atmosphere [10]
   Skan, M., Danilovic, S., Leenaarts, J., Calvo, F. & Rempel, M., A&A, 672, A47
8. Quantifying Poynting Flux in the Quiet Sun Photosphere [10]
   Tilipman, Dennis, Kazachenko, Maria, Tremblay, Benoit, Milić, Ivan, Martínez Pillet, Valentin & Rempel, Matthias, ApJ, 956, 83

2022

1. Effects of Spectral Resolution on Simple Magnetic Field Diagnostics of the Mg II H and K Lines [6]
   Centeno, Rebecca, Rempel, Matthias, Casini, Roberto & del Pino Alemán, Tanausú, ApJ, 936, 115
2. Convolutional Neural Networks and Stokes Response Functions [7]
   Centeno, Rebecca, Flyer, Natasha, Mukherjee, Lipi, Egeland, Ricky, Casini, Roberto, del Pino Alemán, Tanausú & Rempel, Matthias, ApJ, 925, 176
3. A Comprehensive Radiative Magnetohydrodynamics Simulation of Active Region Scale Flux Emergence from the Convection Zone to the Corona [41]
   Chen, Feng, Rempel, Matthias & Fan, Yuhong, ApJ, 937, 91
4. Probing the Physics of the Solar Atmosphere with the Multi-slit Solar Explorer (MUSE). II. Flares and Eruptions [53]
   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
5. Probing the Physics of the Solar Atmosphere with the Multi-slit Solar Explorer (MUSE). I. Coronal Heating [71]
   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
6. The Coronal Veil [43]
   Malanushenko, A., Cheung, M. C. M., DeForest, C. E., Klimchuk, J. A. & Rempel, M., ApJ, 927, 1
7. Heating of the solar chromosphere through current dissipation [22]
   da Silva Santos, J. M., Danilovic, S., Leenaarts, J., de la Cruz Rodríguez, J., Zhu, X., White, S. M., Vissers, G. J. M. & Rempel, M., A&A, 661, A59

2021

1. Measuring the Magnetic Origins of Solar Flares, Coronal Mass Ejections, and Space Weather [22]
   Judge, Philip, Rempel, Matthias, Ezzeddine, Rana, Kleint, Lucia, Egeland, Ricky, Berdyugina, Svetlana V., Berger, Thomas, Bryans, Paul, Burkepile, Joan, Centeno, Rebecca, de Toma, Giuliana, Dikpati, Mausumi, Fan, Yuhong, Gilbert, Holly & Lacatus, Daniela A., ApJ, 917, 27
2. Critical Science Plan for the Daniel K. Inouye Solar Telescope (DKIST) [94]
   Rast, Mark P., Bello González, Nazaret, Bellot Rubio, Luis, Cao, Wenda, Cauzzi, Gianna, Deluca, Edward, de Pontieu, Bart, Fletcher, Lyndsay, Gibson, Sarah E., Judge, Philip G., Katsukawa, Yukio, Kazachenko, Maria D., Khomenko, Elena, Landi, Enrico, Martínez Pillet, Valentín, Petrie, Gordon J. D., Qiu, Jiong, Rachmeler, Laurel A., Rempel, Matthias, Schmidt, Wolfgang, Scullion, Eamon, Sun, Xudong, Welsch, Brian T., Andretta, Vincenzo, Antolin, Patrick, Ayres, Thomas R., Balasubramaniam, K. S., Ballai, Istvan, Berger, Thomas E., Bradshaw, Stephen J., Campbell, Ryan J., Carlsson, Mats, Casini, Roberto, Centeno, Rebecca, Cranmer, Steven R., Criscuoli, Serena, Deforest, Craig, Deng, Yuanyong, Erdélyi, Robertus, Fedun, Viktor, Fischer, Catherine E., González Manrique, Sergio J., Hahn, Michael, Harra, Louise, Henriques, Vasco M. J., Hurlburt, Neal E., Jaeggli, Sarah, Jafarzadeh, Shahin, Jain, Rekha, Jefferies, Stuart M., Keys, Peter H., Kowalski, Adam F., Kuckein, Christoph, Kuhn, Jeffrey R., Kuridze, David, Liu, Jiajia, Liu, Wei, Longcope, Dana, Mathioudakis, Mihalis, McAteer, R. T. James, McIntosh, Scott W., McKenzie, David E., Miralles, Mari Paz, Morton, Richard J., Muglach, Karin, Nelson, Chris J., Panesar, Navdeep K., Parenti, Susanna, Parnell, Clare E., Poduval, Bala, Reardon, Kevin P., Reep, Jeffrey W., Schad, Thomas A., Schmit, Donald, Sharma, Rahul, Socas-Navarro, Hector, Srivastava, Abhishek K., Sterling, Alphonse C., Suematsu, Yoshinori, Tarr, Lucas A., Tiwari, Sanjiv, Tritschler, Alexandra, Verth, Gary, Vourlidas, Angelos, Wang, Haimin, Wang, Yi-Ming, NSO and DKIST Project, DKIST Instrument Scientists, DKIST Science Working Group & DKIST Critical Science Plan Community, Solar Physics, 296, 70
3. Efficient Numerical Treatment of Ambipolar and Hall Drift as Hyperbolic System [7]
   Rempel, M. & Przybylski, D., ApJ, 923, 79
4. Characterization of magneto-convection in sunspots. The Gough-Tayler stability criterion in MURaM sunspot simulations [12]
   Schmassmann, M., Rempel, M., Bello González, N., Schlichenmaier, R. & Jurčák, J., A&A, 656, A92

