Publications of Rony Keppens

A list of publications authored or co-authored by Rony Keppens, 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: 0000-0003-3544-2733

List of publications ordered by citations
Number of papers: 326 (refereed: 263)
No. of citations: 8968
First author papers: 54 (refereed: 41)

2026

1. Data-constrained Magnetohydrodynamic Simulation of the Global Solar Corona Including Solar Wind Effects within 2.5 R_⊙ [0]
   Li, Yihua, Chen, Guoyin, Guo, Jinhan, Guo, Yang, Wu, Hao, Huang, Yuhao, Cheng, Xin, Ding, M. D. & Keppens, Rony, ApJ, 997, 228
2. Non-thermal electron acceleration in turbulent, post-flare coronal loops [0]
   Mora, C., Bacchini, F. & Keppens, R., A&A, 706, A32

2025

1. Icarus 3.0: Dynamic heliosphere modelling [8]
   Baratashvili, T., Popescu Braileanu, B., Bacchini, F., Keppens, R. & Poedts, S., A&A, 694, A306
2. A visual approach to global accretion disc instabilities [1]
   Brughmans, Nicolas & Keppens, Rony, MNRAS, 542, 1347
3. Secondary small-scale dynamics of a Rayleigh-Taylor unstable solar prominence [0]
   Changmai, M., Jenkins, J. M. & Keppens, R., A&A, 704, A347
4. Forming Prominences Accounting for Partial Ionization Effects [4]
   Jerčić, V., Popescu Braileanu, B. & Keppens, R., ApJ, 986, 134
5. Modeling multiphase plasma in the corona: prominences and rain [4]
   Keppens, Rony, Zhou, Yuhao & Xia, Chun, Living Reviews in Solar Physics, 22, 4
6. The Hydrodynamic Thermal Continuum, with Applications to Stratified Atmospheres and 1D Coronal Loop Models [2]
   Keppens, Rony, De Jonghe, Jordi, Kelly, Adrian, Brughmans, Nicolas & Goedbloed, Hans, ApJ, 989, 51
7. Estimating uncertainties in the back-mapping of the fast solar wind [9]
   Koukras, A., Dolla, L. & Keppens, R., A&A, 694, A134
8. Response of the solar atmosphere to flux emergence: With emergence-driven prominence formation [5]
   Li, Xiaohong, Zhou, Yuhao & Keppens, Rony, A&A, 698, A232
9. Data-constrained Magnetohydrodynamic Simulation of a Filament Eruption in the Decaying Active Region 13079 on a Global Scale [1]
   Li, Yihua, Guo, Yang, Guo, Jinhan, Ding, M. D., Xia, Chun & Keppens, Rony, ApJ, 985, 138
10. Numerical study of solar eruption, extreme-ultraviolet wave propagation, and wave-induced prominence dynamics [7]
    Liakh, V. & Keppens, R., A&A, 696, A158
11. An efficient energy conserving semi-Lagrangian kinetic scheme for the Vlasov-Maxwell system [1]
    Liu, Hongtao, Lu, Chang, Xia, Guangqing, Keppens, Rony & Lapenta, Giovanni, Journal of Computational Physics, 529, 113858
12. Toward applications of the BxC toolkit [0]
    Maci, D., Keppens, R. & Bacchini, F., Journal of Physics Conference Series, Journal of Physics Conference Series, 2997, p. 012003
13. Radiation-magnetohydrodynamics with MPI-AMRVAC using flux-limited diffusion [3]
    Narechania, N., Keppens, R., ud-Doula, A., Moens, N. & Sundqvist, J., A&A, 696, A131
14. Coronal rain formation in a two-fluid approximation [2]
    Popescu Braileanu, B. & Keppens, R., A&A, 698, A189
15. Spontaneous Evolution From Electron-Only to Standard Reconnection in a Force-Free Current Sheet [0]
    Ren, Jincai, Lu, San & Keppens, Rony, Journal of Geophysical Research (Space Physics), 130, e2025JA034322
16. Particle Acceleration and Transport in the Large-scale Current Sheet under an Erupting Magnetic Flux Rope [3]
    Wu, H., Guo, Y., Keppens, R., Xia, C., Su, Y., Kong, X. L. & Ding, M. D., ApJ, 992, 81
17. Frozen-field Modeling of Coronal Condensations with MPI-AMRVAC. II. Optimization and Application in 3D Models [5]
    Zhou, Yuhao, Li, Xiaohong, Jenkins, Jack M., Hong, Jie & Keppens, Rony, ApJ, 978, 72
18. Suppression of photospheric velocity fluctuations in strongly magnetic O stars in radiation-magnetohydrodynamic simulations [2]
    ud-Doula, A., Sundqvist, J. O., Narechania, N., Debnath, D., Moens, N. & Keppens, R., A&A, 693, A224

2024

1. Particle trapping and acceleration in turbulent post-flare coronal loops [7]
   Bacchini, Fabio, Ruan, Wenzhi & Keppens, Rony, MNRAS, 529, 2399
2. Parametric Survey of Nonaxisymmetric Accretion Disk Instabilities: Magnetorotational Instability to Super-Alfvénic Rotational Instability [6]
   Brughmans, Nicolas, Keppens, Rony & Goedbloed, Hans, ApJ, 968, 19
3. Modification of the resistive tearing instability with Joule heating by shear flow [3]
   De Jonghe, J. & Keppens, R., Physics of Plasmas, 31, 032106
4. Collisional damping of wave modes in ion-electron plasmas [1]
   De Vadder, J., De Jonghe, J. & Keppens, R., Journal of Plasma Physics, 90, 905900410
5. Mass Cycle and Dynamics of a Virtual Quiescent Prominence [18]
   Donné, D. & Keppens, R., ApJ, 971, 90
6. Exploring self-consistent 2.5D flare simulations with MPI-AMRVAC [19]
   Druett, Malcolm, Ruan, Wenzhi & Keppens, Rony, A&A, 684, A171
7. Magnetic flux rope models and data-driven magnetohydrodynamic simulations of solar eruptions [16]
   Guo, Yang, Guo, Jinhan, Ni, Yiwei, Xia, Chun, Zhong, Ze, Ding, Mingde, Chen, Pengfei & Keppens, Rony, Reviews of Modern Plasma Physics, 8, 29
8. A spectroscopic investigation of thermal instability for cylindrical equilibria with background flow [6]
   Hermans, J. & Keppens, R., A&A, 686, A180
9. The Bright Rim Prominences according to 2.5D Radiative Transfer [5]
   Jenkins, Jack M., Osborne, Christopher M. J., Qiu, Ye, Keppens, Rony & Li, Chuan, ApJ, 964, L34
10. Prominence and coronal rain formation by steady versus stochastic heating and how we can relate it to observations [17]
    Jerčić, V., Jenkins, J. M. & Keppens, R., A&A, 688, A145
11. Toroidal Miller-Turner and Soloviev coronal mass ejection models in EUHFORIA. I. Implementation [9]
    Linan, L., Maharana, A., Poedts, S., Schmieder, B. & Keppens, R., A&A, 681, A103
12. BxC Toolkit: Generating Tailored Turbulent 3D Magnetic Fields [7]
    Maci, Daniela, Keppens, Rony & Bacchini, Fabio, ApJS, 273, 11
13. Spectral characteristics of a rotating solar prominence in multiple wavelengths [3]
    Pietrow, A. G. M., Liakh, V., Osborne, C. M. J., Jenkins, J. & Keppens, R., A&A, 690, L15
14. Radiative loss and ion-neutral collisional effects in astrophysical plasmas [4]
    Popescu Braileanu, Beatrice & Keppens, Rony, Philosophical Transactions of the Royal Society of London Series A, 382, 20230217
15. The Lorentz Force at Work: Multiphase Magnetohydrodynamics throughout a Flare Lifespan [9]
    Ruan, Wenzhi, Keppens, Rony, Yan, Limei & Antolin, Patrick, ApJ, 967, 82
16. From eruption to post-flare rain: A 2.5D MHD model [6]
    Sen, Samrat, Prasad, Avijeet, Liakh, Valeriia & Keppens, Rony, A&A, 688, A64
17. Wave transformations near a coronal magnetic null point [1]
    Yadav, N. & Keppens, Rony, A&A, 681, A43
18. Rotation and Confined Eruption of a Double Flux-rope System [9]
    Zhang, X. M., Guo, J. H., Guo, Y., Ding, M. D. & Keppens, Rony, ApJ, 961, 145
19. Resolved magnetohydrodynamic wave lensing in the solar corona [23]
    Zhou, Xinping, Shen, Yuandeng, Yuan, Ding, Keppens, Rony, Zhao, Xiaozhou, Fu, Libo, Tang, Zehao, Wang, Jiaoyang & Zhou, Chengrui, Nature Communications, 15, 3281
20. Frozen-field Modeling of Coronal Condensations with MPI-AMRVAC. I. Demonstration in Two-dimensional Models [2]
    Zhou, Yuhao, Li, Xiaohong & Keppens, Rony, ApJ, 968, 123

