Jean-Philippe Brantut

Edit profile

jean-philippe.brantut@epfl.ch +41 21 693 51 59 http://lqg.epfl.ch

Citizenship: French and Swiss

EPFL SB IPHYS LQG
PH D2 344 (Bâtiment PH)
Station 3
1015 Lausanne

+41 21 693 51 59
Office: PH D2 344
EPFL > SB > IPHYS > LQG

Web site: Web site: https://lqg.epfl.ch/

+41 21 693 51 59
EPFL > SB > SB-SPH > SPH-ENS

Web site: Web site: https://sph.epfl.ch/

vCard
Administrative data

Fields of expertise

Quantum optics, quantum simulation, strongly correlated Fermions, cavity quantum electrodynamics, mesoscopic physics

Biography

I did my PhD at the Institut d'Optique under the direction of Philippe Bouyer and Alain Aspect, before moving to ETHZ in the group of Tilman Esslinger, first as a post-doc then as a senior scientist. There I developed in particular the method allowing for a quantum simulation of nano-electronic devices with ultracold quantum gases.

Since september 2016, I lead the Laboratory for Quantum Gases EPFL. There, my group has developed the first cold atoms machines combining Fermi gases with cavity-quantum electrodynamics. We use it to explore new ways of measuring and manipulating quantum matter, for quantum simulation applications.

Current work

See our group website for details

Awards

2023 : Latsis University prize : Latsis foundation

2023 : Physics Teaching award : For outstanding teaching in physics at EPFL

2022 : ERC Consolidator Grant (funded by SERI) : Driven and Dissipative Quantum Simulators

2016 : ERC Starting Grant : Devices, engines and circuits: quantum engineering with cold atoms

2016 : Fondation Sandoz Chair : Fondation Sandoz Monique de Meuron program for Academic promotion

2013 : SNSF Ambizione Fellowship : ETHZ Quantum Optics group

Publications

Selected publications

N. Sauerwein, F. Orsi, P. Uhrich, S. Bandyopadhyay, F. Mattiotti, T. Cantat-Moltrecht, G. Pupillo, P. Hauke, J.P. Brantut Nature Physics 19, 1128 (2023)	Engineering random spin models with atoms in a high-finesse cavity
V. Helson, T. Zwettler, F. Mivehvar, E.Collela, K.Roux, H. Konishi, H. Ritsch, J.P. Brantut Nature 618, 716 (2023)	Density-wave ordering in a unitary Fermi gas with photon-mediated interactions
*H. Konishi, K. Roux, V. Helson and J.P. Brantut* Nature 596, 509 (2021)	Universal pair polaritons in a strongly interacting Fermi gas
K. Roux, H. Konishi, V. Helson and J.P. Brantut Nature Communications 11, 2974 (2020)	Strongly correlated Fermions strongly coupled to light
S. Krinner, T. Esslinger and J.P. Brantut J. Phys.: Condens. Matter 29 343003 (2017)	Two-terminal transport measurements with cold atoms
D Husmann, S Uchino, S Krinner, M Lebrat, T Giamarchi, T Esslinger and JP Brantut Science 350 (6267), 1498-1501 (2015)	Connecting strongly correlated superfluids by a quantum point contact
S. Krinner, D. Stadler, D. Husmann, C. Kollath, J.P. Brantut and T. Esslinger Nature 517, 64 (2015)	Observation of quantized conductance in neutral matter
J.P. Brantut, C. Grenier, J. Meineke, D. Stadler, S. Krinner, C. Kollath, T. Esslinger and A. Georges Science 342, 713-715 (2013)	A Thermoelectric Heat Engine with Ultracold Atoms

Teaching & PhD

Teaching

Physics

PhD Students

Bolognini Gaia Stella, Bühler Tabea Nelly Clara, Eichenberger Michael Alexander, Fedotova Ekaterina, Orsi Francesca, Xue Zeyang,

Past EPFL PhD Students

Helson Victor Youri , Roux Kevin Etienne Robert , Sauerwein Nick Jacob , Zwettler Timo ,

Courses

Atomic, molecular physics and optics

This course presents the fundamental physics of atoms and molecules, their structure and their interaction with electromagnetic fields.

Quantum optics and quantum information

This lecture describes advanced concepts and applications of quantum optics. It emphasizes the connection with ongoing research, and with the fast growing field of quantum technologies. The topics cover some aspects of quantum information processing, quantum sensing and quantum simulation.