QUPLAS (QUantum interferometry and gravitation with Positrons and LASers) publications
This page is always under construction.
Matter-wave interferometry: towards antimatter interferometers. J. Phys.
B, At. Mol. Opt. Phys. 48 (2015) 195002.
Asymmetric Talbot-Lau interferometry for inertial sensing. Physical Review A 94 (2016) 033625.
Detection of low energy antimatter with emulsions. Journal of Instrumentation, JINST 11 (2016) P06017.
Nuclear emulsions for the detection of micrometric-scale fringe patterns: an application to positron interferometry. Journal of Instrumentation, JINST 13 (2018) P05013.
First demonstration of antimatter wave interferometry. Science Advances 5 eeeav7610 (2019) doi:10.1126/sciadvaav7610.
Antimatter Quantum Interferometry. Symmetry 11 (2019) 1247.
The QUPLAS experimental apparatus for antimatter interferometry.
Nuclear Instruments and Methods A 951 (2020) 163019.
Sensitivity of emulsion detectors to low energy positrons.
Journal of Instrumentation JINST 15 (2020) P03027.
Real-time monitoring of a positron beam using a microchannel plate in single-particle mode.
Journal of Instrumentation JINST 15 (2020) P11030.
An interferometric method for Particle Mass measurements.
Symmetry 13 (2021) 1232.
Low Energy Antimatter Physics.
Universe 8 (2022) 123.
A Large-momentum-transfer matter-wave interferometer to measure the effect of grvity on positronium.
Classical and Quantum Gravity 40 (2023) 205024.
Loss and revival of coherence in the interaction between a positron beam and a photon field.
Journal of Plasma Physics 89 (2023) 935890603.
The Observation of Antimatter Quantum Interference.
Fondation Louis de Broglie 48, 1 (2024).
Monte Carlo simulations towards the formation of a positronium coherent beam.
Nuclear Instruments & Methods A 1071 (2025) 170068.