Publications of Thomas Neukirch

A list of publications authored or co-authored by Thomas Neukirch, 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: 0000-0002-7597-4980

List of publications ordered by citations
Number of papers: 132 (refereed: 103)
No. of citations: 2371
First author papers: 35 (refereed: 24)

2025

1. Models of Collisionless Quasineutral Solar Wind Current Sheets [0]
   Boswell, Sophie, Neukirch, Thomas, Artemyev, Anton, Vasko, Ivan & Allanson, Oliver, Solar Physics, 300, 142
2. A detailed investigation of particle energization mechanisms in models of collapsing magnetic traps [2]
   Mowbray, Kate, Neukirch, Thomas & Threlfall, James, MNRAS, 536, 609
3. MHSXtraPy ─ a Python code for the extrapolation of magnetohydrostatic fields on the Sun using analytical solutions [0]
   Nadol, L. & Neukirch, T., RAS Techniques and Instruments, 4, rzaf053
4. An Efficient Method for Magnetic Field Extrapolation Based on a Family of Analytical Three-Dimensional Magnetohydrostatic Equilibria [2]
   Nadol, Lilli & Neukirch, Thomas, Solar Physics, 300, 63

2024

1. The challenge to understand the zoo of particle transport regimes during resonant wave-particle interactions for given survey-mode wave spectra [18]
   Allanson, Oliver, Ma, Donglai, Osmane, Adnane, Albert, Jay M., Bortnik, Jacob, Watt, Clare E. J., Chapman, Sandra C., Spencer, Joseph, Ratliff, Daniel J., Meredith, Nigel P., Elsden, Thomas, Neukirch, Thomas, Hartley, David P., Black, Rachel, Watkins, Nicholas W. & Elvidge, Sean, Frontiers in Astronomy and Space Sciences, 11, 1332931

2023

1. Three-dimensional solar active region magnetohydrostatic models and their stability using Euler potentials [3]
   Terradas, J. & Neukirch, T., A&A, 671, A31

2022

1. Weak turbulence and quasilinear diffusion for relativistic wave-particle interactions via a Markov approach [27]
   Allanson, Oliver, Elsden, Thomas, Watt, Clare & Neukirch, Thomas, Frontiers in Astronomy and Space Sciences, 8, 232

2020

1. Particle acceleration with anomalous pitch angle scattering in 3D separator reconnection [8]
   Borissov, A., Neukirch, T., Kontar, E. P., Threlfall, J. & Parnell, C. E., A&A, 635, A63
2. Analysing AIA Flare Observations using Convolutional Neural Networks [8]
   Love, Teri, Neukirch, Thomas & Parnell, Clare E., Frontiers in Astronomy and Space Sciences, 7, 34
3. A family of Vlasov-Maxwell equilibrium distribution functions describing a transition from the Harris sheet to the force-free Harris sheet [11]
   Neukirch, T., Wilson, F. & Allanson, O., Journal of Plasma Physics, 86, 825860302
4. Kinetic Models of Tangential Discontinuities in the Solar Wind [25]
   Neukirch, T., Vasko, I. Y., Artemyev, A. V. & Allanson, O., ApJ, 891, 86
5. An Optimization Principle for Computing Stationary MHD Equilibria with Solar Wind Flow [6]
   Wiegelmann, Thomas, Neukirch, Thomas, Nickeler, Dieter H. & Chifu, Iulia, Solar Physics, 295, 145

2019

1. Analytical Three-dimensional Magnetohydrostatic Equilibrium Solutions for Magnetic Field Extrapolation Allowing a Transition from Non-force-free to Force-free Magnetic Fields [9]
   Neukirch, Thomas & Wiegelmann, Thomas, Solar Physics, 294, 171
2. Magnetohydrodynamics of laboratory and astrophysical plasmas: by H. Goedbloed, R. Keppens and S. Poedts, Cambridge, Cambridge University Press, 2019, 974 pp., £110.00 (hardback), ISBN: 9781107123922. Scope: textbook, monograph, reference. Level: advanced undergraduate, postgraduate, early career researcher, researcher, specialist. [1]
   Neukirch, Thomas, Contemporary Physics, 60, 202

