Remy Notermans
Remy Notermans
Director of Strategic Planning, Atom Computing
Verified email at
Cited by
Cited by
Effective inertial frame in an atom interferometric test of the equivalence principle
C Overstreet, P Asenbaum, T Kovachy, R Notermans, JM Hogan, ...
Physical Review Letters 120 (18), 183604, 2018
Assembly and coherent control of a register of nuclear spin qubits
K Barnes, P Battaglino, BJ Bloom, K Cassella, R Coxe, N Crisosto, ...
Nature Communications, 2022
Precision spectroscopy of helium in a magic wavelength optical dipole trap
RJ Rengelink, Y Van der Werf, RPMJW Notermans, R Jannin, ...
Nature Physics 14, 1132-1137, 2018
High-precision spectroscopy of the forbidden 2 3S1-2 1P1 transition in quantum degenerate metastable helium
R Notermans, W Vassen
Physical Review Letters 112 (25), 253002, 2014
Extreme Ultraviolet Interferometer Using High-Order Harmonic Generation from Successive Sources
DE Laban, AJ Palmer, WC Wallace, NS Gaffney, R Notermans, TTJ Clevis, ...
Physical Review Letters 109 (26), 263902, 2012
Magic wavelengths for the $2\^ 3S\ to 2\^ 1S $ transition in helium
R Notermans, R Rengelink, T van Leeuwen, W Vassen
Physical Review A 90, 052508, 2014
Mid-circuit qubit measurement and rearrangement in a Yb atomic array
MA Norcia, WB Cairncross, K Barnes, P Battaglino, A Brown, MO Brown, ...
arXiv preprint arXiv:2305.19119, 2023
Comparison of spectral linewidths for quantum degenerate bosons and fermions
R Notermans, RJ Rengelink, W Vassen
Physical Review Letters 117 (21), 213001, 2016
A simple 2 W continuous-wave laser system for trapping ultracold metastable helium atoms at the 319.8 nm magic wavelength
RJ Rengelink, R Notermans, W Vassen
Applied Physics B 122 (5), 1-8, 2016
Performance predictions for a laser-intensified thermal beam for use in high-resolution focused-ion-beam instruments
SHW Wouters, G ten Haaf, R Notermans, N Debernardi, PHA Mutsaers, ...
Physical Review A 90 (6), 063817, 2014
Ultracold metastable helium: Ramsey fringes and atom interferometry
W Vassen, R Notermans, RJ Rengelink, R van der Beek
Applied Physics B 122 (12), 289, 2016
40 W, 780 nm laser system with compensated dual beam splitters for atom interferometry
M Kim, R Notermans, C Overstreet, J Curti, P Asenbaum, MA Kasevich
Optics Letters 45 (23), 6555-6558, 2020
Structure formation in atom lithography using geometric collimation
T Meijer, JP Beardmore, C Fabrie, JP van Lieshout, R Notermans, ...
Applied Physics B 105 (4), 703-713, 2011
Macroscopic scale atom interferometers: introduction, techniques, and applications
T Kovachy, A Sugarbaker, R Notermans, P Asenbaum, C Overstreet, ...
Current Trends in Atomic Physics 221, 2019
A New High-Brightness Ion Source: the Atomic Beam Laser-cooled Ion Source
R Notermans
Graduation project CQT 13, 2012-13, 2012
High-Precision Spectroscopy of Forbidden Transitions in Ultracold 4He and 3He
R Notermans
Amsterdam: Vrije Universiteit, 2017
Individual control of nuclear spin qubits in an array of neutral strontium atoms
B Lester, K Kotru, M McDonald, R Notermans, K Cassella, A Ryou, ...
APS March Meeting Abstracts 2021, M31. 001, 2021
An extreme ultraviolet interferometer using high order harmonic generation
DE Laban, AJ Palmer, WC Wallace, NS Gaffney, R Notermans, TTJ Clevis, ...
Journal of Physics: Conference Series 488 (1), 012019, 2014
Laser system with Stark-shift-compensated dual beam splitters for observing a gravitational Aharonov-Bohm effect
M Kim, C Overstreet, J Curti, P Asenbaum, R Notermans, MA Kasevich
Quantum Sensing, Imaging, and Precision Metrology, PC124471R, 2023
Long-term continuous operation of an AMO platform for neutral atom quantum computing
R Notermans, N Crisosto, R Coxe, B Lester, K Kotru, M McDonald, ...
Bulletin of the American Physical Society 66, 2021
The system can't perform the operation now. Try again later.
Articles 1–20