2023

1. Exploring the effects of numerical methods and slope limiters in heliospheric modeling [5]
   Baratashvili, Tinatin, Verbeke, Christine, Keppens, Rony & Poedts, Stefaan, Sun and Geosphere, 15, 49
2. Simulating Rayleigh-Taylor induced magnetohydrodynamic turbulence in prominences [8]
   Changmai, M., Jenkins, J. M., Durrive, J. B. & Keppens, R., A&A, 672, A152
3. Legolas 2.0: Improvements and extensions to an MHD spectroscopic framework [6]
   Claes, Niels & Keppens, Rony, Computer Physics Communications, 291, 108856
4. Chromospheric Evaporation by Particle Beams in Multi-Dimensional Flare Models [11]
   Druett, Malcolm Keith, Ruan, Wenzhi & Keppens, Rony, Solar Physics, 298, 134
5. Leaky modes in coronal magnetic flux tubes revisited [1]
   Goedbloed, Hans, Keppens, Rony & Poedts, Stefaan, Journal of Plasma Physics, 89, 905890520
6. Data-constrained Magnetohydrodynamic Simulation of an Intermediate Solar Filament Eruption [8]
   Guo, Yang, Guo, Jinhan, Ni, Yiwei, Ding, M. D., Chen, P. F., Xia, Chun, Keppens, Rony & Yang, Kai E., ApJ, 958, 25
7. 1.5D non-LTE spectral synthesis of a 3D filament and prominence simulation [19]
   Jenkins, J. M., Osborne, C. M. J. & Keppens, R., A&A, 670, A179
8. Dynamic formation of multi-threaded prominences in arcade configurations [19]
   Jerčić, V. & Keppens, R., A&A, 670, A64
9. Modelling the magnetic structure of a large-scale horse-shoe-like filament in a decaying and diffuse active region [7]
   Kang, Kaifeng, Guo, Yang, Roussev, Ilia I., Keppens, Rony & Lin, Jun, MNRAS, 518, 388
10. MPI-AMRVAC 3.0: Updates to an open-source simulation framework [105]
    Keppens, R., Popescu Braileanu, B., Zhou, Y., Ruan, W., Xia, C., Guo, Y., Claes, N. & Bacchini, F., A&A, 673, A66
11. Multithermal Jet Formation Triggered by Flux Emergence [16]
    Li, Xiaohong, Keppens, Rony & Zhou, Yuhao, ApJ, 947, L17
12. Rotational Flows in Solar Coronal Flux Rope Cavities [11]
    Liakh, Valeriia & Keppens, Rony, ApJ, 953, L13
13. Two-fluid reconnection jets in a gravitationally stratified atmosphere [9]
    Popescu Braileanu, B. & Keppens, R., A&A, 678, A66
14. Magnetohydrodynamic Turbulence Formation in Solar Flares: 3D Simulation and Synthetic Observations [28]
    Ruan, W., Yan, L. & Keppens, R., ApJ, 947, 67
15. Effective Resistivity in Relativistic Collisionless Reconnection [23]
    Selvi, S., Porth, O., Ripperda, B., Bacchini, F., Sironi, L. & Keppens, R., ApJ, 950, 169
16. 3D coupled tearing-thermal evolution in solar current sheets [10]
    Sen, Samrat, Jenkins, Jack & Keppens, Rony, A&A, 678, A132
17. Winking filaments due to cyclic evaporation-condensation [12]
    Zhou, Yuhao, Li, Xiaohong, Hong, Jie & Keppens, Rony, A&A, 675, A31

2022

1. Two-fluid implementation in MPI-AMRVAC with applications to the solar chromosphere [10]
   Braileanu, B. Popescu & Keppens, R., A&A, 664, A55
2. The influence of flux rope heating models on solar prominence formation [27]
   Brughmans, N., Jenkins, J. M. & Keppens, R., A&A, 668, A47
3. Legolas: magnetohydrodynamic spectroscopy with viscosity and Hall current [7]
   De Jonghe, J., Claes, N. & Keppens, R., Journal of Plasma Physics, 88, 905880321
4. BxC: a swift generator for 3D magnetohydrodynamic turbulence [0]
   Durrive, J. -B., Changmai, M., Keppens, R., Lesaffre, P., Maci, D. & Momferatos, G., arXiv:2207.03373
5. Swift generator for three-dimensional magnetohydrodynamic turbulence [11]
   Durrive, Jean-Baptiste, Changmai, Madhurjya, Keppens, Rony, Lesaffre, Pierre, Maci, Daniela & Momferatos, Georgios, Physical Review E, 106, 025307
6. Morpho-kinematics around cool evolved stars Unveiling the underlying companion [0]
   El Mellah, I., Bolte, J., Decin, L., Homan, W. & Keppens, R., The Origin of Outflows in Evolved Stars (Editors: Decin, Leen, Zijlstra, Albert & Gielen, Clio), IAU Symposium, 366, p. 240
7. The Super-Alfvénic Rotational Instability in Accretion Disks about Black Holes [14]
   Goedbloed, Hans & Keppens, Rony, ApJS, 259, 65
8. Resolving the solar prominence/filament paradox using the magnetic Rayleigh-Taylor instability [50]
   Jenkins, Jack M. & Keppens, Rony, Nature Astronomy, 6, 942
9. Multi-threaded prominence oscillations triggered by a coronal shock wave [9]
   Jerčić, V., Keppens, R. & Zhou, Y., A&A, 658, A58
10. Coronal Rain in Randomly Heated Arcades [44]
    Li, Xiaohong, Keppens, Rony & Zhou, Yuhao, ApJ, 926, 216
11. Radiation-hydrodynamics with MPI-AMRVAC . Flux-limited diffusion [27]
    Moens, N., Sundqvist, J. O., El Mellah, I., Poniatowski, L., Teunissen, J. & Keppens, R., A&A, 657, A81
12. Thermally enhanced tearing in solar current sheets: Explosive reconnection with plasmoid-trapped condensations [21]
    Sen, Samrat & Keppens, Rony, A&A, 666, A28
13. 3D MHD wave propagation near a coronal null point: New wave mode decomposition approach [21]
    Yadav, N., Keppens, R. & Popescu Braileanu, B., A&A, 660, A21
14. Plasmoid-fed Prominence Formation (PF²) During Flux Rope Eruption [14]
    Zhao, Xiaozhou & Keppens, Rony, ApJ, 928, 45

2021

1. Magnetohydrodynamic Spectroscopy of a Non-adiabatic Solar Atmosphere [12]
   Claes, Niels & Keppens, Rony, Solar Physics, 296, 143
2. Two Fluid Treatment of Whistling Behavior and the Warm Appleton Hartree Extension [3]
   De Jonghe, J. & Keppens, R., Journal of Geophysical Research (Space Physics), 126, e28953
3. An MHD spectral theory approach to Jeans' magnetized gravitational instability [3]
   Durrive, Jean-Baptiste, Keppens, Rony & Langer, Mathieu, MNRAS, 506, 2336
4. Data-constrained Magnetohydrodynamic Simulation of a Long-duration Eruptive Flare [31]
   Guo, Yang, Zhong, Ze, Ding, M. D., Chen, P. F., Xia, Chun & Keppens, Rony, ApJ, 919, 39
5. Effect of optically thin cooling curves on condensation formation: Case study using thermal instability [41]
   Hermans, J. & Keppens, R., A&A, 655, A36
6. Prominence formation by levitation-condensation at extreme resolutions [45]
   Jenkins, J. M. & Keppens, R., A&A, 646, A134
7. Effects of ambipolar diffusion on waves in the solar chromosphere [21]
   Popescu Braileanu, B. & Keppens, R., A&A, 653, A131
8. When Hot Meets Cold: Post-flare Coronal Rain [25]
   Ruan, Wenzhi, Zhou, Yuhao & Keppens, Rony, ApJ, 920, L15
9. Magnetic island merging: Two-dimensional MHD simulation and test-particle modeling [9]
   Zhao, Xiaozhou, Bacchini, Fabio & Keppens, Rony, Physics of Plasmas, 28, 092113
10. Transition region adaptive conduction (TRAC) in multidimensional magnetohydrodynamic simulations [33]
    Zhou, Yu-Hao, Ruan, Wen-Zhi, Xia, Chun & Keppens, Rony, A&A, 648, A29