2018

1. Collisionless current sheet equilibria [13]
   Neukirch, T., Wilson, F. & Allanson, O., Plasma Physics and Controlled Fusion, 60, 014008
2. New Analytical 3D Magnetohydrostatic Equilibria for Modelling Solar Magnetic Fields [0]
   Neukirch, Thomas, essoar.10500156
3. Excitation and Evolution of Transverse Loop Oscillations by Coronal Rain [0]
   Verwichte, Erwin, Kohutova, Petra, Antolin, Patrick, Rowlands, George & Neukirch, Thomas, Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 36
4. Collisionless distribution functions for force-free current sheets: using a pressure transformation to lower the plasma beta [2]
   Wilson, F., Neukirch, T. & Allanson, O., Journal of Plasma Physics, 84, 905840309
5. Three-dimensional solutions of the magnetohydrostatic equations for rigidly rotating magnetospheres in cylindrical coordinates [3]
   Wilson, F. & Neukirch, T., Geophysical and Astrophysical Fluid Dynamics, 112, 74

2017

1. The inverse problem for collisionless plasma equilibria [0]
   Allanson, O., Troscheit, S. & Neukirch, T., arXiv:1710.04912
2. Exact Vlasov-Maxwell equilibria for asymmetric current sheets [15]
   Allanson, O., Wilson, F., Neukirch, T., Liu, Y.-H. & Hodgson, J. D. B., Geophysical Research Letters, 44, 8685
3. Can Substorm Particle Acceleration Be Applied to Solar Flares? [15]
   Birn, J., Battaglia, M., Fletcher, L., Hesse, M. & Neukirch, T., ApJ, 848, 116
4. Particle acceleration with anomalous pitch angle scattering in 2D magnetohydrodynamic reconnection simulations [10]
   Borissov, A., Kontar, E. P., Threlfall, J. & Neukirch, T., A&A, 605, A73
5. A combined theory for magnetohydrodynamic equilibria with anisotropic pressure and magnetic shear [0]
   Hodgson, J. D. B. & Neukirch, T., Journal of Physics A Mathematical General, 50, 105501
6. Particle Acceleration Due to Coronal Non-null Magnetic Reconnection [7]
   Threlfall, James, Neukirch, Thomas & Parnell, Clare Elizabeth, Solar Physics, 292, 45
7. Kinematics of coronal rain in a transversely oscillating loop: Ponderomotive force and rain-excited oscillations [26]
   Verwichte, E., Antolin, P., Rowlands, G., Kohutova, P. & Neukirch, T., A&A, 598, A57
8. Magneto-static Modeling from Sunrise/IMaX: Application to an Active Region Observed with Sunrise II [24]
   Wiegelmann, T., Neukirch, T., Nickeler, D. H., Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., Riethmüller, T. L., van Noort, M., Blanco Rodríguez, J., Del Toro Iniesta, J. C., Orozco Suárez, D., Schmidt, W., Martínez Pillet, V. & Knölker, M., ApJS, 229, 18
9. Force-free collisionless current sheet models with non-uniform temperature and density profiles [3]
   Wilson, F., Neukirch, T. & Allanson, O., Physics of Plasmas, 24, 092105

2016

1. Neutral and non-neutral collisionless plasma equilibria for twisted flux tubes: The Gold-Hoyle model in a background field [14]
   Allanson, O., Wilson, F. & Neukirch, T., Physics of Plasmas, 23, 092106
2. From one-dimensional fields to Vlasov equilibria: theory and application of Hermite polynomials [15]
   Allanson, O., Neukirch, T., Troscheit, S. & Wilson, F., Journal of Plasma Physics, 82, 905820306
3. Particle Acceleration in Collapsing Magnetic Traps with a Braking Plasma Jet [15]
   Borissov, Alexei, Neukirch, Thomas & Threlfall, James, Solar Physics, 291, 1385
4. Magnetohydrostatic modelling of stellar coronae [6]
   MacTaggart, D., Gregory, S. G., Neukirch, T. & Donati, J.-F., MNRAS, 456, 767
5. Particle dynamics in a non-flaring solar active region model [15]
   Threlfall, J., Bourdin, Ph.-A., Neukirch, T. & Parnell, C. E., A&A, 587, A4
6. Particle acceleration at reconnecting separator current layers [13]
   Threlfall, J., Stevenson, J. E. H., Parnell, C. E. & Neukirch, T., A&A, 585, A95
7. Particle-in-cell simulations of collisionless magnetic reconnection with a non-uniform guide field [20]
   Wilson, F., Neukirch, T., Hesse, M., Harrison, M. G. & Stark, C. R., Physics of Plasmas, 23, 032302

