Dieses Bild zeigt Marcel Griesemer

Prof. Dr.

Marcel Griesemer

Prüfungsausschussvorsitzender Master Mathematik / Leiter der Abteilung für Analysis
Institut für Analysis, Dynamik und Modellierung
Abteilung für Analysis

Kontakt

+49 711 685-65757
Visitenkarte (VCF)

Pfaffenwaldring 57
70569 Stuttgart
Deutschland
Raum: 8.558

Sprechstunde

Freitags 13 - 14 Uhr
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Interview: Prof. Griesemer, was ist Mathematische Quantenmechanik?

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Fachgebiet

  • Spectral and Dynamical Properties of many body Quantum Systems
  • Quantum Field Theory
  • Applied Analysis
  • Operator Theory

BohrschesAtommodell

A.  Articles in refereed journals

34. Griesemer, M., Linden, U.: Spectral theory of the Fermi polaron. Ann. Henri Poincaré, 20 (2019), no. 6, 1931–1967. 
33. Griesemer, M., Linden, U.: Stability of the two-dimensional Fermi polaron. Lett. Math. Phys. 108 (2018), no. 8, 1837-1849.  
32. Griesemer, M., Wünsch A.: On the Domain of the Nelson Hamiltonian. J. Math. Phys. 59 (2018), no. 4, 042111, 21pp.
31. Griesemer, M.: On the dynamics of polarons in the strong coupling limit. Rev. Math. Phys. 29, no. 10 (2017)
30. Griesemer, M., Schmid, J., Schneider, G.: On the dynamics of the mean-field polaron in the high-frequency limit. Lett. Math. Phys. 107, no. 10, 1809-1821 (2017)
29. Schmid, J., Griesemer, M.: Well-posedness of non-autonomous linear evolution equations in uniformly convex spaces. Math. Nachr.(2016)
28. Griesemer, M., Wünsch A.: Self-adjointness and domain of the Fröhlich Hamiltonian. J. Math. Phys. , 57 (2016)
27. De Roeck W., Griesemer, M., Kupiainen A.: Asymptotic Completeness for the Massive Spin-Boson Model. Adv. Math., 268 (2015), 62 -- 84.
26. Schmid, J., Griesemer, M.: Kato's Theorem on the Integration of Non-Autonomous Linear Evolution Equations. Math. Phys. Anal. Geom., 17 (2014), no. 3-4, 265�271.
25. Anapolitanos, I., Griesemer, M.: Multipolarons in Constant Magnetic Fields. Ann. Henri Poincar�, 15 (2014) 1037--1059.
24. Griesemer, M., Wellig, D.: The strong-coupling polaron in static electric and magnetic fields. J. Phys. A: Math. Theor., 46 (2013) 425202.
23. Griesemer, M., Hantsch, F., Wellig, D.: On the Magnetic Pekar Functional and the Existence of Bipolarons. Rev. Math. Phys. 24, (2012)
22. Griesemer, M., Hantsch, F.: Unique Solutions to Hartree-Fock Equations for Closed Shell Atoms. ARMA 203, 883--900 (2012)
21. Fröhlich, J., Griesemer, M., Sigal, M.I.: Spectral Renormalization Group and Local Decay in the Standard Model of the Non-relativistic Quantum Electrodynamics. Rev. Math. Phys. 23, 179--209 (2011)
20. Griesemer, M., Zenk, H.: On the Atomic Photoeffect in Non-relativistic QED. Comm. Math. Phys. 300, 615--639 (2010)