2020

1. Thermal instabilities: Fragmentation and field misalignment of filament fine structure [42]
   Claes, N., Keppens, R. & Xia, C., A&A, 636, A112
2. Legolas: A Modern Tool for Magnetohydrodynamic Spectroscopy [18]
   Claes, Niels, De Jonghe, Jordi & Keppens, Rony, ApJS, 251, 25
3. A two-fluid analysis of waves in a warm ion-electron plasma [11]
   De Jonghe, J. & Keppens, R., Physics of Plasmas, 27, 122107
4. Wind morphology around cool evolved stars in binaries. The case of slowly accelerating oxygen-rich outflows [45]
   El Mellah, I., Bolte, J., Decin, L., Homan, W. & Keppens, R., A&A, 637, A91
5. Magnetohydrodynamic Nonlinearities in Sunspot Atmospheres: Chromospheric Detections of Intermediate Shocks [29]
   Houston, S. J., Jess, D. B., Keppens, R., Stangalini, M., Keys, P. H., Grant, S. D. T., Jafarzadeh, S., McFetridge, L. M., Murabito, M., Ermolli, I. & Giorgi, F., ApJ, 892, 49
6. MPI-AMRVAC: a parallel, grid-adaptive PDE toolkit [13]
   Keppens, Rony, Teunissen, Jannis, Xia, Chun & Porth, Oliver, arXiv:2004.03275
7. The Triple-layered Leading Edge of Solar Coronal Mass Ejections [9]
   Mei, Z. X., Keppens, R., Cai, Q. W., Ye, J., Li, Y., Xie, X. Y. & Lin, J., ApJ, 898, L21
8. 3D numerical experiment for EUV waves caused by flux rope eruption [21]
   Mei, Z. X., Keppens, R., Cai, Q. W., Ye, J., Xie, X. Y. & Li, Y., MNRAS, 493, 4816
9. Simulations of the W50-SS433 system [0]
   Millas, Dimitrios, Porth, Oliver & Keppens, Rony, Perseus in Sicily: From Black Hole to Cluster Outskirts (Editors: Asada, Keiichi, de Gouveia Dal Pino, Elisabete, Giroletti, Marcello, Nagai, Hiroshi & Nemmen, Rodrigo), IAU Symposium, 342, p. 257
10. A Fully Self-consistent Model for Solar Flares [46]
    Ruan, Wenzhi, Xia, Chun & Keppens, Rony, ApJ, 896, 97
11. Relativistic AGN jets - III. Synthesis of synchrotron emission from double-double radio galaxies [6]
    Walg, S., Achterberg, A., Markoff, S., Keppens, R. & Porth, O., MNRAS, 497, 3638
12. Mesoscale Phenomena during a Macroscopic Solar Eruption [13]
    Zhao, Xiaozhou & Keppens, Rony, ApJ, 898, 90

2019

1. Thermal stability of magnetohydrodynamic modes in homogeneous plasmas [53]
   Claes, N. & Keppens, R., A&A, 624, A96
2. Formation of wind-captured disks in supergiant X-ray binaries. Consequences for Vela X-1 and Cygnus X-1 [58]
   El Mellah, I., Sander, A. A. C., Sundqvist, J. O. & Keppens, R., A&A, 622, A189
3. Wind Roche lobe overflow in high-mass X-ray binaries. A possible mass-transfer mechanism for ultraluminous X-ray sources [65]
   El Mellah, I., Sundqvist, J. O. & Keppens, R., A&A, 622, L3
4. Magnetohydrodynamics of Laboratory and Astrophysical Plasmas [90]
   Goedbloed, Hans, Keppens, Rony & Poedts, Stefaan,
5. The Magnetic Flux Rope Structure of a Triangulated Solar Filament [37]
   Guo, Yang, Xu, Yu, Ding, M. D., Chen, P. F., Xia, Chun & Keppens, Rony, ApJ, 884, L1
6. Solar Magnetic Flux Rope Eruption Simulated by a Data-driven Magnetohydrodynamic Model [58]
   Guo, Yang, Xia, Chun, Keppens, Rony, Ding, M. D. & Chen, P. F., ApJ, 870, L21
7. Ideal MHD instabilities for coronal mass ejections: interacting current channels and particle acceleration [16]
   Keppens, Rony, Guo, Yang, Makwana, Kirit, Mei, Zhixing, Ripperda, Bart, Xia, Chun & Zhao, Xiaozhou, Reviews of Modern Plasma Physics, 3, 14
8. A fresh look at waves in ion-electron plasmas [7]
   Keppens, Rony & Goedbloed, Hans, Frontiers in Astronomy and Space Sciences, 6, 11
9. Waves in a warm pair plasma: a relativistically complete two-fluid analysis [4]
   Keppens, Rony, Goedbloed, Hans & Durrive, Jean-Baptiste, Journal of Plasma Physics, 85, 905850408
10. Wave modes in a cold pair plasma: the complete phase and group diagram point of view [5]
    Keppens, Rony & Goedbloed, Hans, Journal of Plasma Physics, 85, 175850101
11. Particle Orbits at the Magnetopause: Kelvin-Helmholtz Induced Trapping [6]
    Leroy, M. H. J., Ripperda, B. & Keppens, R., Journal of Geophysical Research (Space Physics), 124, 6715
12. Clumpy wind accretion in Supergiant X-ray Binaries [3]
    Mellah, Ileyk El, Sander, Andreas A. C., Sundqvist, Jon O. & Keppens, Rony, High-mass X-ray Binaries: Illuminating the Passage from Massive Binaries to Merging Compact Objects (Editors: Oskinova, Lidia M., Bozzo, Enrico, Bulik, Tomasz & Gies, Douglas R.), IAU Symposium, 346, p. 34
13. Relativistic 3D Hydrodynamic Simulations of the W50-SS433 System [6]
    Millas, Dimitrios, Porth, Oliver & Keppens, Rony, JET Simulations, Experiments, and Theory: Ten Years After JETSET. What Is Next? (Editors: Sauty, Christophe), Astrophysics and Space Science Proceedings, 55, p. 71
14. General-relativistic Resistive Magnetohydrodynamics with Robust Primitive-variable Recovery for Accretion Disk Simulations [89]
    Ripperda, B., Bacchini, F., Porth, O., Most, E. R., Olivares, H., Nathanail, A., Rezzolla, L., Teunissen, J. & Keppens, R., ApJS, 244, 10
15. Relativistic resistive magnetohydrodynamic reconnection and plasmoid formation in merging flux tubes [54]
    Ripperda, B., Porth, O., Sironi, L. & Keppens, R., MNRAS, 485, 299
16. Test particles in relativistic resistive magnetohydrodynamics [4]
    Ripperda, Bart, Porth, Oliver & Keppens, Rony, Journal of Physics Conference Series, Journal of Physics Conference Series, 1225, p. 012018
17. Extreme-ultraviolet and X-Ray Emission of Turbulent Solar Flare Loops [17]
    Ruan, Wenzhi, Xia, Chun & Keppens, Rony, ApJ, 877, L11
18. A geometric multigrid library for quadtree/octree AMR grids coupled to MPI-AMRVAC [14]
    Teunissen, J. & Keppens, R., Computer Physics Communications, 245, 106866
19. Multilayered Kelvin-Helmholtz Instability in the Solar Corona [24]
    Yuan, Ding, Shen, Yuandeng, Liu, Yu, Li, Hongbo, Feng, Xueshang & Keppens, Rony, ApJ, 884, L51
20. Forward Modeling of SDO/AIA and X-Ray Emission from a Simulated Flux Rope Ejection [26]
    Zhao, Xiaozhou, Xia, Chun, Van Doorsselaere, Tom, Keppens, Rony & Gan, Weiqun, ApJ, 872, 190

2018

1. W 50 and SS 433 [10]
   Bowler, Michael G. & Keppens, Rony, A&A, 617, A29
2. Stratosphere circulation on tidally locked ExoEarths [39]
   Carone, L., Keppens, R., Decin, L. & Henning, Th., MNRAS, 473, 4672
3. Accretion from a clumpy massive-star wind in supergiant X-ray binaries [51]
   El Mellah, I., Sundqvist, J. O. & Keppens, R., MNRAS, 475, 3240
4. Two-way coupled MHD-PIC simulations of magnetic reconnection in magnetic island coalescence [6]
   Makwana, Kirit, Keppens, Rony & Lapenta, Giovanni, Journal of Physics Conference Series, Journal of Physics Conference Series, 1031, p. 012019
5. Study of magnetic reconnection in large-scale magnetic island coalescence via spatially coupled MHD and PIC simulations [18]
   Makwana, Kirit D., Keppens, Rony & Lapenta, Giovanni, Physics of Plasmas, 25, 082904
6. Parametric study on kink instabilities of twisted magnetic flux ropes in the solar atmosphere [20]
   Mei, Z. X., Keppens, R., Roussev, I. I. & Lin, J., A&A, 609, A2
7. A Comprehensive Comparison of Relativistic Particle Integrators [81]
   Ripperda, B., Bacchini, F., Teunissen, J., Xia, C., Porth, O., Sironi, L., Lapenta, G. & Keppens, R., ApJS, 235, 21
8. Solar flares and Kelvin-Helmholtz instabilities: A parameter survey [18]
   Ruan, W., Xia, C. & Keppens, R., A&A, 618, A135
9. MPI-AMRVAC 2.0 for Solar and Astrophysical Applications [234]
   Xia, C., Teunissen, J., El Mellah, I., Chané, E. & Keppens, R., ApJS, 234, 30
10. Three-dimensional MHD Simulations of Solar Prominence Oscillations in a Magnetic Flux Rope [61]
    Zhou, Yu-Hao, Xia, C., Keppens, R., Fang, C. & Chen, P. F., ApJ, 856, 179

