|
Publications by Markus Müller
|
31. Distribution
of
partition function zeros of the ±J model on the Bethe lattice.
Y. Matsuda, M. Müller, H. Nishimori,
T. Obuchi, and A. Scardicchio,
condmat:
arXiv:1001.4873
(2010).
30. Relativistic transport in a nearly perfect quantum
liquid.
M. Müller, L. Fritz, S. Sachdev, and J. Schmalian,
condmat:
arXiv:0910.5680 (2009).
Proceedings of the Int.
Congress of Math. Physics 09 Prague.
29. Purely electronic transport and localization in
the Bose glass.
M. Müller,
Proceedings of TIDS 13 Rackeve, Ann. Phys. (Berlin)
18, No. 12, 849 (2009).
28. Dissipation-induced phase transitions in
superconducting wires.
A. M. Lobos, A. Iucci, M. Müller, T. Giamarchi,
Phys. Rev. B, 80,
214515 (2009).
27. Graphene - a nearly perfect liquid.
M. Müller, J. Schmalian, and L. Fritz,
Phys. Rev. Lett.
103, 025301 (2009).
Viewpoint by I. Herbut: Physics 2, 57
(2009).
Highlight
of Nature Nanotechnology
(July 2009) by T. Reid.
26. Temperature dependence of the conductivity of
ballistic graphene.
M. Müller, M. Bräuninger, and B. Trauzettel,
Phys. Rev.
Lett. 103, 196801 (2009).
25. Compensation driven superconductor-insulator
transition.
M. Müller and B. I. Shklovskii,
Phys. Rev. B 79, 134504 (2009).
24. Relativistic magnetotransport in graphene.
M. Müller, L. Fritz, S. Sachdev, and J. Schmalian,
Proceedings of the Landau Memorial Conference,
Chernogolovka 2008, AIP Conf. Proc. 1134, 170
(2009).
condmat:
arXiv:0810.3657 (2008).
23. Quantum criticality and black holes.
S. Sachdev, and M. Müller,
J. Phys.:
Condens. Matter 21, 164216 (2009).
22. Quantum-critical relativistic magnetotransport in
graphene.
M. Müller, L. Fritz, and S. Sachdev,
Phys.
Rev. B 78, 115406 (2008).
21. Ising and spin orders in iron-based
superconductors.
C. Xu, M. Müller, and S. Sachdev,
Phys. Rev. B 78,
020501(R)
(2008).
20. Quantum critical transport in clean graphene.
L. Fritz, J. Schmalian, M. Müller, and S. Sachdev,
Phys. Rev. B 78, 085416 (2008).
19. Infinite randomness fixed point of the
superconductor-metal quantum phase transition.
A. Del Maestro, B. Rosenow, M. Müller, and S. Sachdev,
Phys Rev. Lett. 101, 035701 (2008).
18. Collective cyclotron motion of the relativistic
plasma in graphene.
M. Müller and S. Sachdev,
Phys. Rev. B, 78,
115419
(2008).
17. Cusps and shocks in glassy random manifolds: How
Functional RG and Replica Symmetry Breaking fit together.
P. Le Doussal, M. Müller, and K. Wiese,
Phys. Rev. B. 77, 064203 (2008).
16. Electron-assisted Hopping and quantum electron
glasses
M. Müller and L. B. Ioffe,
condmat-arXiv:0711.2668 (2007).
15. Theory of the Nernst Effect near Quantum Phase
Transitions in Condensed Matter and in Dyonic Black Holes
S. A.Hartnoll, P. K. Kovtun, M. Müller, and S. Sachdev,
Phys. Rev. B 76, 144502 (2007).
News and Views by J. Zaanen: Nature 448, 1000
(2007).
14. Mean Field Theory for the Three-Dimensional
Coulomb Glass
M. Müller and S. Pankov
Phys. Rev. B 75, 144201 (2007).
13. Marginal States in Mean Field Glasses
M. Müller, L. Leuzzi and A. Crisanti
Phys. Rev. B 74, 134431 (2006).
12. Comment on “The electron glass in a switchable
mirror: relaxation, ageing and universality“
M. Müller
J. Phys. Condens.
Matter 18, 1833 (2006).
11. History Dependence, Memory and Metastability in
Electron Glasses
M. Müller and E. Lebanon
J. Phys. IV
France 131, 167 (2005).
10. Instanton Analysis of Hysteresis and Metastability
in the 3D Random Field Ising Model
M. Müller and A. Silva
Phys. Rev. Lett 96,
117202
(2006).
9. The Memory Effect in Electron Glasses: Theoretical
analysis via a percolation approach
E. Lebanon and M. Müller
Phys. Rev. B 72, 174202 (2005).
8. The Glass Transition and the Coulomb Gap in
Electron Glasses
M. Müller and L. B. Ioffe
Phys. Rev.
Lett. 93, 256403 (2004).
7. Glassy phases in Random Heteropolymers with
correlated sequences
M. Müller, M. Mézard, A. Montanari
J. Chem. Phys. 120, 11 233 (2004).
6. Phase Diagram of Random Heteropolymers
A. Montanari, M. Müller, M. Mézard
Phys. Rev. Lett. 92, 185509 (2004).
5. Statistical Physics of RNA folding
M. Müller
Phys. Rev. E 67,
021914
(2003).
4. The secondary structure of RNA under tension
M. Müller, F. Krzakala, M. Mézard.
Eur. Phys. J. E 9,
67 (2003).
3. Nature of the glassy phase of RNA secondary
structure
F. Krzakala, M. Mézard, M. Müller
Europhys. Lett. 57, 752 (2002).
2. Marginal pinning of vortices at high temperature
M. Müller, D. A. Gorokhov, and G. Blatter
Phys. Rev. B
64, 134523 (2001).
1. Velocity-force characteristics of a driven
interface in a disordered medium
M. Müller, D. A. Gorokhov, and G. Blatter
Phys. Rev. B 63, 184305 (2001).
Other Publications
C. Superluminal pulse tunneling
M. Müller,
Acta Phys. Pol. A 89 ,
Supplement,
S-21
(1996). (pdf)
Contribution to the 3rd International contest ``First Step to Nobel
Prize in Physics"
B. The equation of time
M. Müller,
Acta Phys. Pol. A 88, Supplement, S-49 (1995).
(pdf)
Contribution to the 2nd International contest ``First Step to Nobel
Prize in Physics"
A. Das Phänomen der Zeitgleichung
M. Müller and A. Müller
Mitt.
der
Naturforschenden
Gesellschaften
beider Basel 1 , 89 (1995).