apl. Prof. Dr. Matthias Kunik
apl. Prof. Dr. Matthias Kunik
Instiut für Analysis und Numerik
Research Interests
- theoretical and numerical investigations for systems of hyperbolic conservation laws
- kinetic theory of gases, classical and relativistic theory
- micro-macro transitions and continuum mechanics
- Electromagnetic diffraction theory; scalar and vectorial pseudodifferential operators on Sobolev spaces:
- Number theory
- formal languages and mathematical logic
| Name: | apl. Prof. Dr. Matthias Kunik |
|
Marital status: |
married with Marie-Paulette Kunik |
Degrees |
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| 2005 | Habilitation (second thesis) "Selected Initial and boundary value problems for hyperbolic systems and kinetic equations" Mathematical Faculty, Otto-von-Guericke-University Magdeburg. |
| 1989 | Dr. rer. nat, summa cum laude Universität Stuttgart, Deutschland "Über die schwachen Lösungen skalarer hyperbolischen Erhaltungsgleichungen in der Theorie der Sedimentation" |
| 1987 | Diploma in Mathematics, summa cum laude, Technische Universität Clausthal, Deutschland |
Positions: |
|
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12/2000 |
Member of the " Institut für Analysis und Numerik" Otto-von-Guericke-University Magdeburg |
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02/1997 - 11/2000 |
Member of the research group " Kontinuumsmechanik WIAS (Berlin) " |
previous lectures
| WiSe 2022/23 | Analysis III für MathIng und Physik (V4) |
| WiSe 2022/23 | Mathematik 1 für Ingenieure (Stg B) (V4) |
| WiSe 2022/23 | Symmetrie und Invarianz I (V2) |
| SoSe 2022 | Analysis II für AS, BB, LA, MaIng und PH (V4) |
| SoSe 2022 | Elementare Zahlentheorie (V4) |
| WiSe 2021/2022 | Analysis III für MathIng und Physik (V4+Ü2) |
| WiSe 2021/2022 | Mathematik 2b für Ingenieure (Stg B) |
| SoSe 2021 | Mathematik 2a für Ing. (Stg B) (V4) |
| SoSe 2021 | Modellierung 1 (FMA) (V2+Ü1) |
| WiSe 2020/2021 | Analysis III für MathIng und Physik (V4) |
| WiSe 2020/2021 | Mathematik 1 für Ingenieure (Stg B) (V5) |
| SoSe 2020 | Dynamische Systeme (V4) |
| SoSe 2020 | Modellierung 1 (FMA) (V1+Ü1) |
| WiSe 2019/2020 | Analysis III für MathIng und Physik (V4+Ü2) |
| WiSe 2019/2020 | Mathematik 2b für Ingenieure (Stg B) (V2) |
| SoSe 2019 | Mathematik 2a für Ing. (Stg B) (V4) |
| SoSe 2019 | Modellierung 1 (FMA) (V2+Ü1) |
| WiSe 2018/19 | Analysis III für MathIng und Physik (V4) |
| WiSe 2018/19 | Mathematik 1 für Ingenieure (Stg B) (V5) |
| SoSe 2018 | Analytische Zahlentheorie (V4) |
| SoSe 2018 | Proseminar Zahlentheorie (Pro 2) |
| SoSe 2018 | Seminar Zahlentheorie (S2) |
| WiSe 2017/18 | Analysis III für MathIng und Physik (V4+Ü2+Ü2) |
| WiSe 2017/18 | Mathematik 2b für Ingenieure (Stg B)(V2) |
| SoSe 2017 | Elementare Zahlentheorie (V3+Ü1) |
| SoSe 2017 | Mathematik 2a für Ingenieure (Stg B) (V4) |
| WiSe 2016/17 | Analysis III für MathIng und Physik (V4) |
| WiSe 201/17 | Mathematik 1 für Ingenieure (Stg B) (V5) |
| SoSe 2016 | Dynamische Systeme (V4) |
| SoSe 2016 | Funktionentheorie (V3+Ü1) |
| WiSe 2015/16 | Analysis III für Physiker (V4+Ü2) |
| WiSe 2015/16 | Mathematik II/2 - Grundkurs W.-Ing., BB und SPTE (V2) |
| SoSe 2015 | Elementare Zahlentheorie (V4+Ü2) |