2017

1. How is the Jovian main auroral emission affected by the solar wind? [37]
   Chané, E., Saur, J., Keppens, R. & Poedts, S., Journal of Geophysical Research (Space Physics), 122, 1960
2. Clumpy wind accretion in Supergiant X-ray Binaries [0]
   El Mellah, I., Sundqvist, J. O. & Keppens, R., SF2A-2017: Proceedings of the Annual meeting of the French Society of Astronomy and Astrophysics (Editors: Reylé, C., Di Matteo, P., Herpin, F., Lagadec, E., Lan\ccon, A., Meliani, Z. & Royer, F.), p. Di
3. On the influence of environmental parameters on mixing and reconnection caused by the Kelvin-Helmholtz instability at the magnetopause [12]
   Leroy, M. H. J. & Keppens, R., Physics of Plasmas, 24, 012906
4. Two-way coupling of magnetohydrodynamic simulations with embedded particle-in-cell simulations [27]
   Makwana, K. D., Keppens, R. & Lapenta, G., Computer Physics Communications, 221, 81
5. Magnetic reconnection during eruptive magnetic flux ropes [43]
   Mei, Z. X., Keppens, R., Roussev, I. I. & Lin, J., A&A, 604, L7
6. Synchrotron Radiation Maps from Relativistic MHD Jet Simulations [0]
   Millas, Dimitrios, Porth, Oliver & Keppens, Rony, Galaxies, 5, 79
7. Rotation and toroidal magnetic field effects on the stability of two-component jets [23]
   Millas, Dimitrios, Keppens, Rony & Meliani, Zakaria, MNRAS, 470, 592
8. Shock-cloud interaction and gas-dust spatial separation [8]
   Monceau-Baroux, Rémi & Keppens, Rony, A&A, 600, A134
9. Interfacing MHD Single Fluid and Kinetic Exospheric Solar Wind Models and Comparing Their Energetics [6]
   Moschou, Sofia-Paraskevi, Pierrard, Viviane, Keppens, Rony & Pomoell, Jens, Solar Physics, 292, 139
10. Reconnection and particle acceleration in interacting flux ropes - I. Magnetohydrodynamics and test particles in 2.5D [41]
    Ripperda, B., Porth, O., Xia, C. & Keppens, R., MNRAS, 467, 3279
11. Reconnection and particle acceleration in interacting flux ropes - II. 3D effects on test particles in magnetically dominated plasmas [37]
    Ripperda, B., Porth, O., Xia, C. & Keppens, R., MNRAS, 471, 3465
12. Coronal rain in magnetic bipolar weak fields [46]
    Xia, C., Keppens, R. & Fang, X., A&A, 603, A42
13. Formation and Initiation of Erupting Flux Rope and Embedded Filament Driven by Photospheric Converging Motion [44]
    Zhao, Xiaozhou, Xia, Chun, Keppens, Rony & Gan, Weiqun, ApJ, 841, 106

2016

1. Connecting the dots - III. Nightside cooling and surface friction affect climates of tidally locked terrestrial planets [29]
   Carone, L., Keppens, R. & Decin, L., MNRAS, 461, 1981
2. Linear stability of ideal MHD configurations. II. Results for stationary equilibrium configurations [7]
   Demaerel, T. & Keppens, R., Physics of Plasmas, 23, 122118
3. The Role of Kelvin-Helmholtz Instability for Producing Loop-top Hard X-Ray Sources in Solar Flares [34]
   Fang, Xia, Yuan, Ding, Xia, Chun, Van Doorsselaere, Tom & Keppens, Rony, ApJ, 833, 36
4. Magneto-frictional Modeling of Coronal Nonlinear Force-free Fields. II. Application to Observations [58]
   Guo, Y., Xia, C. & Keppens, R., ApJ, 828, 83
5. Magneto-frictional Modeling of Coronal Nonlinear Force-free Fields. I. Testing with Analytic Solutions [68]
   Guo, Y., Xia, C., Keppens, R. & Valori, G., ApJ, 828, 82
6. Pinwheels in the sky, with dust: 3D modelling of the Wolf-Rayet 98a environment [35]
   Hendrix, Tom, Keppens, Rony, van Marle, Allard Jan, Camps, Peter, Baes, Maarten & Meliani, Zakaria, MNRAS, 460, 3975
7. Stability of ideal MHD configurations. I. Realizing the generality of the G operator [12]
   Keppens, R. & Demaerel, T., Physics of Plasmas, 23, 122117
8. Synthetic Radio Views of Simulated Solar Flux Ropes [3]
   Kuznetsov, A. A., Keppens, R. & Xia, C., Solar Physics, 291, 823
9. Hall-MHD simulations of the Kelvin-Helmholtz instability at the solar wind/magnetosphere interface [0]
   Leroy, M. H. J. & Keppens, R., SF2A-2016: Proceedings of the Annual meeting of the French Society of Astronomy and Astrophysics (Editors: Reylé, C., Richard, J., Cambrésy, L., Deleuil, M., Pécontal, E., Tresse, L. & Vauglin, I.), p. 107
10. Dust grain coagulation modelling : From discrete to continuous [8]
    Paruta, P., Hendrix, T. & Keppens, R., Astronomy and Computing, 16, 155
11. Internal Dynamics of a Twin-layer Solar Prominence [29]
    Xia, C. & Keppens, R., ApJ, 825, L29
12. Formation and Plasma Circulation of Solar Prominences [119]
    Xia, C. & Keppens, R., ApJ, 823, 22

2015

1. Connecting the dots - II. Phase changes in the climate dynamics of tidally locked terrestrial exoplanets [60]
   Carone, L., Keppens, R. & Decin, L., MNRAS, 453, 2412
2. Modeling of Reflective Propagating Slow-mode Wave in a Flaring Loop [38]
   Fang, X., Yuan, D., Van Doorsselaere, T., Keppens, R. & Xia, C., ApJ, 813, 33
3. Coronal Rain in Magnetic Arcades: Rebound Shocks, Limit Cycles, and Shear Flows [60]
   Fang, X., Xia, C., Keppens, R. & Van Doorsselaere, T., ApJ, 807, 142
4. Modelling colliding wind binaries in 2D [1]
   Hendrix, T. & Keppens, R., Wolf-Rayet Stars (Editors: Hamann, Wolf-Rainer, Sander, Andreas & Todt, Helge), p. 279
5. Modelling ripples in Orion with coupled dust dynamics and radiative transfer [18]
   Hendrix, T., Keppens, R. & Camps, P., A&A, 575, A110
6. Solar Prominences: "Double, Double... Boil and Bubble" [41]
   Keppens, R., Xia, C. & Porth, O., ApJ, 806, L13
7. The SS433 jet from subparsec to parsec scales [29]
   Monceau-Baroux, Rémi, Porth, Oliver, Meliani, Zakaria & Keppens, Rony, A&A, 574, A143
8. Simulating coronal condensation dynamics in 3D [35]
   Moschou, S. P., Keppens, R., Xia, C. & Fang, X., Advances in Space Research, 56, 2738
9. Optimizing the calculation grid for atmospheric dispersion modelling [1]
   Van Thielen, S., Turcanu, C., Camps, J. & Keppens, R., Journal of Environmental Radioactivity, 142, 103
10. Evolution of Fast Magnetoacoustic Pulses in Randomly Structured Coronal Plasmas [25]
    Yuan, D., Pascoe, D. J., Nakariakov, V. M., Li, B. & Keppens, R., ApJ, 799, 221