2020

1. Comparing Radiative Transfer Codes and Opacity Samplings for Solar Irradiance Reconstructions [15]
   Criscuoli, Serena, Rempel, Matthias, Haberreiter, Margit, Pereira, Tiago M. D., Uitenbroek, Han & Fabbian, Damian, Solar Physics, 295, 50
2. Using the Butterfly Effect to Probe How the Sun Generates Acoustic Noise [2]
   Lindsey, Charles & Rempel, Matthias, Solar Physics, 295, 26
3. On the Contribution of Quiet-Sun Magnetism to Solar Irradiance Variations: Constraints on Quiet-Sun Variability and Grand-minimum Scenarios [20]
   Rempel, M., ApJ, 894, 140
4. The Dimmest State of the Sun [30]
   Yeo, K. L., Solanki, S. K., Krivova, N. A., Rempel, M., Anusha, L. S., Shapiro, A. I., Tagirov, R. V. & Witzke, V., Geophysical Research Letters, 47, e90243

2019

1. Reversed Dynamo at Small Scales and Large Magnetic Prandtl Number [29]
   Brandenburg, Axel & Rempel, Matthias, ApJ, 879, 57
2. A comprehensive three-dimensional radiative magnetohydrodynamic simulation of a solar flare [136]
   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. What the Sudden Death of Solar Cycles Can Tell Us About the Nature of the Solar Interior [43]
   McIntosh, Scott W., Leamon, Robert J., Egeland, Ricky, Dikpati, Mausumi, Fan, Yuhong & Rempel, Matthias, Solar Physics, 294, 88
4. The Solar Photospheric Continuum Brightness as a Function of Mean Magnetic Flux Density. I. The Role of the Magnetic Structure Size Distribution [5]
   Peck, C. L., Rast, M. P., Criscuoli, S. & Rempel, M., ApJ, 870, 89
5. Superstrong photospheric magnetic fields in sunspot penumbrae [16]
   Siu-Tapia, A., Lagg, A., van Noort, M., Rempel, M. & Solanki, S. K., A&A, 631, A99

2018

1. Transport of Internetwork Magnetic Flux Elements in the Solar Photosphere [10]
   Agrawal, Piyush, Rast, Mark P., Gošić, Milan, Bellot Rubio, Luis R. & Rempel, Matthias, ApJ, 854, 118
2. Small-scale Dynamo Simulations: Magnetic Field Amplification in Exploding Granules and the Role of Deep and Shallow Recirculation [43]
   Rempel, M., ApJ, 859, 161
3. Evershed and Counter-Evershed Flows in Sunspot MHD Simulations [20]
   Siu-Tapia, A. L., Rempel, M., Lagg, A. & Solanki, S. K., ApJ, 852, 66

2017

1. Emergence of Magnetic Flux Generated in a Solar Convective Dynamo. I. The Formation of Sunspots and Active Regions, and The Origin of Their Asymmetries [78]
   Chen, Feng, Rempel, Matthias & Fan, Yuhong, ApJ, 846, 149
2. The Nature of Grand Minima and Maxima from Fully Nonlinear Flux Transport Dynamos [21]
   Inceoglu, Fadil, Arlt, Rainer & Rempel, Matthias, ApJ, 848, 93
3. Are Internetwork Magnetic Fields in the Solar Photosphere Horizontal or Vertical? [20]
   Lites, B. W., Rempel, M., Borrero, J. M. & Danilovic, S., ApJ, 835, 14
4. Extension of the MURaM Radiative MHD Code for Coronal Simulations [217]
   Rempel, M., ApJ, 834, 10

2016

1. A low upper limit on the subsurface rise speed of solar active regions [40]
   Birch, A. C., Schunker, H., Braun, D. C., Cameron, R., Gizon, L., Lo ptien, B. & Rempel, M., Science Advances, 2, e1600557

2015

1. Efficient Small-scale Dynamo in the Solar Convection Zone [60]
   Hotta, H., Rempel, M. & Yokoyama, T., ApJ, 803, 42
2. Numerical Simulations of Sunspot Decay: On the Penumbra-Evershed Flow-Moat Flow Connection [60]
   Rempel, M., ApJ, 814, 125

2014

1. Numerical Simulations of Quiet Sun Magnetism: On the Contribution from a Small-scale Dynamo [280]
   Rempel, M., ApJ, 789, 132

2012

1. Numerical Sunspot Models: Robustness of Photospheric Velocity and Magnetic Field Structure [148]
   Rempel, M., ApJ, 750, 62

2009

1. Penumbral Structure and Outflows in Simulated Sunspots [186]
   Rempel, M., Schüssler, M., Cameron, R. H. & Knölker, M., Science, 325, 171