| SoSe 2015 | Mathematik II/1 - Wirtsch.-Ingenieure, BG und SPTE (V3) |
| WiSe 2014/15 | Analysis III für Physiker (V4) |
| WiSe 2014/15 | Lineare Algebra für LA und PH (V4) |
| SoSe 2014 | Funktionentheorie (V3+Ü1) |
| SoSe 2014 | Dynamische Systeme (V4) |
| WiSe 2013/14 | Analysis III für Physiker (V4+Ü2) |
| WiSe 2013/14 | Mathematik II/2 - Grundkurs W.-Ing., BG und SPTE (V2) |
| SoSe 2013 | Dynamische Systeme (V4) |
| SoSe 2013 | Mathematik II/1 - Wirtsch.-Ingenieure, BG und SPTE (V3) |
| WiSe 2012/13 | Analysis III für Physiker (V4) |
| WiSe 2012/13 | Mathematik I - Grundkurs W.-Ing., BG und SPTE (V4) |
| SoSe 2012 | Dynamische Systeme (V4) |
| SoSe 2012 | Numerik hyperbolischer Erhaltungsgleichungen (V4) |
| WiSe 2011/12 | Analysis III für Physiker (V4) |
| WiSe 2011/12 | Lineare Algebra für FNW und FGSE (V4) |
| SoSe 2011 | Mathematik IV für Physiker(V4+Ü2) |
| SoSe 2011 | Mathematik IV für Wirtschaftsinformatiker und Informatiker - Teil Logik(V1) |
| WiSe 2010/211 | Mathematik III für Physiker (V5+Ü2). |
| SoSe 2010 | Mathematik IV für Physiker (V4+Ü2 |
| SoSe 2010 | Mathematik IV für Wirtschaftsinformatiker und Informatiker-Teil Logik (V1) |
| SoSe 2010 | Fourieranalysis (Pro2) |
| WiSe 2009/10 | Mathematik III für Physiker (V5+Ü2) |
| WiSe 2009/10 | Analytische Zahlentheorie: Riemannsche Zetafunktion, L-Funktionen und Primzahlverteilung (S2) |
| SoSe 2009 | Funktionentheorie (V3+Ü1) |
| SoSe 2009 | Mathematik IV für Wirtschaftsinformatiker und Informatiker-Teil Logik (V1) |
| SoSe 2009 | Analytische Zahlentheorie (Pro2) |
| WiSe 2008/09 | Lineare Algebra für Physiker und Berufsschullehrer(V4+Ü2) |
| SoSe 2008 | Dynamische Systeme: Gewöhnliche Differentialgleichungen II (V4) |
| SoSe 2008 | Mathematik IV für Physiker (V4) |
| SoSe 2008 | Mathematik IV für Wirtschaftsinformatiker und Informatiker-Teil Logik (V1) |
| WiSe 2007/08 | Differentialgeometrie (Ü2) |
| WiSe 2007/08 | Mathematik III für Physiker (V5+Ü2) |
| SoSe 2007 | Mathematik IV für Physiker (V4) |
| SoSe 2007 | Fourieranalysis (Pro2) |
Selected Papers
-
- Electromagnetic diffraction theory; scalar and vectorial pseudodifferential operators on Sobolev spaces:
"On energy conditions for electromagnetic diffraction by apertures'' (PDF file), with N. Gorenflo, ISRN Mathematical Physics (2011). - Number theory:
Lehrbuch mit Y. Abramchuk and A. Bondarava : `"Elementare Zahlentheorie" (2018)
(PDF-File, im arXiv unter https://arxiv.org/pdf/1809.09710 frei verfübar).
Lehr- und Übungsmaterial zur Kettenbruchentwicklung,
"Charakterisierung der Riemannschen Hypothese mit Hilfe eines Hilbertschen Folgenraumes'' (PDF file),
(Preprint Nr. 20/2011, Otto-von-Guericke-Universität Magdeburg).
"Farey-Sequenzen'' (PDF file), (Preprint Nr. 1/2012, Otto-von-Guericke-Universität Magdeburg).
"On the formulas for pi(x) and psi(x) of Riemann and von-Mangoldt'' (PDF file), (Preprint Nr. 09/2005, Otto-von-Guericke-Universität Magdeburg). - Lehrbuch mit Piotr Skrzypacz: "Höhere Analysis durch Anwendungen lernen''. Errata zu diesem Lehrbuch: errata.pdf (PDF file).
- ''Habilitationsschrift im Rahmen des DFG-Schwerpunkt-Programms ANumE mit dem Titel "Selected initial and boundary value problems for hyperbolic systems and kinetic equations'' (PDF file) (Preprint Nr. 23/2004, Otto-von-Guericke-Universität Magdeburg).
