Serge Florens
Serge Florens
CNRS researcher at the Néel Institute, Grenoble, France
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Quantum phase transition in a single-molecule quantum dot
N Roch, S Florens, V Bouchiat, W Wernsdorfer, F Balestro
Nature 453 (7195), 633-637, 2008
Mott Transition and Transport Crossovers in the Organic Compound κ−(B E D T− T T F) 2 C u [N (C N) 2] C l
P Limelette, P Wzietek, S Florens, A Georges, TA Costi, C Pasquier, ...
Physical review letters 91 (1), 016401, 2003
Slave-rotor mean-field theories of strongly correlated systems and the Mott transition in finite dimensions
S Florens, A Georges
Physical Review B 70 (3), 035114, 2004
Self-consistent description of Andreev bound states in Josephson quantum dot devices
T Meng, S Florens, P Simon
Physical Review B 79 (22), 224521, 2009
Quantum impurity solvers using a slave rotor representation
S Florens, A Georges
Physical Review B 66 (16), 165111, 2002
Observation of the underscreened Kondo effect in a molecular transistor
N Roch, S Florens, TA Costi, W Wernsdorfer, F Balestro
Physical review letters 103 (19), 197202, 2009
Spectroscopic signatures of a bandwidth-controlled Mott transition at the surface of 1T-TaSe2
L Perfetti, A Georges, S Florens, S Biermann, S Mitrovic, H Berger, ...
arXiv preprint cond-mat/0210622, 2003
First order quantum phase transition in the Kondo regime of a superconducting carbon nanotube quantum dot
R Maurand, T Meng, E Bonet, S Florens, L Marty, W Wernsdorfer
arXiv preprint arXiv:1110.2067, 2011
Mott transition at large orbital degeneracy: Dynamical mean-field theory
S Florens, A Georges, G Kotliar, O Parcollet
Physical Review B 66 (20), 205102, 2002
A tunable Josephson platform to explore many-body quantum optics in circuit-QED
J Puertas Martínez, S Léger, N Gheeraert, R Dassonneville, L Planat, ...
npj Quantum Information 5 (1), 19, 2019
Observation of Majorana quantum critical behaviour in a resonant level coupled to a dissipative environment
HT Mebrahtu, IV Borzenets, H Zheng, YV Bomze, AI Smirnov, S Florens, ...
Nature Physics 9 (11), 732-737, 2013
Generalized multipolaron expansion for the spin-boson model: Environmental entanglement and the biased two-state system
S Bera, A Nazir, AW Chin, HU Baranger, S Florens
Physical Review B 90 (7), 075110, 2014
Stabilizing spin coherence through environmental entanglement in strongly dissipative quantum systems
S Bera, S Florens, HU Baranger, N Roch, A Nazir, AW Chin
Physical Review B 89 (12), 121108, 2014
Universal transport signatures in two-electron molecular quantum dots: gate-tunable Hund’s rule, underscreened Kondo effect and quantum phase transitions
S Florens, A Freyn, N Roch, W Wernsdorfer, F Balestro, P Roura-Bas, ...
Journal of Physics: Condensed Matter 23 (24), 243202, 2011
Non-Fermi-liquid behavior from two-dimensional antiferromagnetic fluctuations: A renormalization-group and large-N analysis
S Pankov, S Florens, A Georges, G Kotliar, S Sachdev
Physical Review B 69 (5), 054426, 2004
Direct probe of the Seebeck coefficient in a Kondo-correlated single-quantum-dot transistor
B Dutta, D Majidi, A García Corral, PA Erdman, S Florens, TA Costi, ...
Nano letters 19 (1), 506-511, 2018
Reconstructing nonequilibrium regimes of quantum many-body systems from the analytical structure of perturbative expansions
C Bertrand, S Florens, O Parcollet, X Waintal
Physical Review X 9 (4), 041008, 2019
Observation of quantum many-body effects due to zero point fluctuations in superconducting circuits
S Léger, J Puertas-Martínez, K Bharadwaj, R Dassonneville, J Delaforce, ...
Nature Communications 10 (1), 5259, 2019
Interplay of the Kondo effect and strong spin-orbit coupling in multihole ultraclean carbon nanotubes
JP Cleuziou, NV N’Guyen, S Florens, W Wernsdorfer
Physical review letters 111 (13), 136803, 2013
High magnetic field theory for the local density of states in graphene with smooth arbitrary potential landscapes
T Champel, S Florens
Physical Review B 82 (4), 045421, 2010
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