2015

1. Particular solutions of the inverse problem for 1D Vlasov-Maxwell equilibria using Hermite polynomials [1]
   Allanson, O., Neukirch, T., Troscheit, S. & Wilson, F., arXiv:1508.07925
2. An exact collisionless equilibrium for the Force-Free Harris Sheet with low plasma beta [27]
   Allanson, O., Neukirch, T., Wilson, F. & Troscheit, S., Physics of Plasmas, 22, 102116
3. On the theory of translationally invariant magnetohydrodynamic equilibria with anisotropic pressure and magnetic shear [6]
   Hodgson, J. D. B. & Neukirch, T., Geophysical and Astrophysical Fluid Dynamics, 109, 524
4. Particle acceleration at a reconnecting magnetic separator [15]
   Threlfall, J., Neukirch, T., Parnell, C. E. & Eradat Oskoui, S., A&A, 574, A7
5. Magneto-static Modeling of the Mixed Plasma Beta Solar Atmosphere Based on Sunrise/IMaX Data [26]
   Wiegelmann, T., Neukirch, T., Nickeler, D. H., Solanki, S. K., Martínez Pillet, V. & Borrero, J. M., ApJ, 815, 10

2014

1. Particle energisation in a collapsing magnetic trap model: the relativistic regime [9]
   Eradat Oskoui, S. & Neukirch, T., A&A, 567, A131
2. Loss cone evolution and particle escape in collapsing magnetic trap models in solar flares [8]
   Eradat Oskoui, Solmaz, Neukirch, Thomas & Grady, Keith James, A&A, 563, A73

2012

1. A systematic examination of particle motion in a collapsing magnetic trap model for solar flares [25]
   Grady, K. J., Neukirch, T. & Giuliani, P., A&A, 546, A85
2. Solar Particle Acceleration Radiation and Kinetics (SPARK). A mission to understand the nature of particle acceleration [4]
   Matthews, Sarah A., Williams, David R., Klein, Karl-Ludwig, Kontar, Eduard P., Smith, David M., Lagg, Andreas, Krucker, Sam, Hurford, Gordon J., Vilmer, Nicole, MacKinnon, Alexander L., Zharkova, Valentina V., Fletcher, Lyndsay, Hannah, Iain G., Browning, Philippa K., Innes, Davina E., Trottet, Gerard, Foullon, Clare, Nakariakov, Valery M., Green, Lucie M., Lamoureux, Herve, Forsyth, Colin, Walton, David M., Mathioudakis, Mihalis, Gandorfer, Achim, Martinez-Pillet, Valentin, Limousin, Olivier, Verwichte, Erwin, Dalla, Silvia, Mann, Gottfried, Aurass, Henri & Neukirch, Thomas, Experimental Astronomy, 33, 237
3. Collisionless distribution function for the relativistic force-free Harris sheet [11]
   Stark, C. R. & Neukirch, T., Physics of Plasmas, 19, 012115

2011

1. The Diffusion Region in Collisionless Magnetic Reconnection [135]
   Hesse, Michael, Neukirch, Thomas, Schindler, Karl, Kuznetsova, Masha & Zenitani, Seiji, Space Science Reviews, 160, 3
2. A family of one-dimensional Vlasov-Maxwell equilibria for the force-free Harris sheet [21]
   Wilson, F. & Neukirch, T., Physics of Plasmas, 18, 082108

2010

1. Three-dimensional solutions of the magnetohydrostatic equations: Rigidly rotating magnetized coronae in spherical geometry [5]
   Al-Salti, N. & Neukirch, T., A&A, 520, A75
2. Three-dimensional solutions of the magnetohydrostatic equations: rigidly rotating magnetized coronae in cylindrical geometry [6]
   Al-Salti, N., Neukirch, T. & Ryan, R., A&A, 514, A38
3. On the Relationship between Equilibrium Bifurcations and Ideal MHD Instabilities for Line-Tied Coronal Loops [4]
   Neukirch, T. & Romeou, Z., Solar Physics, 261, 87
4. The Magnetic Universe: The Elusive Traces of an Invisible Force [0]
   Zirker, J. B. & Neukirch, Thomas, Physics Today, 63, 51

