Rene Reimann
Rene Reimann
Director Quantum Sensing, TII, Abu Dhabi
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
GHz rotation of an optically trapped nanoparticle in vacuum
R Reimann, M Doderer, E Hebestreit, R Diehl, M Frimmer, D Windey, ...
Physical review letters 121 (3), 033602, 2018
Superfluidity of interacting bosonic mixtures in optical lattices
B Gadway, D Pertot, R Reimann, D Schneble
Physical review letters 105 (4), 045303, 2010
Sensing static forces with free-falling nanoparticles
E Hebestreit, M Frimmer, R Reimann, L Novotny
Physical review letters 121 (6), 063602, 2018
Cavity-based 3D cooling of a levitated nanoparticle via coherent scattering
D Windey, C Gonzalez-Ballestero, P Maurer, L Novotny, O Romero-Isart, ...
Physical review letters 122 (12), 123601, 2019
Cavity-modified collective Rayleigh scattering of two atoms
R Reimann, W Alt, T Kampschulte, T Macha, L Ratschbacher, N Thau, ...
Physical review letters 114 (2), 023601, 2015
Optical control of the refractive index of a single atom
T Kampschulte, W Alt, S Brakhane, M Eckstein, R Reimann, A Widera, ...
Physical review letters 105 (15), 153603, 2010
Analysis of Kapitza-Dirac diffraction patterns beyond the Raman-Nath regime
B Gadway, D Pertot, R Reimann, MG Cohen, D Schneble
Optics express 17 (21), 19173-19180, 2009
Calibration and energy measurement of optically levitated nanoparticle sensors
E Hebestreit, M Frimmer, R Reimann, C Dellago, F Ricci, L Novotny
Review of Scientific Instruments 89 (3), 2018
Super-resolution microscopy of single atoms in optical lattices
A Alberti, C Robens, W Alt, S Brakhane, M Karski, R Reimann, A Widera, ...
New Journal of Physics 18 (5), 053010, 2016
Simultaneous ground-state cooling of two mechanical modes of a levitated nanoparticle
J Piotrowski, D Windey, J Vijayan, C Gonzalez-Ballestero, ...
Nature Physics 19 (7), 1009-1013, 2023
Measuring the internal temperature of a levitated nanoparticle in high vacuum
E Hebestreit, R Reimann, M Frimmer, L Novotny
Physical Review A 97 (4), 043803, 2018
Theory for cavity cooling of levitated nanoparticles via coherent scattering: Master equation approach
C Gonzalez-Ballestero, P Maurer, D Windey, L Novotny, R Reimann, ...
Physical Review A 100 (1), 013805, 2019
Transition metal dichalcogenide resonators for second harmonic signal enhancement
S Busschaert, R Reimann, M Cavigelli, R Khelifa, A Jain, L Novotny
ACS Photonics 7 (9), 2482-2488, 2020
Bayesian feedback control of a two-atom spin-state in an atom-cavity system
S Brakhane, W Alt, T Kampschulte, M Martinez-Dorantes, R Reimann, ...
Physical Review Letters 109 (17), 173601, 2012
Electromagnetically-induced-transparency control of single-atom motion in an optical cavity
T Kampschulte, W Alt, S Manz, M Martinez-Dorantes, R Reimann, S Yoon, ...
Physical Review A 89 (3), 033404, 2014
Sub-kelvin feedback cooling and heating dynamics of an optically levitated librator
F van der Laan, F Tebbenjohanns, R Reimann, J Vijayan, L Novotny, ...
Physical Review Letters 127 (12), 123605, 2021
Optical levitation and feedback cooling of a nanoparticle at subwavelength distances from a membrane
R Diehl, E Hebestreit, R Reimann, F Tebbenjohanns, M Frimmer, ...
Physical Review A 98 (1), 013851, 2018
Optically levitated rotor at its thermal limit of frequency stability
F van der Laan, R Reimann, A Militaru, F Tebbenjohanns, D Windey, ...
Physical Review A 102 (1), 013505, 2020
Analyzing quantum jumps of one and two atoms strongly coupled to an optical cavity
S Reick, K Mølmer, W Alt, M Eckstein, T Kampschulte, L Kong, R Reimann, ...
JOSA B 27 (6), A152-A163, 2010
FPGA implementation of a Kalman-based motion estimator for levitated nanoparticles
J Liao, M Jost, M Schaffner, M Magno, M Korb, L Benini, F Tebbenjohanns, ...
IEEE Transactions on Instrumentation and Measurement 68 (7), 2374-2386, 2018
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