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Timothy M. Sweeney
Timothy M. Sweeney
Johns Hopkins University Applied Physics Lab
Verified email at jhuapl.edu
Title
Cited by
Cited by
Year
Quantum control of a spin qubit coupled to a photonic crystal cavity
SG Carter, TM Sweeney, M Kim, CS Kim, D Solenov, SE Economou, ...
Nature Photonics 7 (4), 329-334, 2013
1712013
Zero-phonon linewidth of single nitrogen vacancy centers in diamond nanocrystals
Y Shen, TM Sweeney, H Wang
Physical Review B 77 (3), 033201, 2008
1062008
Cavity-stimulated Raman emission from a single quantum dot spin
TM Sweeney, SG Carter, AS Bracker, M Kim, CS Kim, L Yang, PM Vora, ...
Nature Photonics 8 (6), 442–447, 2014
902014
Raman coherence in a circuit quantum electrodynamics lambda system
S Novikov, T Sweeney, JE Robinson, SP Premaratne, B Suri, ...
Nature Physics 12 (1), 75-79, 2016
672016
Spin–cavity interactions between a quantum dot molecule and a photonic crystal cavity
PM Vora, AS Bracker, SG Carter, TM Sweeney, M Kim, CS Kim, L Yang, ...
Nature communications 6 (1), 7665, 2015
642015
Ultrafast coherent electron spin flip in a modulation-doped CdTe quantum well
C Phelps, T Sweeney, RT Cox, H Wang
Physical review letters 102 (23), 237402, 2009
462009
Strong hyperfine-induced modulation of an optically driven hole spin in an InAs quantum dot
SG Carter, SE Economou, A Greilich, E Barnes, T Sweeney, AS Bracker, ...
Physical Review B 89 (7), 075316, 2014
372014
Leveraging crystal anisotropy for deterministic growth of InAs quantum dots with narrow optical linewidths
MK Yakes, L Yang, AS Bracker, TM Sweeney, PG Brereton, M Kim, ...
Nano letters 13 (10), 4870-4875, 2013
362013
nanoTesla magnetometry with the silicon vacancy in silicon carbide
JBS Abraham, C Gutgsell, D Todorovski, S Sperling, JE Epstein, ...
Physical Review Applied 15 (6), 064022, 2021
202021
Quantum control of electron spins in the two-dimensional electron gas of a CdTe quantum well with a pair of Raman-resonant phase-locked laser pulses
TM Sweeney, C Phelps, H Wang
Physical Review B 84 (7), 075321, 2011
122011
Universal-dephasing-noise injection via Schrödinger-wave autoregressive moving-average models
A Murphy, J Epstein, G Quiroz, K Schultz, L Tewala, K McElroy, C Trout, ...
Physical Review Research 4 (1), 013081, 2022
72022
Experimental detection of bpsk signals with a qubit sensor
K Schultz, A Murphy, H Yoest, G Quiroz, L Norris, CJ Trout, M Amezcua, ...
Quantum Information and Measurement, W2C. 7, 2021
12021
Cavity qed in a quantum dot molecule coupled to a photonic crystal cavity
P Vora, S Carter, CS Kim, M Kim, T Sweeney, L Yang, P Brereton, ...
APS March Meeting Abstracts 2014, A36. 001, 2014
12014
Probing heavy-hole and light-hole excitonic beats in a GaAs quantum well with phase-locked Raman pulse pairs
T Sweeney, T Baldwin, H Wang
Quantum Electronics and Laser Science Conference, QFI4, 2010
12010
Model-Based Qubit Noise Spectroscopy
K Schultz, C Watson, A Murphy, T Sweeney, G Quiroz
APS March Meeting Abstracts 2023, D72. 012, 2023
2023
Two Qubit Correlated Noise and Crosstalk Characterization
M Amezcua, L Norris, T Gilliss, J Shackford, T Sweeney, K Schultz
APS March Meeting Abstracts 2023, D72. 005, 2023
2023
Quantum Noise Spectroscopy Informed Optimized Gates
A Murphy, Y Oda, T Sweeney, K Schultz, L Norris, G Quiroz
APS March Meeting Abstracts 2023, Q71. 013, 2023
2023
Towards operationally relevant quantum signal detection
K Schultz, A Murphy, H Yoest, G Quiroz, L Norris, CJ Trout, M Amezcua, ...
Quantum Information Science, Sensing, and Computation XIV 12093, 16-24, 2022
2022
Silicon carbide magnetometer and associated material formation methods
JB Abraham, BD Clader, R Osiander, CA Gutgsell, DJ Todorovski, ...
US Patent App. 17/516,956, 2022
2022
Multiqubit Spatially Correlated Noise Characterization
M Amezcua, L Norris, C Watson, T Gilliss, T Sweeney
APS March Meeting Abstracts 2022, G35. 006, 2022
2022
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