Tridib Ray
Tridib Ray
Post Doctoral Researcher, Okinawa Institute of science and technology, Japan - 9040495
Verified email at oist.jp
Title
Cited by
Cited by
Year
A thin wire ion trap to study ion–atom collisions built within a Fabry–Perot cavity
T Ray, S Jyothi, NB Ram, SA Rangwala
Applied Physics B 114 (1), 267-273, 2014
242014
Photodissociation of Trapped : Implications for Simultaneous Trapping of Atoms and Molecular Ions
S Jyothi, T Ray, S Dutta, AR Allouche, R Vexiau, O Dulieu, SA Rangwala
Physical review letters 117 (21), 213002, 2016
222016
Temperature measurement of laser-cooled atoms using vacuum Rabi splitting
T Ray, A Sharma, S Jyothi, SA Rangwala
Physical Review A 87 (3), 033832, 2013
202013
Phase-sensitive radial extraction and mass spectrometry of trapped ions in a compact geometry
S Jyothi, T Ray, SA Rangwala
Applied Physics B 118 (1), 131-138, 2015
152015
Generation of cold Rydberg atoms at submicron distances from an optical nanofiber
KS Rajasree, T Ray, K Karlsson, JL Everett, SN Chormaic
Physical Review Research 2 (1), 012038, 2020
142020
Optical control of resonant light transmission for an atom-cavity system
A Sharma, T Ray, RV Sawant, G Sheikholeslami, SA Rangwala, D Budker
Physical Review A 91 (4), 043824, 2015
132015
Relativity and electrodynamics
WFG Swann
Reviews of Modern Physics 2 (3), 243, 1930
131930
Enhancement of the quadrupole interaction of an atom with the guided light of an ultrathin optical fiber
F Le Kien, T Ray, T Nieddu, T Busch, SN Chormaic
Physical Review A 97 (1), 013821, 2018
122018
Observation of the 87Rb 5S1/2 to 4D3/2 electric quadrupole transition at 516.6 nm mediated via an optical nanofibre
T Ray, RK Gupta, V Gokhroo, JL Everett, T Nieddu, KS Rajasree, ...
New Journal of Physics 22 (6), 062001, 2020
112020
Simple, narrow, and robust atomic frequency reference at 993 nm exploiting the rubidium (Rb) 5S1/2 to 6S1/2 transition using one-color two-photon excitation
T Nieddu, T Ray, KS Rajasree, R Roy, SN Chormaic
Optics express 27 (5), 6528-6535, 2019
72019
Hybrid ion, atom and light trap
S Jyothi, SA Rangwala, T Ray, NB Ram
Proceedings of the International School of Physics "Enrico Fermi" 189 (Ion …, 2015
72015
Three-dimensional lattice of ion traps
K Ravi, S Lee, A Sharma, T Ray, G Werth, SA Rangwala
Physical Review A 81 (3), 031401, 2010
42010
Single collective excitation of an atomic array trapped along a waveguide: A study of cooperative emission for different atomic chain configurations
VA Pivovarov, LV Gerasimov, J Berroir, T Ray, J Laurat, A Urvoy, ...
Physical Review A 103 (4), 043716, 2021
22021
Progression towards study of interactions with composite systems at ultra-cold temperature
T Ray
Raman Research Institute, Bangalore., 2015
22015
Spin selection in single-frequency two-photon excitation of alkali-metal atoms
KS Rajasree, RK Gupta, V Gokhroo, F Le Kien, T Nieddu, T Ray, ...
Physical Review Research 2 (3), 033341, 2020
12020
Measuring spatially extended density profiles using atom-cavity collective strong coupling to higher-order modes
M Niranjan, S Dutta, T Ray, SA Rangwala
Physical Review A 99 (3), 033617, 2019
12019
Systematic design of photonic crystal waveguides for strong coupling with trapped cold atoms
A Bouscal, A Urvoy, J Berroir, T Ray, M Kemiche, S Mahapatra, F Raineri, ...
CLEO: QELS_Fundamental Science, FTh1P. 4, 2021
2021
Exploring Collective Quantum Phaenomena Using Nanofiber Mediated Atom-Light Interaction
J Berroir, T Ray, NV Corzo, J Raskop, DV Kupriyanov, A Urvoy, J Laurat
CLEO: QELS_Fundamental Science, FTh1P. 2, 2021
2021
1.6 GHz Frequency Scanning of a 482 nm Laser Stabilized using Electromagnetically Induced Transparency
KS Rajasree, K Karlsson, T Ray, SN Chormaic
arXiv preprint arXiv:2104.11423, 2021
2021
1.6 GHz Frequency Scanning of a 482 nm Laser Stabilized using Electromagnetically Induced Transparency
K Subramonian Rajasree, K Karlsson, T Ray, SN Chormaic
arXiv e-prints, arXiv: 2104.11423, 2021
2021
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