2009

1. Stationary Magnetohydrodynamic Models of Three-Dimensional Rigidly Rotating Magnetized Coronae [0]
   Al-Salti, Nasser & Neukirch, Thomas, 15th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun (Editors: Stempels, Eric), American Institute of Physics Conference Series, 1094, p. 760
2. Energy Release and Transfer in Solar Flares: Simulations of Three-Dimensional Reconnection [55]
   Birn, J., Fletcher, L., Hesse, M. & Neukirch, T., ApJ, 695, 1151
3. An extension of the theory of kinematic MHD models of collapsing magnetic traps to 2.5D with shear flow and to 3D [13]
   Grady, K. J. & Neukirch, T., A&A, 508, 1461
4. Kinematic MHD Models of Collapsing Magnetic Traps: Extension to 3D [0]
   Grady, Keith J. & Neukirch, Thomas, 15th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun (Editors: Stempels, Eric), American Institute of Physics Conference Series, 1094, p. 740
5. Some remarks on one-dimensional force-free Vlasov-Maxwell equilibria [28]
   Harrison, M. G. & Neukirch, T., Physics of Plasmas, 16, 022106
6. Theory of 1D Vlasov-Maxwell Equilibria [0]
   Harrison, Michael G. & Neukirch, Thomas, 15th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun (Editors: Stempels, Eric), American Institute of Physics Conference Series, 1094, p. 744
7. One-Dimensional Vlasov-Maxwell Equilibrium for the Force-Free Harris Sheet [59]
   Harrison, Michael G. & Neukirch, Thomas, Physical Review Letters, 102, 135003
8. A detailed investigation of the properties of a Vlasov-Maxwell equilibrium for the force-free Harris sheet [33]
   Neukirch, T., Wilson, F. & Harrison, M. G., Physics of Plasmas, 16, 122102
9. Three-dimensional analytical magnetohydrostatic equilibria of rigidly rotating magnetospheres in cylindrical geometry [7]
   Neukirch, Thomas, Geophysical and Astrophysical Fluid Dynamics, 103, 535

2008

1. Energy Release and Transport in Solar Flares: Three-Dimensional MHD Simulations [0]
   Birn, J., Birn, J., Fletcher, L., Hesse, M. & Neukirch, T., European Solar Physics Meeting (Editors: Peter, H.), European Solar Physics Meeting, 12, p. 3.33
2. A first step in reconstructing the solar corona self-consistently with a magnetohydrostatic model during solar activity minimum [35]
   Ruan, P., Wiegelmann, T., Inhester, B., Neukirch, T., Solanki, S. K. & Feng, L., A&A, 481, 827

2007

1. TOPICAL REVIEW: On the relationship between ELM filaments and solar flares [43]
   Fundamenski, W., Naulin, V., Neukirch, T., Garcia, O. E. & Rasmussen, J. Juul, Plasma Physics and Controlled Fusion, 49, R43
2. Optimization approach for the computation of magnetohydrostatic coronal equilibria in spherical geometry [38]
   Wiegelmann, T., Neukirch, T., Ruan, P. & Inhester, B., A&A, 475, 701

2006

1. An optimization principle for the computation of MHD equilibria in the solar corona [59]
   Wiegelmann, T. & Neukirch, T., A&A, 457, 1053
2. Testing non-linear force-free coronal magnetic field extrapolations with the Titov-Démoulin equilibrium [27]
   Wiegelmann, T., Inhester, B., Kliem, B., Valori, G. & Neukirch, T., A&A, 453, 737

2005

1. Forced magnetic reconnection [101]
   Birn, J., Galsgaard, K., Hesse, M., Hoshino, M., Huba, J., Lapenta, G., Pritchett, P. L., Schindler, K., Yin, L., Büchner, J., Neukirch, T. & Priest, E. R., Geophysical Research Letters, 32, L06105
2. Particle Motion in Collapsing Magnetic Traps in Solar Flares. I. Kinematic Theory of Collapsing Magnetic Traps [30]
   Giuliani, Paolo, Neukirch, Thomas & Wood, Paul, ApJ, 635, 636
3. Theory of Energy Storage and Release in the Solar Corona [1]
   Neukirch, T., The Dynamic Sun: Challenges for Theory and Observations (Editors: Danesy, D., Poedts, S., de Groof, A. & Andries, J.), ESA Special Publication, 11, p. 31.1
4. Magnetic Field Extrapolation [0]
   Neukirch, T., Chromospheric and Coronal Magnetic Fields (Editors: Innes, D. E., Lagg, A. & Solanki, S. A.), ESA Special Publication, 596, p. 12.1
5. Steady 2D prominence-like solutions of the MHD equations with field-aligned compressible flow [10]
   Petrie, G. J. D., Tsinganos, K. & Neukirch, T., A&A, 429, 1081
6. A simple model for the saturation of coronal X-ray emission of rapidly rotating late-type stars [8]
   Ryan, R. D., Neukirch, T. & Jardine, M., A&A, 433, 323
7. Electron Acceleration in Reconnecting Current Sheets [94]
   Wood, Paul & Neukirch, Thomas, Solar Physics, 226, 73

