Meden Group

  

Some basic things on my (at present) favorite method - the functional renormalization group - you will find on the following page.

 

Selected and most recent publications

1. Nonequilibrium functional renormalization group for interacting quantum systems
   S. Jakobs, V. Meden, and H. Schoeller
   Phys. Rev. Lett. 99, 150603 (2007) (cond-mat/0702494)
2. Functional renormalization group approach to correlated fermion systems
   W. Metzner, M. Salmhofer, C. Honerkamp, V. Meden, and K. Schönhammer
   Rev. Mod. Phys. 84, 299 (2012) (arXiv:1105.5289)
3. Luttinger liquid universality in the time evolution after an interaction quench
   C. Karrasch, J. Rentrop, D. Schuricht, and V. Meden
   Phys. Rev. Lett. 109, 126406 (2012) (arXiv:1205.2091)
4. Oscillatory dynamics and non-markovian memory in dissipative quantum systems
   D. Kennes, O. Kashuba, M. Pletyukhov, H. Schoeller, and V. Meden
   Phys. Rev. Lett. 110, 100405 (2013) (arXiv:1211.0293)
5. The Anderson-Josephson quantum dot -- A theory perspective
   V. Meden
   J. Phys.: Condens. Matter 31, 163001 (2019) (arXiv:1810.02181)
6. Functional renormalization group for non-Hermitian and PT-symmetric systems
   L. Grunwald, V. Meden, and D. M. Kennes
   SciPost Phys.12,179 (2022) (arXiv: 2203.08108)
7. Simulation of Steady-State Energy Metabolism in Cycling and Running
   S. Nolte, O. J. Quittmann, and V. Meden
   SportRXiv.110 (2022)
8. The mathematical modeling of lactate curves from graded incremental exercise tests
   S. Nolte, O. J. Quittmann, and V. Meden
   SportRXiv.136 (2022)
9. Recent developments in the functional renormalization group approach to correlated electron systems
   C. Honerkamp, D.M. Kennes, V. Meden, M. Scherer and R. Thomale
   European Physical Journal B 95, 205 (2022)
10. PT-symmetric, non-Hermitian quantum many-body physics - a methodological perspective
    V. Meden, L. Grunwald and D. M. Kennes Rep Prog. Phys. 86 (2023) (arXiv 2303.05956)

A complete list of my publications is also available.