19. Griesemer, M., Moeller, J.: Bounds on the Minimal Energy of Translation Invariant N-Polaron Systems. Comm. Math. Phys. 297, 283--297 (2010)
18. Fröhlich, J., Griesemer, M., Sigal, M.I.: On Spectral Renormalization Group. Rev. Math. Phys. 21 (2009), no. 4, 511--548.
17. Griesemer M., Hasler, D.: Analytic Perturbation Theory and Renormalization Analysis of Matter Coupled to Quantized Radiation. Ann. Henri Poincare 10 (2009), no. 3, 577--621. 2009 AHP Distinguished Paper Award
16. Griesemer M., Zenk H.: Asymptotic Electromagnetic Fields in Non-relativistic QED: the Problem of Existence Revisited. J. Math. Anal. Appl. 354 (2009) 239 - 246.
15. Griesemer M., Hasler D.: On the Smooth Feshbach-Schur Map. J. Funct. Anal., 254 (2008) 2329 - 2335.
14. Fröhlich, J., Griesemer, M., Sigal, M.I.: Spectral Theory for the Standard Model of Non-Relativistic QED. Commun. Math. Phys. 283 (2008) 613 - 646.
13. Fröhlich, J., Griesemer, M., Schlein, B.: Rayleigh Scattering at Atoms with Dynamical Nuclei. Commun. Math. Phys. 271, 387–430 (2007).
12. Fröhlich, J., Griesemer, M., Schlein, B.: Asymptotic Completeness for Compton Scattering. Commun. Math. Phys. 252, 415–476 (2004).
11. Griesemer, M.: Exponential decay and ionization thresholds in non-relativistic quantum electrodynamics. J. Funct. Anal., 210 (2004) 321–340.
10. Fröhlich, J., Griesemer, M., Schlein, B.: Asymptotic Completeness for Rayleigh Scattering. Ann. Henri Poincare, 3 (2002), no. 1, 107–170.
9. Fröhlich, J., Griesemer, M., Schlein, B.: Asymptotic Electromagnetic Fields in Models of Quantum-Mechanical Matter Interacting with the Quantized Radiation Field. Adv. Math. 164, No.2, 349–398 (2001).
8. Griesemer, M., Lieb, E., Loss, M.: Ground states in non-relativistic quantum electrodynamics. Invent. math. 145 (2001) 3, 557–595.
7. Griesemer, M., Kapuya, J.P.: Bounding Derivatives of Alternating Power Series. Alabama Journal of Mathematics 25, Number 1 (2001), 17–22.
6. Griesemer, M., Lewis, R.T., Siedentop, H.: A minimax principle for eigenvalues in spectral gaps: Dirac operators with Coulomb potentials. Documenta Math. 4 (1999) 275–283.
5. Griesemer, M., Tix, C.: Instability of a pseudo-relativistic model of matter with self-generated magnetic field. J. Math. Phys., vol. 40, 4, 1780–1791 (1999).
4. Griesemer, M., Lutgen, J.: Accumulation of discrete eigenvalues of the radial Dirac operator. J. Functional Analysis, 162, 120–134 (1999).
3. Griesemer, M., Siedentop, H.: A minimax principle for the eigenvalues in spectral gaps. J. London Math. Soc., (2) 60 (1999) 490–500.
2. Griesemer, M.: N-body quantum systems with singular potentials. Ann. Inst. Henri Poincare, physique theorique, Vol. 69, no 2, 1998, p. 135–187. PDF
1. Griesemer, M.: Exponential bounds for continuum eigenfunctions of N-body Schrödinger operator. Helv. Phys. Acta 70 (1997) 854–857. PDF