2004

1. Magnetic Reconnection and Extraplanar Diffuse Ionized Gas [1]
   Birk, Guido T., Lesch, Harald & Neukirch, Thomas, Astrophysics and Space Science, 289, 359
2. Compressible 2D MHD modelling of prominence dips [0]
   Petrie, G. J. D., Tsinganos, K. & Neukirch, T., astro-ph/0402637
3. On the Application of Numerical Bifurcation Analysis Versus Linear Stability Theory to Coronal Loop Equilibria [0]
   Romeou, Z. & Neukirch, T., Hellenic Astronomical Society Sixth Astronomical Conference (Editors: Laskarides, Paul), p. 41

2003

1. A Quantitative Method to Optimise Magnetic Field Line Fitting of Observed Coronal Loops [37]
   Carcedo, L., Brown, D. S., Hood, A. W., Neukirch, T. & Wiegelmann, T., Solar Physics, 218, 29
2. Magnetic Pinching of Hyperbolic Flux Tubes. II. Dynamic Numerical Model [70]
   Galsgaard, K., Titov, V. S. & Neukirch, T., ApJ, 595, 506
3. Negative specific heat of a magnetically self-confined plasma torus [43]
   Kiessling, Michael K.-H. & Neukirch, Thomas, Proceedings of the National Academy of Science, 100, 1510
4. Quasistatic Magnetic Pinching of Force-free Hyperbolic Flux Tubes [0]
   Neukirch, Thomas, Titov, Vyatcheslav S. & Galsgaard, Klaus, Astronomische Nachrichten Supplement, 324, 14
5. Magnetic Pinching of Hyperbolic Flux Tubes. I. Basic Estimations [119]
   Titov, V. S., Galsgaard, K. & Neukirch, T., ApJ, 582, 1172
6. Computing nonlinear force free coronal magnetic fields [28]
   Wiegelmann, T. & Neukirch, T., Nonlinear Processes in Geophysics, 10, 313

2002

1. On the application of numerical continuation methods to the calculation of magnetostatic equilibria [7]
   Romeou, Z. & Neukirch, T., Journal of Atmospheric and Solar-Terrestrial Physics, 64, 639
2. On the relationship between MHD equilibrium bifurcations and linear stability theory for models of line-tied coronal loops [1]
   Romeou, Z. & Neukirch, T., SOLMAG 2002. Proceedings of the Magnetic Coupling of the Solar Atmosphere Euroconference (Editors: Sawaya-Lacoste, Huguette), ESA Special Publication, 505, p. 549
3. Saturation of X-ray emission in simple models of rapidly rotating stellar coronae [0]
   Ryan, R. D., Neukirch, T. & Jardine, M., Stellar Coronae in the Chandra and XMM-NEWTON Era (Editors: Favata, Fabio & Drake, Jeremy J.), Astronomical Society of the Pacific Conference Series, 277, p. 579
4. Including stereoscopic information in the reconstruction of coronal magnetic fields [56]
   Wiegelmann, T. & Neukirch, T., Solar Physics, 208, 233

2001

1. On the quasistatic development of thin current sheets in magnetotail-like magnetic fields [20]
   Becker, U., Neukirch, T. & Schindler, K., Journal of Geophysical Research, 106, 3811
2. A class of accelerated solutions of the two-dimensional ideal magnetohydrodynamic equations [6]
   Neukirch, T. & Cheung, D. L. G., Proceedings of the Royal Society of London Series A, 457, 2547
3. A Numerical Method for Studies of 3D Coronal Field Structures [3]
   Romeou, Z. & Neukirch, T., Astrophysics and Space Science Library (Editors: Hanslmeier, Arnold, Messerotti, Mauro & Veronig, Astrid), Astrophysics and Space Science Library, 259, p. 303
4. Saturation of X-ray Emission in Simple Models of Rapidly Rotating Stellar Coronae [0]
   Ryan, R. D., Neukirch, T. & Jardine, M. M., Magnetic Fields Across the Hertzsprung-Russell Diagram (Editors: Mathys, G., Solanki, S. K. & Wickramasinghe, D. T.), Astronomical Society of the Pacific Conference Series, 248, p. 251
5. Tests and limits of Vlasov code simulations and its application to null-helicity and co-helicity reconnection [0]
   Wiegelmann, T., Neukirch, T. & Büchner, J., Space Plasma Simulation (Editors: Büchner, J., Dum, C. T. & Scholer, M.), p. 58

