Maxime Dixmerias
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View article: Universal Random Matrix Behavior of a Fermionic Quantum Gas
Universal Random Matrix Behavior of a Fermionic Quantum Gas Open
The pursuit of universal governing principles is a foundational endeavor in physics, driving breakthroughs from thermodynamics to general relativity and quantum mechanics. In 1951, Wigner introduced the concept of a statistical description…
View article: Quantum Gas Microscopy of Fermions in the Continuum
Quantum Gas Microscopy of Fermions in the Continuum Open
Microscopically probing quantum many-body systems by resolving their constituent particles is essential for understanding quantum matter. In most physical systems, distinguishing individual particles, such as electrons in solids, or neutro…
View article: Observing Spatial Charge and Spin Correlations in a Strongly-Interacting Fermi Gas
Observing Spatial Charge and Spin Correlations in a Strongly-Interacting Fermi Gas Open
In this work, we explore two-dimensional attractive Fermi gases at the microscopic level by probing spatial charge and spin correlations in situ. Using atom-resolved continuum quantum gas microscopy, we directly observe fermion pairing and…
View article: Fluctuation thermometry of an atom-resolved quantum gas: Beyond the fluctuation-dissipation theorem
Fluctuation thermometry of an atom-resolved quantum gas: Beyond the fluctuation-dissipation theorem Open
Thermometry is essential for studying many-body physics with ultracold atoms. Accurately measuring low temperatures in these systems, however, remains a significant challenge due to the absence of a universal thermometer. Most widely appli…
View article: In-situ Imaging of a Single-Atom Wave Packet in Continuous Space
In-situ Imaging of a Single-Atom Wave Packet in Continuous Space Open
The wave nature of matter remains one of the most striking aspects of quantum mechanics. Since its inception, a wealth of experiments has demonstrated the interference, diffraction or scattering of massive particles. More recently, experim…
View article: Multipurpose platform for analog quantum simulation
Multipurpose platform for analog quantum simulation Open
Atom-based quantum simulators have had many successes in tackling challenging quantum many-body problems, owing to the precise and dynamical control that they provide over the systems' parameters. They are, however, often optimized to addr…