B.  Proceeding articles

1. Griesemer, M.: A minimax principle for eigenvalues in spectral gaps. In: Differential Equations and Mathematical Physics, AMS/IP Studies in Advanced Mathematics, Vol. 16. (proceedings of the UAB-GIT ICDEMP 1999).
2. Griesemer, M.: Non-relativistic Matter and Quantized Radiation. In: Lecture Notes in Physics, 695/2006. springerlink

 

   
   

Betreung Bachelor- und Masterarbeiten

Lectures

SoSe 2021 HM II für El., Phys., Kyb., Mecha.
WiSe 2020/21 HM I für El., Phys., Kyb., Mecha.
SoSe 2020 Spectral Theory
WiSe 2019/20 Stochastik für das Lehramt,
Funktionalanalysis
WiSe 2018/19 Höhere Mathematik 3 für el, kyb, mecha, phys
SoSe 2018 Mathematische Methoden der Quantenmechanik
WiSe 2017/18  Spectral Theory
SoSe 2017  Höhere Analysis
WiSe 2016/17 Analysis 3
SoSe 2016 Analysis 2
WiSe 2015/16 Analysis 1
SoSe 2015 Funktionenräume
SoSe 2014 Mathematische Methoden der Quantenmechanik
WiSe 2013/14 Spektraltheorie
SoSe 2013 Vielteilchenquantensysteme
WiSe 2012/13 Mathematische Methoden der Quantenmechanik
SoSe 2012 Analysis II
WiSe 2011/12 Analysis I
SoSe 2011 HM IV für El., Phys., Kyb., Mecha.
SoSe 2010 Mathematische Methoden der Quantenmechanik
HM IV für El., Phys., Kyb., Mecha. 
WiSe 2009/10 HM III für El., Phys., Kyb., Mecha. 
SoSe 2009   HM II für El., Phys., Kyb., Mecha
WiSe 2008/09 HM I für El., Phys., Kyb., Mecha.
SoSe 2008 Differentialgeometrie
Mathematische Methoden der Quantenmechanik II
WiSe 2007/08 Mathematische Methoden der Quantenmechanik I
SoSe 2007 Funktionalanalysis 
WiSe 2006/07 Analysis III
SoSe 2006 Analysis II
WiSe 2005/06  Analysis I
SoSe 2005  Höhere Analysis


Seminars

SoSe 2020 Funktionalkalkül
WiSe 2012/13   Kompakte Operatoren
SoSe 2011 Spektraltheorie und Quantenmechanik
WiSe 2007/08 Kompakte Operatoren
SoSe 2007 Kurven und Flächen
WiSe 2006/07 Analysis und klassische Mechanik
SoSe 2006 Ausgewählte Kapitel der Mathematischen Quantenphysik
WiSe 2005/06 Ungleichungen und Variationsmethoden der Quantenmechanik
  • Spectrum and Dynamics of Quantum Systems (DFG GRK 1838)
  • electron-phonon interaction in solids (DFG Projekt GR 3213/1-1)
  • Dynamics of matter and quantized radiation (US NSF, DMS-0503432)
  • Quantum mechanical matter interacting with the quantized radiation field (US NSF,DMS-0100160)
  • Stability and instability of pseudo-relativistic matter (Swiss National Science Foundation)
  • Dr. Ulrich Linden (2013-2017)
  • Dr. Andreas Wünsch (2013-2017)
  • Dipl. Math. Sebastian Stegmüller (2014-2016)
  • Dr. Jochen Schmid (2011-2015)
  • Dr. David Wellig (2009-2013)
  • Dr. Fabian Hantsch (2008-2012)
  • Dr. David Mitrouskas (2016-2019)
  • Dr. Martin Könenberg (2016)
  • Matthias Engelmann, Ph.D. (2014-2015)
  • Ioannis Anapolitanos, Ph.D. (2010-2013)
  • Joachim Kerner, Ph.D. (2013-2014)

Education

1996 Doctor of Natural Sciences, ETH Zürich, Switzerland. Advisor: Walter Hunziker
1992  Diploma in Physics from ETH Zürich

Professional Positions

Since 2005 Professor at the Universität Stuttgart, Germany
2004–2005 Associate Professor at UAB – University of Alabama at Birmingham, USA
1998–2004 Assistant Professor at UAB – University of Alabama at Birmingham, USA
1997–1998  Assistant at the University of Regensburg, Germany
1997  Research Fellow at the University of Oslo, Norway (three months), and the University of Regensburg
1992–1997 Assistant at the Institute for Theoretical Physics at ETH, Zürich

Grant Support

2013–2018 DFG Graduiertenkolleg, GRK 1838
2011–2014 DFG Sachbeihilfe, GR 3213/1-1
2010–2011 MWK Anschubfinanzierung für Graduiertenkolleg
2005–2008 NSF, DMS-0503432, PI
2001–2004 NSF, DMS-0100160, PI
1999–2000 Award from the UAB Faculty Development Program
1997–1998 Fellowship from the Swiss National Science Foundation
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