2014

1. Connecting the dots: a versatile model for the atmospheres of tidally locked Super-Earths [40]
   Carone, L., Keppens, R. & Decin, L., MNRAS, 445, 930
2. Atmospheric dynamics on tidally locked Earth-like planets in the habitable zone of an M dwarf star [1]
   Carone, Ludmila, Keppens, Rony & Decin, Leen, Exploring the Formation and Evolution of Planetary Systems (Editors: Booth, Mark, Matthews, Brenda C. & Graham, James R.), IAU Symposium, 299, p. 376
3. Modeling Prominence Formation in 2.5D [1]
   Fang, X., Xia, C. & Keppens, R., Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 410
4. Effect of dust on Kelvin-Helmholtz instabilities [27]
   Hendrix, T. & Keppens, R., A&A, 562, A114
5. Gas Acceleration by Fast Dust Particles and the Dusty Rayleigh-Taylor Instability [0]
   Hendrix, T. & Keppens, R., 8th International Conference of Numerical Modeling of Space Plasma Flows (ASTRONUM 2013) (Editors: Pogorelov, N. V., Audit, E. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 488, p. 77
6. The Dynamics of Funnel Prominences [46]
   Keppens, R. & Xia, C., ApJ, 789, 22
7. Interacting Tilt and Kink Instabilities in Repelling Current Channels [23]
   Keppens, R., Porth, O. & Xia, C., ApJ, 795, 77
8. Multi-scale virtual view on the precessing jet SS433 [3]
   Monceau-Baroux, R., Porth, O., Meliani, Z. & Keppens, R., The X-ray Universe 2014 (Editors: Ness, Jan-Uwe), p. 147
9. Relativistic 3D precessing jet simulations for the X-ray binary SS433 [26]
   Monceau-Baroux, Rémi, Porth, Oliver, Meliani, Zakaria & Keppens, Rony, A&A, 561, A30
10. MPI-AMRVAC for Solar and Astrophysics [234]
    Porth, O., Xia, C., Hendrix, T., Moschou, S. P. & Keppens, R., ApJS, 214, 4
11. Solution to the Sigma Problem of Pulsar Wind Nebulae [2]
    Porth, Oliver, Komissarov, Serguei S. & Keppens, Rony, International Journal of Modern Physics Conference Series, International Journal of Modern Physics Conference Series, 28, p. 1460168
12. Rayleigh-Taylor instability in magnetohydrodynamic simulations of the Crab nebula [87]
    Porth, Oliver, Komissarov, Serguei S. & Keppens, Rony, MNRAS, 443, 547
13. Three-dimensional magnetohydrodynamic simulations of the Crab nebula [188]
    Porth, Oliver, Komissarov, Serguei S. & Keppens, Rony, MNRAS, 438, 278
14. GRADSPMHD: A parallel MHD code based on the SPH formalism [6]
    Vanaverbeke, S., Keppens, R. & Poedts, S., Computer Physics Communications, 185, 1053
15. Relativistic AGN jets - II. Jet properties and mixing effects for episodic jet activity [18]
    Walg, S., Achterberg, A., Markoff, S., Keppens, R. & Porth, O., MNRAS, 439, 3969
16. Simulating the in Situ Condensation Process of Solar Prominences [93]
    Xia, C., Keppens, R., Antolin, P. & Porth, O., ApJ, 792, L38
17. Three-dimensional Prominence-hosting Magnetic Configurations: Creating a Helical Magnetic Flux Rope [54]
    Xia, C., Keppens, R. & Guo, Y., ApJ, 780, 130
18. Modeling Magnetic Flux Ropes [1]
    Xia, Chun & Keppens, Rony, Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 121
19. Prominence Formation and Destruction [0]
    Xia, Chun, Antolin, Patrick & Keppens, Rony, Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 468

2013

1. Non-resonant magnetohydrodynamics streaming instability near magnetized relativistic shocks [13]
   Casse, F., Marcowith, A. & Keppens, R., MNRAS, 433, 940
2. Multidimensional Modeling of Coronal Rain Dynamics [74]
   Fang, X., Xia, C. & Keppens, R., ApJ, 771, L29
3. Dust Dynamics in Kelvin-Helmholtz Instabilities [0]
   Hendrix, Tom & Keppens, Rony, European Physical Journal Web of Conferences, European Physical Journal Web of Conferences, 46, p. 06003
4. Nonlinear evolution of the magnetized Kelvin-Helmholtz instability: From fluid to kinetic modeling [52]
   Henri, P., Cerri, S. S., Califano, F., Pegoraro, F., Rossi, C., Faganello, M., Šebek, O., Trávníček, P. M., Hellinger, P., Frederiksen, J. T., Nordlund, A., Markidis, S., Keppens, R. & Lapenta, G., Physics of Plasmas, 20, 102118
5. Relativistic HD and MHD modelling for AGN jets [3]
   Keppens, R., Porth, O., Monceau-Baroux, R. & Walg, S., Plasma Physics and Controlled Fusion, 55, 124038
6. Solar prominences: formation, force balance, internal dynamics [0]
   Keppens, R., Xia, C., Chen, P. & Blokland, J. W. S., 370 Years of Astronomy in Utrecht (Editors: Pugliese, G., de Koter, A. & Wijburg, M.), Astronomical Society of the Pacific Conference Series, 470, p. 37
7. Resistive magnetohydrodynamic reconnection: Resolving long-term, chaotic dynamics [21]
   Keppens, R., Porth, O., Galsgaard, K., Frederiksen, J. T., Restante, A. L., Lapenta, G. & Parnell, C., Physics of Plasmas, 20, 092109
8. SWIFF: Space weather integrated forecasting framework [21]
   Lapenta, Giovanni, Pierrard, Viviane, Keppens, Rony, Markidis, Stefano, Poedts, Stefaan, Šebek, Ondřej, Trávníček, Pavel M., Henri, Pierre, Califano, Francesco, Pegoraro, Francesco, Faganello, Matteo, Olshevsky, Vyacheslav, Restante, Anna Lisa, Nordlund, Åke, Trier Frederiksen, Jacob, Mackay, Duncan H., Parnell, Clare E., Bemporad, Alessandro, Susino, Roberto & Borremans, Kris, Journal of Space Weather and Space Climate, 3, A05
9. Solution to the sigma problem of pulsar wind nebulae. [96]
   Porth, O., Komissarov, S. S. & Keppens, R., MNRAS, 431, L48
10. Relativistic AGN jets I. The delicate interplay between jet structure, cocoon morphology and jet-head propagation [34]
    Walg, S., Achterberg, A., Markoff, S., Keppens, R. & Meliani, Z., MNRAS, 433, 1453
11. Parametric survey of longitudinal prominence oscillation simulations [59]
    Zhang, Q. M., Chen, P. F., Xia, C., Keppens, R. & Ji, H. S., A&A, 554, A124

2012

1. Dusty Circumstellar Environments: MPI-AMRVAC Simulations [1]
   Keppens, R., van Marle, A. J. & Meliani, Z., Numerical Modeling of Space Plasma Slows (ASTRONUM 2011) (Editors: Pogorelov, N. V., Font, J. A., Audit, E. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 459, p. 73
2. Parallel, grid-adaptive approaches for relativistic hydro and magnetohydrodynamics [275]
   Keppens, R., Meliani, Z., van Marle, A. J., Delmont, P., Vlasis, A. & van der Holst, B., Journal of Computational Physics, 231, 718
3. Jet Structure, Collimation and Stability: Recent Results from Analytical Models and Simulations [0]
   Keppens, Rony & Meliani, Zakaria, Relativistic Jets from Active Galactic Nuclei (Editors: Boettcher, Markus, Harris, Daniel E. & Krawczynski, Henric), p.341
4. Computational plasma physics [2]
   Koren, Barry, Ebert, Ute, Gombosi, Tamas, Guillard, Hervé, Keppens, Rony & Knoll, Dana, Journal of Computational Physics, 231, 717
5. Formation and long-term evolution of 3D vortices in protoplanetary discs [79]
   Meheut, H., Keppens, R., Casse, F. & Benz, W., A&A, 542, A9
6. Numerical Simulation of Flares in GRB Afterglow Phase [0]
   Meliani, Z., Vlasis, A. & Keppens, R., Numerical Modeling of Space Plasma Slows (ASTRONUM 2011) (Editors: Pogorelov, N. V., Font, J. A., Audit, E. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 459, p. 118
7. The effect of angular opening on the dynamics of relativistic hydro jets [8]
   Monceau-Baroux, R., Keppens, R. & Meliani, Z., A&A, 545, A62
8. Late activity in GRB afterglows. A multidimensional approach. [0]
   Vlasis, A., Meliani, Z. & Keppens, R., Memorie della Societa Astronomica Italiana Supplementi, 21, 190
9. Simulations of Prominence Formation in the Magnetized Solar Corona by Chromospheric Heating [111]
   Xia, C., Chen, P. F. & Keppens, R., ApJ, 748, L26
10. Observations and simulations of longitudinal oscillations of an active region prominence [96]
    Zhang, Q. M., Chen, P. F., Xia, C. & Keppens, R., A&A, 542, A52
11. Multi-dimensional models of circumstellar shells around evolved massive stars [39]
    van Marle, A. J. & Keppens, R., A&A, 547, A3
12. On the circumstellar medium of massive stars and how it may appear in GRB observations . [0]
    van Marle, A. J., Keppens, R., Yoon, S.-C. & Langer, N., Memorie della Societa Astronomica Italiana Supplementi, 21, 40
13. Dust distribution in circumstellar shells [1]
    van Marle, Allard-Jan, Meliani, Zakaria, Keppens, Rony & Decin, Leen, Planetary Nebulae: An Eye to the Future, IAU Symposium, 283, p. 516