- formal languages and mathematical logic
Formal mathematical systems including a structural induction principle,
Preprint arXiv:2005.04951
Further results and examples for formal mathematical systems with structural induction
Preprint arXiv:2008.07385
"Manuskript zum Vollständigkeitssatz und zum Satz von Löwenheim/Skolem für formale mathematische Systeme" (PDF file)
- Electromagnetic diffraction theory; scalar and vectorial pseudodifferential operators on Sobolev spaces:
Publications
2024
Radially symmetric solutions of the ultra-relativistic Euler equations in several space dimensions.
with A. Kolb, S. Müller, F. Thein
https://doi.org/10.1016/j.jcp.2024.113330
On the downward Löwenheim-Skolem Theorem for elementary submodels.
http://dx.doi.org/10.25673/115368
Typos. Section 3, first lines in 6.3 and 6.4 for the definition of a model: Replace in both cases the membership symbol with the word "of".
Update Version is also available on https://arxiv.org/abs/2406.03860
2023
Reduced Set Theory.
Preprint arXiv:2311.18551
https://doi.org/10.48550/arXiv.2311.18551
2021
Radially symmetric solutions of the ultra-relativistic Euler equations.
mit H. Liu, G. Warnecke: Methods and Applications of Analysis Volume 28 (4), 401-422 (2021).
Dedicated to Professor Hsiao Ling on the occasion of her 80th birthday.
2020
New insight into results of Ostrowski and Lang on sums of remainders using Farey sequences.
Online Journal of Analytic Combinatorics, Issue 15, #11 (2020). (PDF file)
Further results and examples for formal mathematical systems with structural induction
Preprint arXiv:2008.07385 (2020).
2018
Lehrbuch: "Elementare Zahlentheorie"
mit Y. Abramchuk, A. Bondarava, Preprint arXiv:1809.09710 (2018).
A scaling property of Farey Fractions. Part IV: mean value formulas.
Eur. J. Math. 4(4), 1549-1559 (2018).
2017
A scaling property of Farey Fractions. Part III: representation formulas.
Eur. J. Math. 3(2), 363-378 (2017).
Revisiting energy dissipation due to elastic waves at impact of spheres on large thick plates.
with R. Böttcher, S. Eichmann, A. Russell, P. Müller ,International journal of impact engineering - Amsterdam [u.a.]: Elsevier Science, Bd. 104, 45-54 (2017).
2016
A scaling property of Farey Fractions. Part II: convergence at rational points.
Eur. J. Math. 2(3), 886-896 (2016).
A scaling property of Farey Fractions.
Eur. J. Math. 2(2), 383-417 (2016).
2014
Lehrbuch "Höhere Analysis durch Anwendungen lernen''
with Piotr Skrzypacz, Springer Sektrum, ISBN 978-3-658-02265-5, (2014).
The ultra-relativistic Euler equations
with Mahmoud A.E. Abdelrahman, Math. Meth. Appl. Sci..doi:10.1002/mma.3141, (2014).
The interaction of waves for the ultra-relativistic Euler equations
with Mahmoud A.E. Abdelrahman, Journal of Mathematical Analysis and Applications 2014|409|2|1140-1158, (2014).
A new front tracking scheme for the ultra-relativistic Euler equations
with Mahmoud A.E. Abdelrahman, Journal of Computational Physics, pages 213-235 (2014).
2012
On energy conditions for electromagnetic diffraction by apertures
with N. Gorenflo, ISRN Mathematical Physics, Vol. 2012 (2012), (PDF-file).
Power series with the von Mangoldt function
with Lutz G. Lucht, Functiones et Approximatio 47.1, pages 15-33, (2012).
A new and self-contained presentation of the theory of boundary operators for slit diffraction and their logarithmic approximations
mit N. Gorenflo, Mathematische Nachrichten, Vol. 285, Issue 1, pages 74-102, (2012).
2010
Explicit solution formulas for the acoustic diffraction problem with a slit in a hard and a soft screen: Continuous Media with Microstructure, dedicated to Prof. Dr. Krzysztof Wilmanski,
Editor: B.Albers, Springer Verlag, doi:10.1007/978-3-642-11445-8, 221-231 (2010).
2009
Logarithmic Fourier integrals for the Riemann zeta function, New Directions in value-distribution theory of Zeta- and L-functions,
Proceedings of the Würzburg Conference, October 2008. Editors: J.Steuding, R.Steuding, Shaker Publishing, 131-147 (2009).