2000

1. Generalization of a special class of time-dependent solutions of the two-dimensional magnetohydrodynamic equations to arbitrary pressure profiles [4]
   Neukirch, Thomas & Priest, E. R., Physics of Plasmas, 7, 3105
2. The Green's function method for a special class of linear three-dimensional magnetohydrostatic equilibria [35]
   Petrie, G. J. D. & Neukirch, T., A&A, 356, 735
3. Helmet Streamers with Triple Structures: Simulations of resistive dynamics [22]
   Wiegelmann, Thomas, Schindler, Karl & Neukirch, Thomas, Solar Physics, 191, 391

1999

1. A New Approach for the Numerical Calculation of Non-Linear Force-Free Fields [1]
   Neukirch, T., Magnetic Fields and Solar Processes (Editors: Wilson, A. & et al.), ESA Special Publication, 448, p. 723
2. A new method for calculating a special class of self-consistent three-dimensional magnetohydrostatic equilibria [24]
   Neukirch, Thomas & Rastätter, Lutz, A&A, 348, 1000
3. Steady flows in 3D magnetic structures in the solar atmosphere. [0]
   Petrie, G. & Neukirch, T., JOSO Annu. Rep., 1998, p. 112
4. The Green's Function Method for a Special Class of Magnetohydrostatic Equilibria [0]
   Petrie, G. J. D. & Neukirch, T., Magnetic Fields and Solar Processes (Editors: Wilson, A. & et al.), ESA Special Publication, 448, p. 865
5. Self-consistent three-dimensional steady state solutions of the MHD equations with field-aligned incompressible flow [22]
   Petrie, Gordon J. D. & Neukirch, Thomas, Geophysical and Astrophysical Fluid Dynamics, 91, 269
6. Self-consistent Models of Solar Magnetic Structures in Three Dimensions [5]
   Romeou, Z. & Neukirch, T., Magnetic Fields and Solar Processes (Editors: Wilson, A. & et al.), ESA Special Publication, 448, p. 871

1998

1. Towards a self-consistent model for the convective auroral electrojet [0]
   Becker, U., Birk, G. T., Neukirch, T. & Dreher, J., Physica Scripta Volume T, 74, 54
2. Localized magnetic reconnection as a cause of extraplanar diffuse ionized gas in the Galactic halo [25]
   Birk, G. T., Lesch, H. & Neukirch, T., MNRAS, 296, 165
3. Magnetic Reconnection and Extraplanar Diffuse Ionized Gas [0]
   Birk, G. T., Lesch, H. & Neukirch, T., IAU Colloquium 166: The Local Bubble and Beyond (Editors: Breitschwerdt, Dieter, Freyberg, Michael J. & Truemper, Joachim), p.539
4. Numerical studies on the dynamics of the ionospheric current system [0]
   Birk, G. T., Becker, U., Dreher, J. & Neukirch, T., Advances in Space Research, 22, 1369
5. An approximate self-consistent theory of the magnetic field of fluted penumbrae [4]
   Neukirch, T. & Martens, P. C. H., A&A, 332, 1075
6. Self-consistent models of incompressible stationary reconnection by weakly two dimensional extension of magnetic annihilation [1]
   Neukirch, Thomas, Physica Scripta Volume T, 74, 30
7. Helmet Streamers with Triple Structures: Weakly Two-Dimensional Stationary States [19]
   Wiegelmann, Thomas, Schindler, Karl & Neukirch, Thomas, Solar Physics, 180, 439