2011

1. Toward detailed prominence seismology. I. Computing accurate 2.5D magnetohydrodynamic equilibria [23]
   Blokland, J. W. S. & Keppens, R., A&A, 532, A93
2. Toward detailed prominence seismology. II. Charting the continuous magnetohydrodynamic spectrum [18]
   Blokland, J. W. S. & Keppens, R., A&A, 532, A94
3. Parameter regimes for slow, intermediate and fast MHD shocks [15]
   Delmont, P. & Keppens, R., Journal of Plasma Physics, 77, 207
4. Shock refraction from classical gas to relativistic plasma environments [0]
   Keppens, Rony, Delmont, Peter & Meliani, Zakaria, Advances in Plasma Astrophysics (Editors: Bonanno, Alfio, de Gouveia Dal Pino, Elisabete & Kosovichev, Alexander G.), IAU Symposium, 274, p. 441
5. Two-component Jets and the Fanaroff-Riley Dichotomy [0]
   Meliani, Z. & Keppens, R., 5th International Conference of Numerical Modeling of Space Plasma Flows (ASTRONUM 2010) (Editors: Pogorelov, N. V., Audit, E. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 444, p. 75
6. Two-shell collisions in the gamma-ray burst afterglow phase [28]
   Vlasis, A., van Eerten, H. J., Meliani, Z. & Keppens, R., MNRAS, 415, 279
7. Two shell collisions in the GRB afterglow phase [0]
   Vlasis, A., van Eerten, H. J., Meliani, Z. & Keppens, R., Memorie della Societa Astronomica Italiana, 82, 137
8. Formation of Solar Filaments by Steady and Nonsteady Chromospheric Heating [118]
   Xia, C., Chen, P. F., Keppens, R. & van Marle, A. J., ApJ, 737, 27
9. Jet simulations and gamma-ray burst afterglow jet breaks [41]
   van Eerten, H. J., Meliani, Z., Wijers, R. A. M. J. & Keppens, R., MNRAS, 410, 2016
10. Thin shell morphology in the circumstellar medium of massive binaries [30]
    van Marle, A. J., Keppens, R. & Meliani, Z., A&A, 527, A3
11. Computing the Dust Distribution in the Bow Shock of a Fast-moving, Evolved Star [81]
    van Marle, A. J., Meliani, Z., Keppens, R. & Decin, L., ApJ, 734, L26
12. 3-D simulations of shells around massive stars [4]
    van Marle, Allard Jan, Keppens, Rony & Meliani, Zakaria, Bulletin de la Societe Royale des Sciences de Liege, 80, 310
13. Radiative cooling in numerical astrophysics: The need for adaptive mesh refinement [29]
    van Marle, Allard Jan & Keppens, Rony, Computers and Fluids, 42, 44
14. Numerical simulations of the circumstellar medium of massive binaries [0]
    van Marle, Allard Jan & Keppens, Rony, Astrophysical Dynamics: From Stars to Galaxies (Editors: Brummell, Nicholas H., Brun, A. Sacha, Miesch, Mark S. & Ponty, Yannick), IAU Symposium, 271, p. 405

2010

1. Regular shock refraction in planar ideal MHD [1]
   Delmont, P. & Keppens, R., Journal of Physics Conference Series, Journal of Physics Conference Series, 216, p. 012007
2. Advanced Magnetohydrodynamics [131]
   Goedbloed, J. P., Keppens, Rony & Poedts, Stefaan,
3. Magnetohydrodynamic Modeling for Fusion Plasmas [1]
   Keppens, R., Goedbloed, J. P. & Blokland, J. W. S., Fusion Science and Technology, 57, 137
4. Relativistic Hydro and Magnetohydrodynamic Models for AGN Jet Propagation and Deceleration [0]
   Keppens, R. & Meliani, Z., Numerical Modeling of Space Plasma Flows, Astronum-2009 (Editors: Pogorelov, Nikolai V., Audit, Edouard & Zank, Gary P.), Astronomical Society of the Pacific Conference Series, 429, p. 91
5. Jet Stability: A Computational Survey [1]
   Keppens, Rony, Meliani, Zakaria, Baty, Hubert & van der Holst, Bart, Lecture Notes in Physics, Berlin Springer Verlag (Editors: Gracia, José, de Colle, Fabio & Downes, Turlough), p.179
6. Dynamics and stability of relativistic gamma-ray-bursts blast waves [26]
   Meliani, Z. & Keppens, R., A&A, 520, L3
7. Relativistic Two-component Jet Evolutions in 2D and 3D [1]
   Meliani, Z. & Keppens, R., Numerical Modeling of Space Plasma Flows, Astronum-2009 (Editors: Pogorelov, Nikolai V., Audit, Edouard & Zank, Gary P.), Astronomical Society of the Pacific Conference Series, 429, p. 121
8. Two-Component Jets and the Fanaroff-Riley Dichotomy [2]
   Meliani, Zakaria, Keppens, Rony & Sauty, Christophe, International Journal of Modern Physics D, 19, 867
9. Time-dependent particle acceleration in supernova remnants in different environments [41]
   Schure, K. M., Achterberg, A., Keppens, R. & Vink, J., MNRAS, 406, 2633
10. Gamma-ray burst afterglows from transrelativistic blast wave simulations [71]
    van Eerten, H. J., Leventis, K., Meliani, Z., Wijers, R. A. M. J. & Keppens, R., MNRAS, 403, 300

2009

1. An exact Riemann-solver-based solution for regular shock refraction [10]
   Delmont, P., Keppens, R. & van der Holst, B., Journal of Fluid Mechanics, 627, 33
2. Grid-adaptive Simulations of Relativistic Flows [0]
   Keppens, R. & Meliani, Z., Computational Fluid Dynamics 2006 (Editors: Deconinck, Herman & Dick, E.), p. 569
3. Extragalactic Jets with Helical Magnetic Fields [1]
   Keppens, Rony & Meliani, Zakaria, Protostellar Jets in Context (Editors: Tsinganos, Kanaris, Ray, Tom & Stute, Matthias), Astrophysics and Space Science Proceedings, 13, p. 555
4. Jet Stability: A Computational Survey [4]
   Keppens, Rony, Meliani, Zakaria, Baty, Hubert & van der Holst, Bart, Jets From Young Stars V (Editors: Gracia, José, de Colle, Fabio & Downes, Turlough), p.179
5. Decelerating Relativistic Two-Component Jets [52]
   Meliani, Z. & Keppens, R., ApJ, 705, 1594
6. Relativistic Two-Component Hydrodynamic Jets [0]
   Meliani, Zakaria & Keppens, Rony, Protostellar Jets in Context (Editors: Tsinganos, Kanaris, Ray, Tom & Stute, Matthias), Astrophysics and Space Science Proceedings, 13, p. 581
7. Numerical simulations of the solar corona and Coronal Mass Ejections [1]
   Poedts, Stefaan, Jacobs, Carla, van der Holst, Bart, Chané, Emmanuel & Keppens, Rony, Earth, Planets and Space, 61, 599
8. A new radiative cooling curve based on an up-to-date plasma emission code [228]
   Schure, K. M., Kosenko, D., Kaastra, J. S., Keppens, R. & Vink, J., A&A, 508, 751
9. Evolution of magnetic fields and cosmic ray acceleration in supernova remnants [13]
   Schure, K. M., Vink, J., Achterberg, A. & Keppens, R., Advances in Space Research, 44, 433
10. Evolution of Magnetic Fields in Supernova Remnants [3]
    Schure, K. M., Vink, J., Achterberg, A. & Keppens, R., Revista Mexicana de Astronomia y Astrofisica Conference Series, Revista Mexicana de Astronomia y Astrofisica Conference Series, 36, p. CD350
11. Numerical simulations of homologous coronal mass ejections in the solar wind [20]
    Soenen, A., Zuccarello, F. P., Jacobs, C., Poedts, S., Keppens, R. & van der Holst, B., A&A, 501, 1123
12. GRADSPH: A parallel smoothed particle hydrodynamics code for self-gravitating astrophysical fluid dynamics [25]
    Vanaverbeke, S., Keppens, R., Poedts, S. & Boffin, H., Computer Physics Communications, 180, 1164
13. No visible optical variability from a relativistic blast wave encountering a wind termination shock [34]
    van Eerten, H. J., Meliani, Z., Wijers, R. A. M. J. & Keppens, R., MNRAS, 398, L63

2008

1. Accretion funnels onto weakly magnetized young stars [163]
   Bessolaz, N., Zanni, C., Ferreira, J., Keppens, R. & Bouvier, J., A&A, 478, 155
2. Numerical Magnetohydrodynamics [1]
   Keppens, R., Fusion Science and Technology, 53, 135
3. Linear wave propagation in relativistic magnetohydrodynamics [24]
   Keppens, R. & Meliani, Z., Physics of Plasmas, 15, 102103
4. Extragalactic jets with helical magnetic fields: relativistic MHD simulations [52]
   Keppens, R., Meliani, Z., van der Holst, B. & Casse, F., A&A, 486, 663
5. Relativistic hydrodynamic simulation of jet deceleration in GRB [0]
   Meliani, Z., Keppens, R. & Casse, F., Gamma-ray Bursts 2007 (Editors: Galassi, M., Palmer, David & Fenimore, Ed), American Institute of Physics Conference Series, 1000, p. 452
6. Faranoff-Riley type I jet deceleration at density discontinuities. Relativistic hydrodynamics with a realistic equation of state [46]
   Meliani, Z., Keppens, R. & Giacomazzo, B., A&A, 491, 321
7. Magnetohydrostatic Solar Prominences in Near-Potential Coronal Magnetic Fields [0]
   Petrie, G. J. D., Blokland, J. W. S. & Keppens, R., Subsurface and Atmospheric Influences on Solar Activity (Editors: Howe, R., Komm, R. W., Balasubramaniam, K. S. & Petrie, G. J. D.), Astronomical Society of the Pacific Conference Series, 383, p. 413
8. On the Properties of Low-β Magnetohydrodynamic Waves in Curved Coronal Fields [13]
   Terradas, J., Oliver, R., Ballester, J. L. & Keppens, R., ApJ, 675, 875
9. A multidimensional grid-adaptive relativistic magnetofluid code [54]
   van der Holst, B., Keppens, R. & Meliani, Z., Computer Physics Communications, 179, 617

