Martin Lebrat
Martin Lebrat
Postdoctoral Fellow, Harvard University
Zweryfikowany adres z g.harvard.edu
Cytowane przez
Cytowane przez
Experimental realization of the topological Haldane model with ultracold fermions
G Jotzu, M Messer, R Desbuquois, M Lebrat, T Uehlinger, D Greif, ...
Nature 515 (7526), 237-240, 2014
Connecting strongly correlated superfluids by a quantum point contact
D Husmann, S Uchino, S Krinner, M Lebrat, T Giamarchi, T Esslinger, ...
Science 350 (6267), 1498-1501, 2015
Roadmap on Atomtronics: State of the art and perspective
L Amico, M Boshier, G Birkl, A Minguzzi, C Miniatura, LC Kwek, ...
AVS Quantum Science 3 (3), 039201, 2021
Band and correlated insulators of cold fermions in a mesoscopic lattice
M Lebrat, P Grišins, D Husmann, S Häusler, L Corman, T Giamarchi, ...
Physical Review X 8 (1), 011053, 2018
Mapping out spin and particle conductances in a quantum point contact
S Krinner, M Lebrat, D Husmann, C Grenier, JP Brantut, T Esslinger
Proceedings of the National Academy of Sciences 113 (29), 8144-8149, 2016
Quantized conductance through a spin-selective atomic point contact
M Lebrat, S Häusler, P Fabritius, D Husmann, L Corman, T Esslinger
Physical review letters 123 (19), 193605, 2019
Coupling a Mobile Hole to an Antiferromagnetic Spin Background: Transient Dynamics of a Magnetic Polaron
G Ji, M Xu, LH Kendrick, CS Chiu, JC Brüggenjürgen, D Greif, A Bohrdt, ...
Physical Review X 11 (2), 021022, 2021
Quantized conductance through a dissipative atomic point contact
L Corman, P Fabritius, S Häusler, J Mohan, LH Dogra, D Husmann, ...
Physical Review A 100 (5), 053605, 2019
Scanning gate microscope for cold atomic gases
S Häusler, S Nakajima, M Lebrat, D Husmann, S Krinner, T Esslinger, ...
Physical review letters 119 (3), 030403, 2017
Breakdown of the Wiedemann–Franz law in a unitary Fermi gas
D Husmann, M Lebrat, S Häusler, JP Brantut, L Corman, T Esslinger
Proceedings of the National Academy of Sciences 115 (34), 8563-8568, 2018
Interaction-assisted reversal of thermopower with ultracold atoms
S Häusler, P Fabritius, J Mohan, M Lebrat, L Corman, T Esslinger
Physical Review X 11 (2), 021034, 2021
Quantized Hall conductance of a single atomic wire: a proposal based on synthetic dimensions
G Salerno, HM Price, M Lebrat, S Häusler, T Esslinger, L Corman, ...
Physical Review X 9 (4), 041001, 2019
Frustration-and doping-induced magnetism in a fermi–hubbard simulator
M Xu, LH Kendrick, A Kale, Y Gang, G Ji, RT Scalettar, M Lebrat, ...
Nature 620 (7976), 971-976, 2023
Spin transport in a one-dimensional quantum wire
AM Visuri, M Lebrat, S Häusler, L Corman, T Giamarchi
Physical Review Research 2 (2), 023062, 2020
Schrieffer-Wolff transformations for experiments: Dynamically suppressing virtual doublon-hole excitations in a Fermi-Hubbard simulator
A Kale, JH Huhn, M Xu, LH Kendrick, M Lebrat, C Chiu, G Ji, F Grusdt, ...
Physical Review A 106 (1), 012428, 2022
Surpassing the conventional Heisenberg limit using classical resources
XM Jin, M Lebrat, L Zhang, K Lee, T Bartley, M Barbieri, J Nunn, A Datta, ...
CLEO: QELS_Fundamental Science, QF2B. 2, 2013
Observation of Nagaoka Polarons in a Fermi-Hubbard Quantum Simulator
M Lebrat, M Xu, LH Kendrick, A Kale, Y Gang, P Seetharaman, I Morera, ...
arXiv preprint arXiv:2308.12269, 2023
Microscopic control and mesoscopic transport in quantum gases
M Lebrat
ETH Zurich, 2019
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