1997

1. Three-dimensional numerical study of converging flux events. [14]
   Dreher, J., Birk, G. T. & Neukirch, T., A&A, 323, 593
2. 3D solar magnetohydrostatic structures [4]
   Neukirch, T., Physics and Chemistry of the Earth, 22, 405
3. Three dimensional simulation studies on bright points in the solar corona [5]
   Neukirch, T., Dreher, J. & Birk, G. T., Advances in Space Research, 19, 1861
4. Nonlinear self-consistent three-dimensional arcade-like solutions of the magnetohydrostatic equations. [25]
   Neukirch, T., A&A, 325, 847
5. Structure and collapse of three-dimensional magnetic neutral points [42]
   Parnell, C. E., Neukirch, T., Smith, J. M. & Priest, E. R., Geophysical and Astrophysical Fluid Dynamics, 84, 245
6. Magnetic reconnection in a magnetosphere-accretion-disk system. Axisymmetric stationary states and two-dimensional reconnection simulations. [6]
   Rastaetter, L. & Neukirch, T., A&A, 323, 923

1996

1. Self-consistent magnetohydrodynamic equilibria for the closure of field-aligned currents in the ionosphere [8]
   Becker, U., Neukirch, T. & Birk, G. T., Physics of Plasmas, 3, 1452
2. Three-Dimensional Numerical Studies on Coronal Heating of X-Ray Bright Points [6]
   Birk, G. T., Dreher, J. & Neukirch, T., Astronomical Society of the Pacific Conference Series (Editors: Bentley, R. D. & Mariska, J. T.), Astronomical Society of the Pacific Conference Series, 111, p. 89
3. Some remarks on two-dimensional incompressible stationary reconnection [5]
   Neukirch, T. & Priest, E. R., Physics of Plasmas, 3, 3188
4. `Substorms' in the corona and preliminary results from SOHO (Invited) [0]
   Neukirch, T., International Conference on Substorms (Editors: Rolfe, E. J. & Kaldeich, B.), ESA Special Publication, 389, p. 725
5. Magnetic Reconnection; Parallel Electric Fields and Particle Acceleration [2]
   Neukirch, T., Astronomical Society of the Pacific Conference Series (Editors: Bentley, R. D. & Mariska, J. T.), Astronomical Society of the Pacific Conference Series, 111, p. 286
6. The structure of three-dimensional magnetic neutral points [231]
   Parnell, C. E., Smith, J. M., Neukirch, T. & Priest, E. R., Physics of Plasmas, 3, 759

1995

1. Quasi-equilibria: A special class of time-dependent solutions of the two-dimensional magnetohydrodynamic equations [6]
   Neukirch, T., Physics of Plasmas, 2, 4389
2. A stationary fluid model of field-aligned electric fields and closure of Birkeland currents [5]
   Neukirch, T., Birk, G. T., Finger, K. & Schindler, K., Journal of Geophysical Research, 100, 23647
3. On self-consistent three-dimensional analytic solutions of the magnetohydrostatic equations. [55]
   Neukirch, T., A&A, 301, 628

1994

1. Theoretical Study of Onset Conditions for Solar Eruptive Processes - Influence of the Boundaries [27]
   Platt, U. & Neukirch, T., Solar Physics, 153, 287
2. Numerical bifurcation study of a nonlinear current sheet model [15]
   Schröer, A., Neukirch, T., Kiessling, M., Hesse, M. & Schindler, K., Physics of Plasmas, 1, 213

1993

1. New results of an analytic theory of self-propagating star formation. [0]
   Neukirch, T., Star Formation, Galaxies and the Interstellar Medium (Editors: Franco, J., Ferrini, F. & Tenorio-Tagle, G.), p. 381
2. Deformation of a magnetic dipole field by trapped particles [18]
   Neukirch, T., Journal of Geophysical Research, 98, 3753
3. Equilibria of charge-separated rigidly rotating relativistic magnetospheres [34]
   Neukirch, T., A&A, 274, 319
4. Bifurcation Analysis of a Simple Analytic Model of Self-propagating Star Formation [15]
   Neukirch, Thomas & Hesse, Michael, ApJ, 411, 840

1991

1. Zur kinetischen Theorie rotierender Magnetosphären mit Anwendung auf relativistische und nichtrelativistische Systeme. [5]
   Neukirch, T.,

1988

1. Models for axially symmetric pulsar magnetospheres. [0]
   Neukirch, T., Physik Kosmischer Plasmen (Editors: Moebius, Eberhard), p. 98
2. Models for axially symmetric pulsar magnetospheres [0]
   Neukirch, T., Cosmology and Particle Physics (Editors: Fang, Li-Zhi & Zee, A.), p. 98
3. An analytic theory of self-propagating star formation. [10]
   Neukirch, Thomas & Feitzinger, Johannes V., MNRAS, 235, 1343