2007

1. PHOENIX: MHD spectral code for rotating laboratory and gravitating astrophysical plasmas [28]
   Blokland, J. W. S., van der Holst, B., Keppens, R. & Goedbloed, J. P., Journal of Computational Physics, 226, 509
2. Unstable magnetohydrodynamical continuous spectrum of accretion disks. A new route to magnetohydrodynamical turbulence in accretion disks [10]
   Blokland, J. W. S., Keppens, R. & Goedbloed, J. P., A&A, 467, 21
3. Numerical simulations of the initiation and the IP evolution of coronal mass ejections [1]
   Jacobs, C., Poedts, S., van der Holst, B., Dubey, G. & Keppens, R., Flows, Boundaries, and Interactions (Editors: Dumitrache, Cristiana & Popescu, Nedelia A.), American Institute of Physics Conference Series, 934, p. 101
4. Transverse stability of relativistic two-component jets [38]
   Meliani, Z. & Keppens, R., A&A, 475, 785
5. GRB blastwaves through wind-shaped circumburst media [10]
   Meliani, Z. & Keppens, R., A&A, 467, L41
6. AMRVAC and relativistic hydrodynamic simulations for gamma-ray burst afterglow phases [57]
   Meliani, Zakaria, Keppens, Rony, Casse, Fabien & Giannios, Dimitrios, MNRAS, 376, 1189
7. Magnetohydrostatic Solar Prominences in Near-Potential Coronal Magnetic Fields [18]
   Petrie, G. J. D., Blokland, J. W. S. & Keppens, R., ApJ, 665, 830
8. Hybrid block-AMR in cartesian and curvilinear coordinates: MHD applications [81]
   van der Holst, B. & Keppens, R., Journal of Computational Physics, 226, 925

2006

1. Kelvin-Helmholtz disruptions in extended magnetized jet flows [29]
   Baty, H. & Keppens, R., A&A, 447, 9
2. MHD simulations of the magnetic coupling between a young star and its accretion disk [0]
   Bessolaz, N., Ferreira, J., Keppens, R. & Bouvier, J., SF2A-2006: Semaine de l'Astrophysique Francaise (Editors: Barret, D., Casoli, F., Lagache, G., Lecavelier, A. & Pagani, L.), p. 447
3. Supersonic expansion in the Pilot-PSI plasma jet: neutral gas and MHD models [6]
   Cinalli, M. & Keppens, R., Journal of Physics D Applied Physics, 39, 4589
4. Nonlinear Magnetohydrodynamics: Numerical Concepts [2]
   Keppens, R., Fusion Science and Technology, 49, 139
5. Computing Ideal Magnetohydrodynamic Equilibria [3]
   Keppens, R. & Blokland, J. W. S., Fusion Science and Technology, 49, 131
6. Relativistic hydro with AMRVAC and simulation of ultra-relativistic dynamics [0]
   Meliani, Z., Keppens, R. & Casse, F., SF2A-2006: Semaine de l'Astrophysique Francaise (Editors: Barret, D., Casoli, F., Lagache, G., Lecavelier, A. & Pagani, L.), p. 167
7. Magnetohydrodynamic simulation of two capillary discharge channels [1]
   Wang, Chun Mei, Keppens, R. & Goedbloed, J. P., Journal of Plasma Physics, 72, 491

2005

1. Forward modeling of coronal funnels [17]
   Aiouaz, T., Peter, H. & Keppens, R., A&A, 442, L35
2. Relation of the Chromospheric Network to Coronal Funnels and the Solar Wind [0]
   Aiouaz, T., Peter, H. & Keppens, R., Solar Wind 11/SOHO 16, Connecting Sun and Heliosphere (Editors: Fleck, B., Zurbuchen, T. H. & Lacoste, H.), ESA Special Publication, 592, p. 135
3. Magneto-rotational overstability in accretion disks [28]
   Blokland, J. W. S., van der Swaluw, E., Keppens, R. & Goedbloed, J. P., A&A, 444, 337
4. MHD Spectroscopy of Transonic Flows [2]
   Goedbloed, Hans & Keppens, Rony, Space Science Reviews, 121, 55
5. Transonic instabilities in accretion disks [0]
   Goedbloed, J. P. & Keppens, R., Magnetic Fields in the Universe: From Laboratory and Stars to Primordial Structures. (Editors: de Gouveia dal Pino, Elisabete M., Lugones, Germán & Lazarian, Alexander), American Institute of Physics Conference Series, 784, p. 639
6. Grid-Adaptive Computations of Magnetized Jets [2]
   Keppens, Rony, Baty, Hubert & Casse, Fabien, Space Science Reviews, 121, 65
7. Extrapolation of a nonlinear force-free field containing a highly twisted magnetic loop [112]
   Valori, G., Kliem, B. & Keppens, R., A&A, 433, 335
8. Convective magneto-rotational instabilities in accretion disks [8]
   van der Swaluw, E., Blokland, J. W. S. & Keppens, R., A&A, 444, 347

2004

1. Forward Modelling of Coronal Funnels [0]
   Aiouaz, T., Peter, H. & Keppens, R., SOHO 15 Coronal Heating (Editors: Walsh, R. W., Ireland, J., Danesy, D. & Fleck, B.), ESA Special Publication, 575, p. 337
2. Dynamics and Properties of Coronal Funnels [3]
   Aiouaz, T., Peter, H., Lemaire, P. & Keppens, 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. 375
3. How Can Jets Survive MHD Instabilities? [2]
   Baty, Hubert, Keppens, Rony & Comte, Pierre, Astrophysics and Space Science, 293, 131
4. Radiatively Inefficient Magnetohydrodynamic Accretion-Ejection Structures [96]
   Casse, Fabien & Keppens, Rony, ApJ, 601, 90
5. Transonic instabilities in accretion disks [0]
   Goedbloed, Hans & Keppens, Rony, physics/0411180
6. Unstable continuous spectra of transonic axisymmetric plasmas [46]
   Goedbloed, J. P., Beliën, A. J. C., van der Holst, B. & Keppens, R., Physics of Plasmas, 11, 28
7. No additional flow continua in magnetohydrodynamics [16]
   Goedbloed, J. P., Beliën, A. J. C., Holst, B. van der & Keppens, R., Physics of Plasmas, 11, 4332
8. Transsonic instabilities in tokamaks and astrophysical accretion flows [4]
   Goedbloed, J. P. (Hans), Beliën, A. J. C., van der Holst, B. & Keppens, R., Plasmas in the Laboratory and in the Universe: New Insights and New Challenges (Editors: Bertin, Giuseppe, Farina, Daniela & Pozzoli, Roberto), American Institute of Physics Conference Series, 703, p. 42
9. Nonlinear Magnetohydrodynamics: Numerical Concepts [2]
   Keppens, R., Fusion Science and Technology, 45, 107
10. Grid-adaptive computations for magnetized astrophysical plasmas [0]
    Keppens, R., Bergmans, J. & Baty, H., Memorie della Societa Astronomica Italiana Supplementi, 4, 61
11. Simulating Magnetized Jets [0]
    Keppens, Rony, Baty, Hubert, Bergmans, Jeroen & Casse, Fabien, Astrophysics and Space Science, 293, 217
12. Local analysis of MHD spectra for cylindrical plasmas with flows [15]
    Wang, Chunmei, Blokland, J. W. S., Keppens, R. & Goedbloed, J. P., Journal of Plasma Physics, 70, 651

