Group “Classical and Quantum Dynamical Systems”
The main research focus of the Quantum Dynamics and Spectral Analysis team is the mathematical study of problems arising in physics and their applications. Most of our activity concerns the spectral and scattering properties of models of nanostructures, models in atomic physics and particle physics in quantum field theory, the properties of solutions of the PDEs of physics, and the properties of uniqueness, stability, and reconstruction in inverse problems.
The main strengths of our scientific activity:
Nanostructures: Propagation properties of waves in optical fibers and quantum waveguides; spectral properties of differential operators on graphs; study of the semiconducting character and gap opening in graphene samples with periodic perforations.
PDEs and inverse problems: Convergence-to-equilibrium properties for dilute particle gases and regularization of solutions to the nonlinear Kac and Boltzmann equations; inverse problems in models of anomalous diffusion involving fractional-time equations (complex fluids, porous media, diffusion of pollutants in soil); inverse problems for characteristic coefficients (diffusion, absorption, etc.), with applications to waveguides, angiogenesis, Black–Scholes models, etc.
Standard Model, QFT and atomic physics: Rigorous analysis of Hamiltonians in particle physics: non-perturbative quantum electrodynamics; spectral theory for weak interaction models and muonic atoms; derivation of the Van der Waals–London laws; spectral theory in quantum field theory on de Sitter spaces and scattering theory on Lorentzian manifolds in QED; edge currents and surface states for magnetic Schrödinger operators.
| ALVAREZ | Benjamin | Research teacher | +33.4.91.26.97.92 | Contact |
| BARBAROUX | Jean-Marie | Research teacher Team leader « Quantum Dynamics and Spectral Analysis » | +33.4.91.26.95.03 | Contact |
| BRIET | Philippe | Research teacher | +33.4.91.26.95.11 | Contact |
| GOUTTENEGRE | Hugo | Ph.D. | Contact | |
| PANATI | Annalisa | Research teacher | +33.4.91.26.95.46 | Contact |
| PILLET | Claude-Alain | Research teacher | +33.4.91.26.95.32 | Contact |
| ROULEUX | Michel | Research teacher | +33.4.91.26.97.97 | Contact |
| SOCCORSI | Eric | Research teacher | +33.4.91.26.95.37 | Contact |
Semiclassical resonances associated with a periodic orbit
Matematicheskie Zametki / Mathematical Notes, 2016, 100 (5-6), pp.724-730. (10.1134/S0001434616110092)
Stark resonances in a quantum waveguide with analytic curvature
Journal of Physics A: Mathematical and Theoretical, 2016, 49 (49), pp.495202. (10.1088/1751-8113/49/49/495202)
Energy conservation and fluctuation relations for open quantum systems
Many-Body Quantum Systems and Effective Theories, Sep 2016, Oberwolfach, Germany. pp.2465-2511, (10.4171/OWR/2016/43)
Spectral analysis and resonances
Théorie spectrale [math.SP]. Université de Tunis El Manar, 2016. Français. (NNT : )
Determining the waveguide conductivity in a hyperbolic equation from a single measurement on the lateral boundary
Mathematical Control and Related Fields, 2016, 6 (3), pp.407 - 427. (10.3934/mcrf.2016009)
Dynamique moléculaire de la prédissociation
Comptes Rendus. Mathématique, 2016, 354 (9), pp.912-915. (10.1016/j.crma.2016.06.003)
Semi-classical quantization rules for a periodic orbit of hyperbolic type
Days on Diffraction (DD), 2016, Jun 2016, Saint-Petersbourg, Russia. pp.285-290, (10.1109/DD.2016.7756858)
Stability estimate for the aligned magnetic field in a periodic quantum waveguide from Dirichlet-to-Neumann map
Journal of Mathematical Physics, 2016, 57 (6), pp.061502 (10.1063/1.4953687)
Conductance and absolutely continuous spectrum of 1D samples
Communications in Mathematical Physics, 2016, 344 (3), pp.959-981. (10.1007/s00220-015-2501-y)
Analyse spectrale des guides d'ondes "twistés
Théorie spectrale [math.SP]. Université de Toulon, 2016. Français. (NNT : 2016TOUL0001)
