Arne Wickenbrock
Arne Wickenbrock
Verified email at
Cited by
Cited by
Axion dark matter
CB Adams, N Aggarwal, A Agrawal, R Balafendiev, C Bartram, ...
arXiv preprint arXiv:2203.14923, 2022
Microwave-free magnetometry with nitrogen-vacancy centers in diamond
A Wickenbrock, H Zheng, L Bougas, N Leefer, S Afach, A Jarmola, ...
Applied Physics Letters 109 (5), 2016
Search for axionlike dark matter with a liquid-state nuclear spin comagnetometer
T Wu, JW Blanchard, GP Centers, NL Figueroa, A Garcon, PW Graham, ...
Physical review letters 122 (19), 191302, 2019
Constraints on bosonic dark matter from ultralow-field nuclear magnetic resonance
A Garcon, JW Blanchard, GP Centers, NL Figueroa, PW Graham, ...
Science Advances 5 (10), 2019
Overview of the cosmic axion spin precession experiment (CASPEr)
DF Jackson Kimball, S Afach, D Aybas, JW Blanchard, D Budker, ...
Microwave Cavities and Detectors for Axion Research: Proceedings of the 3rd†…, 2020
Stochastic fluctuations of bosonic dark matter
GP Centers, JW Blanchard, J Conrad, NL Figueroa, A Garcon, ...
Nature communications 12 (1), 7321, 2021
Miniature cavity-enhanced diamond magnetometer
G Chatzidrosos, A Wickenbrock, L Bougas, N Leefer, T Wu, K Jensen, ...
Physical Review Applied 8 (4), 044019, 2017
The Cosmic Axion Spin Precession Experiment (CASPEr): a dark-matter search with nuclear magnetic resonance
A Garcon, D Aybas, JW Blanchard, G Centers, NL Figueroa, PW Graham, ...
Quantum Science and Technology 3 (1), 014008, 2017
Search for axionlike dark matter using solid-state nuclear magnetic resonance
D Aybas, J Adam, E Blumenthal, AV Gramolin, D Johnson, A Kleyheeg, ...
Physical Review Letters 126 (14), 141802, 2021
Zero-field magnetometry based on nitrogen-vacancy ensembles in diamond
H Zheng, J Xu, GZ Iwata, T Lenz, J Michl, B Yavkin, K Nakamura, ...
Physical Review Applied 11 (6), 064068, 2019
Sensitive magnetometry in challenging environments
KMC Fu, GZ Iwata, A Wickenbrock, D Budker
AVS Quantum Science 2 (4), 2020
Search for topological defect dark matter with a global network of optical magnetometers
Nature Physics 17, 1396-1401, 2021
Characterization of the global network of optical magnetometers to search for exotic physics (GNOME)
S Afach, D Budker, G DeCamp, V Dumont, ZD Grujić, H Guo, DFJ Kimball, ...
Physics of the Dark Universe 22, 162-180, 2018
Application of spin-exchange relaxation-free magnetometry to the cosmic axion spin precession experiment
T Wang, DFJ Kimball, AO Sushkov, D Aybas, JW Blanchard, G Centers, ...
Physics of the dark universe 19, 27-35, 2018
Searching for axion stars and -balls with a terrestrial magnetometer network
DF Jackson Kimball, D Budker, J Eby, M Pospelov, S Pustelny, T Scholtes, ...
Physical Review D 97 (4), 043002, 2018
Eddy current imaging with an atomic radio-frequency magnetometer
A Wickenbrock, N Leefer, JW Blanchard, D Budker
Applied Physics Letters 108 (18), 2016
Collective strong coupling in multimode cavity QED
A Wickenbrock, M Hemmerling, GRM Robb, C Emary, F Renzoni
Physical Review A—Atomic, Molecular, and Optical Physics 87 (4), 043817, 2013
Sensitive magnetometry reveals inhomogeneities in charge storage and weak transient internal currents in Li-ion cells
Y Hu, GZ Iwata, M Mohammadi, EV Silletta, A Wickenbrock, JW Blanchard, ...
Proceedings of the National Academy of Sciences 117 (20), 10667-10672, 2020
Suppression of the nonlinear Zeeman effect and heading error in earth-field-range alkali-vapor magnetometers
G Bao, A Wickenbrock, S Rochester, W Zhang, D Budker
Physical Review Letters 120 (3), 033202, 2018
Magnetic induction tomography using an all-optical 87Rb atomic magnetometer
A Wickenbrock, S Jurgilas, A Dow, L Marmugi, F Renzoni
Optics letters 39 (22), 6367-6370, 2014
The system can't perform the operation now. Try again later.
Articles 1–20