2003

1. Dynamics and Properties of Coronal Funnels [0]
   Aiouaz, T., Peter, H., Lemaire, Philippe & Keppens, Rony, Astronomische Nachrichten Supplement, 324, 7
2. The two-dimensional magnetohydrodynamic Kelvin-Helmholtz instability: Compressibility and large-scale coalescence effects [44]
   Baty, H., Keppens, R. & Comte, P., Physics of Plasmas, 10, 4661
3. Continuous MHD Jet Launching from Resistive Accretion Disk [0]
   Casse, Fabien L. & Keppens, Rony, IAU Symposium, IAU Symposium, 221, p. P127
4. Computer simulations of solar plasmas [7]
   Goedbloed, J. P., Keppens, R. & Poedts, S., Space Science Reviews, 107, 63
5. Adaptive Mesh Refinement for conservative systems: multi-dimensional efficiency evaluation [146]
   Keppens, R., Nool, M., Tóth, G. & Goedbloed, J. P., Computer Physics Communications, 153, 317
6. Simulation of shock waves in the interplanetary medium [3]
   Poedts, S., van der Holst, B., Chattopadhyay, I., Banerjee, D., van Lier, T. & Keppens, R., Solar Variability as an Input to the Earth's Environment (Editors: Wilson, Andrew), ESA Special Publication, 535, p. 603
7. MHD stability analysis of a slow capillary discharge [1]
   Wang, C., Keppens, R. & Goedbloed, J. P., Journal of Physics D Applied Physics, 36, 2255
8. Three-dimensional magnetohydrodynamic simulations of in situ shock formation in the coronal streamer belt [6]
   Zaliznyak, Yu., Keppens, R. & Goedbloed, J. P., Physics of Plasmas, 10, 4478
9. Interaction of high-velocity pulsars with supernova remnant shells [78]
   van der Swaluw, E., Achterberg, A., Gallant, Y. A., Downes, T. P. & Keppens, R., A&A, 397, 913

2002

1. Interplay between Kelvin-Helmholtz and Current-driven Instabilities in Jets [66]
   Baty, H. & Keppens, R., ApJ, 580, 800
2. New numerical tools to study waves and instabilities of flowing plasmas [1]
   Belien, A. J. C., Botchev, M. A., Goedbloed, J. P., van der Holst, B. & Keppens, R., Computer Physics Communications, 147, 497
3. FINESSE: Axisymmetric MHD Equilibria with Flow [71]
   Beliën, A. J. C., Botchev, M. A., Goedbloed, J. P., van der Holst, B. & Keppens, R., Journal of Computational Physics, 182, 91
4. Magnetized Accretion-Ejection Structures: 2.5-dimensional Magnetohydrodynamic Simulations of Continuous Ideal Jet Launching from Resistive Accretion Disks [165]
   Casse, Fabien & Keppens, Rony, ApJ, 581, 988
5. Waves and Instabilities in Accretion Disks: Magnetohydrodynamic Spectroscopic Analysis [71]
   Keppens, R., Casse, F. & Goedbloed, J. P., ApJ, 569, L121
6. JOSO report 200-2001 - The Netherlands. Solar Physics in The Netherlands [0]
   Rutten, R., Keppens, R. & Fleck, B., Joint Organization for Solar Observations, Annual Report 2000/2001 (Editors: Kucera, A.), p.81
7. Axisymmetric magnetized winds and stellar spin-down [5]
   van der Holst, B., Banerjee, D., Keppens, R. & Poedts, S., Solar Variability: From Core to Outer Frontiers (Editors: Wilson, A.), ESA Special Publication, 1, p. 75

2001

1. The compressible evolution of the super-Alfvénic magnetized wake [13]
   Dahlburg, R. B., Keppens, R. & Einaudi, G., Physics of Plasmas, 8, 1697

2000

1. Sunspot Pores [1]
   Keppens, R., Encyclopedia of Astronomy and Astrophysics (Editors: Murdin, P.), p.2043
2. Stellar Winds, Dead Zones, and Coronal Mass Ejections [75]
   Keppens, R. & Goedbloed, J. P., ApJ, 530, 1036
3. Spin and orbital angular momentum exchange in binary star systems. II. Ascending the giant branch: a new path to FK Comae stars [6]
   Keppens, R., Solanki, S. K. & Charbonnel, C., A&A, 359, 552

1999

1. The Dynamical Influence Of The Transition Region And Chromosphere On The Heating Of Coronal Loops By Resonant Absorption Of Alfvén Waves [6]
   Belien, A. J. C., Martens, P. C. H. & Keppens, R., 8th SOHO Workshop: Plasma Dynamics and Diagnostics in the Solar Transition Region and Corona (Editors: Vial, J. -C. & Kaldeich-Schü, B.), ESA Special Publication, 446, p. 167
2. Wave Heating and Nonlinear Dynamics of Coronal Loops [0]
   Beliën, A. J. C., Martens, P. C. H., Keppens, R. & Tóth, G., Third Advances in Solar Physics Euroconference: Magnetic Fields and Oscillations (Editors: Schmieder, B., Hofmann, A. & Staude, J.), Astronomical Society of the Pacific Conference Series, 184, p. 248
3. Coronal Heating by Resonant Absorption: The Effects of Chromospheric Coupling [39]
   Beliën, A. J. C., Martens, P. C. H. & Keppens, R., ApJ, 526, 478
4. Stationary and Time-Dependent MHD Simulations of the Solar Wind [1]
   Keppens, R. & Goedbloed, J. P., Magnetic Fields and Solar Processes (Editors: Wilson, A. & et al.), ESA Special Publication, 448, p. 1177
5. Numerical Simulations of Stellar Winds [7]
   Keppens, R. & Goedbloed, J. P., Space Science Reviews, 87, 223
6. Nonlinear dynamics of Kelvin-Helmholtz unstable magnetized jets: Three-dimensional effects [34]
   Keppens, R. & Tóth, G., Physics of Plasmas, 6, 1461
7. Implicit and semi-implicit schemes: Algorithms [15]
   Keppens, R., Tóth, G., Botchev, M. A. & van der Ploeg, A., International Journal for Numerical Methods in Fluids, 30, 335
8. Numerical simulations of stellar winds: polytropic models [110]
   Keppens, R. & Goedbloed, J. P., A&A, 343, 251
9. Growth and saturation of the Kelvin-Helmholtz instability with parallel and antiparallel magnetic fields [120]
   Keppens, Rony, Tóth, G., Westermann, R. H. J. & Goedbloed, J. P., Journal of Plasma Physics, 61, 1
10. 3D Nonlinear MHD Wave Heating of Coronal Loops^CD [0]
    Poedts, S., Keppens, R. & Beliën, A. J. C., Numerical Astrophysics (Editors: Miyama, Shoken M., Tomisaka, Kohji & Hanawa, Tomoyuki), Astrophysics and Space Science Library, 240, p. 319
11. Leaky and resonantly damped flux tube modes reconsidered [29]
    Stenuit, H., Tirry, W. J., Keppens, R. & Goossens, M., A&A, 342, 863

1998

1. Eigenfrequencies and optimal driving frequencies of 1D non-uniform magnetic flux tubes [31]
   Stenuit, H., Keppens, R. & Goossens, M., A&A, 331, 392
2. Implicit and semi-implicit schemes in the Versatile Advection Code: numerical tests [60]
   Toth, G., Keppens, R. & Botchev, M. A., A&A, 332, 1159

1997

1. Spin and orbital angular momentum exchange in binary star systems. [11]
   Keppens, R., A&A, 318, 275
2. Polar spots and stellar spindown: is dynamo saturation needed? [23]
   Solanki, S. K., Motamen, S. & Keppens, R., A&A, 325, 1039
3. Polar spots and stellar spindown: is dynamo saturation needed? [29]
   Solanki, S. K., Motamen, S. & Keppens, R., A&A, 324, 943

1996

1. Hot Magnetic Fibrils: The Slow Continuum Revisited [16]
   Keppens, R., ApJ, 468, 907
2. The magnetic structure of pores and sunspots derived from Advanced Stokes Polarimeter data. [125]
   Keppens, R. & Martinez Pillet, V., A&A, 316, 229

1995

1. Flux Tubes with a Thin Transition Layer: Scattering and Absorption Properties [7]
   Keppens, R., Solar Physics, 161, 251
2. Multiple Scattering and Resonant Absorption of P modes by Fibril Sunspots [0]
   Keppens, R., GONG 1994. Helio- and Astro-Seismology from the Earth and Space (Editors: Ulrich, R. K., Rhodes, Jr., E. J. & Dappen, W.), Astronomical Society of the Pacific Conference Series, 76, p. 260
3. On the evolution of rotational velocity distributions for solar-type stars. [145]
   Keppens, R., MacGregor, K. B. & Charbonneau, P., A&A, 294, 469

1994

1. Multiple Scattering and Resonant Absorption of p-Modes by Fibril Sunspots [50]
   Keppens, R., Bogdan, T. J. & Goossens, M., ApJ, 436, 372
2. Angular Momentum Loss from the Young Sun: Improved Wind and Dynamo Models [2]
   Keppens, R., Charbonneau, P., MacGregor, K. B. & Brandenburg, A., Cool Stars, Stellar Systems, and the Sun (Editors: Caillault, Jean-Pierre), Astronomical Society of the Pacific Conference Series, 64, p. 193

1993

1. Non-adiabatic discrete Alfvén waves in coronal loops and prominences [6]
   Keppens, Rony, van der Linden, Ronald A. M. & Goossens, Marcel, Solar Physics, 144, 267