2008
A generalized kinetic model of sedimentation of polydisperse suspensions with a continuous particle size distribution
mit Raimund Bürger and Antonio Garcia: Mathematical Models and Methods in Applied Sciences 18, no. 10, 1741-1785 (2008).
Diffraction of light revisited
mit Piotr Skrzypacz: doi:10.1002/mma.945, Mathematical Methods in the Applied Sciences 31, 793-820 (2008).
The analytical solution of two interesting hyperbolic problems as a test case for a finite volume method with a new grid refinement technique
mit Wolfram Heineken: doi:10.1016/j.cam.2007.03.008, J. Comp. Appl. Math. 214 , no. 2, 509-532 (2008).
2005
A reduction of the Boltzmann-Peierls equation
mit S. Qamar and G. Warnecke: International Journal of Computational Methods 2 , 213-229 (2005).
Kinetic schemes for selected initial and boundary value problems
mit W. Dreyer and M. Herrmann and S. Qamar: Editor G. Warnecke, Springer Verlag Berlin, Heidelberg, New York, 203-232 (2005).
2004
"Selected initial and boundary value problems for hyperbolic systems and kinetic equations", Habilitationsschrift
Otto-von-Guericke-Universität Magdeburg, Preprint 04-23 der Fakultät für Mathematik (2004).
Kinetic schemes for the relativistic gas dynamics
mit S. Qamar and G. Warnecke: Numer. Math. No. 97 159-191 (2004).
BGK-type kinetic flux vector splitting schemes for the ultra-relativistic Euler equations, with S. Qamar and G. Warnecke, J. Sci. Comput., 26, pp. 196-223, (2004).
2003
Second order accurate kinetic schemes for the ultra-relativistic Euler aquations
mit S. Qamar and G. Warnecke: Journal of Computational Physics 192, 695-726 (2003).
Kinetic schemes for the ultra-relativistic Euler equations
mit S. Qamar and G. Warnecke: Journal of Computational Physics 187, 572-596 (2003).
2001
On the approximation of the Fokker-Planck equation by moment systems
mit W. Dreyer and M. Junk: Nonlinearity 14, 881-906 (2001).
A critical look at the kinematic-wave theory for sedimentation-consolidation processes in closed vessels
mit R. Bürger: Mathematical Methods in the Applied Sciences 24, 1257-1273 (2001).
Kinetic solutions of the Boltzmann-Peierls-Equation and its moment systems
mit W. Dreyer and M. Herrmann: Berlin, WIAS Preprint, No. 709 (2001).
2000
On the approximation of kinetic equations by moment systems
mit W.Dreyer and M. Junk: Berlin, WIAS Preprint, No. 592 (2000).
Cold, thermal and oscillator closure of the atomic chain
mit W.Dreyer: Journal of Physics A: Math. Gen. , No. 33, 2097-2129 (2000).
The scaling of time and space in micro-macro transitions: Contributions to Continuum Theories, (collected by B. Albers)
Continuum Mechanics and Thermodynamics, WIAS Report No. 18, 146-154 (2000).
Hyperbolic heat conduction
mit W.Dreyer: Trends in applications of Mathematics to Mechanics, Chapman & Hall/CRC Monographs and Surveys in Pure and Applied Mathematics, Vol. 106 (2000).
1999
Initial and boundary value problem of hyperbolic heat conduction
mit W.Dreyer: Continuum Mechanics and Thermodynamics, Vol. 11, No. 4, 227-245 (1999).
1998
Iterative procedure for multidimensional Euler equations
mit W. Dreyer, K. Sabelfeld, N. Simonov, K. Wilmanski: Monte Carlo Methods and Applications, Vol. 4, No. 3, 253-271 (1998).
Reflections of Eulerian shock waves at moving adiabatic boundaries
mit W.Dreyer: Monte Carlo Methods and Applications, Vol. 4, No. 3, 231-252 (1998).
Maximum entropy principle revisited
mit W.Dreyer: Continuum Mechanics and Thermodynamics, Vol. 10, 331-347 (1998).
1993
A solution formula for a non-convex scalar conservation law with monotone initial data
Mathematical Methods in the Applied Sciences, Vol. 16, 895-902 (1993).
1992
A numerical method for some initial value problems of one scalar hyperbolic conservation law
Mathematical Methods in the Applied Sciences, Vol. 15, 495-509 (1992).