Folgen
Allan S. Bracker
Allan S. Bracker
Research Chemist, Naval Research Laboratory
Bestätigte E-Mail-Adresse bei nrl.navy.mil - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Optical signatures of coupled quantum dots
EA Stinaff, M Scheibner, AS Bracker, IV Ponomarev, VL Korenev, ...
Science 311 (5761), 636-639, 2006
5522006
Coherent optical spectroscopy of a strongly driven quantum dot
X Xu, B Sun, PR Berman, DG Steel, AS Bracker, D Gammon, LJ Sham
Science 317 (5840), 929-932, 2007
4482007
Optical pumping of the electronic and nuclear spin of single charge-tunable quantum dots
AS Bracker, EA Stinaff, D Gammon, ME Ware, JG Tischler, A Shabaev, ...
Physical Review Letters 94 (4), 047402, 2005
4212005
Fast spin state initialization in a singly charged InAs-GaAs quantum dot by optical cooling
X Xu, Y Wu, B Sun, Q Huang, J Cheng, DG Steel, AS Bracker, D Gammon, ...
Physical review letters 99 (9), 097401, 2007
3602007
Stimulated and spontaneous optical generation of electron spin coherence in charged GaAs quantum dots
MVG Dutt, J Cheng, B Li, X Xu, X Li, PR Berman, DG Steel, AS Bracker, ...
Physical review letters 94 (22), 227403, 2005
3322005
Coherent population trapping of an electron spin in a single negatively charged quantum dot
X Xu, B Sun, PR Berman, DG Steel, AS Bracker, D Gammon, LJ Sham
Nature Physics 4 (9), 692-695, 2008
3132008
Optically controlled locking of the nuclear field via coherent dark-state spectroscopy
X Xu, W Yao, B Sun, DG Steel, AS Bracker, D Gammon, LJ Sham
Nature 459 (7250), 1105-1109, 2009
2982009
Ultrafast optical control of entanglement between two quantum-dot spins
D Kim, SG Carter, A Greilich, AS Bracker, D Gammon
Nature Physics 7 (3), 223-229, 2011
2802011
FTIR studies of H2O and D2O decomposition on porous silicon surfaces
P Gupta, AC Dillon, AS Bracker, SM George
Surface science 245 (3), 360-372, 1991
2611991
Optical control of one and two hole spins in interacting quantum dots
A Greilich, SG Carter, D Kim, AS Bracker, D Gammon
Nature Photonics 5 (11), 702-708, 2011
1972011
Engineering electron and hole tunneling with asymmetric InAs quantum dot molecules
AS Bracker, M Scheibner, MF Doty, EA Stinaff, IV Ponomarev, JC Kim, ...
Applied Physics Letters 89 (23), 2006
1952006
Surface reconstruction phase diagrams for InAs, AlSb, and GaSb
AS Bracker, MJ Yang, BR Bennett, JC Culbertson, WJ Moore
Journal of crystal growth 220 (4), 384-392, 2000
1902000
Demonstration of quantum entanglement between a single electron spin confined to an InAs quantum dot and a photon
JR Schaibley, AP Burgers, GA McCracken, LM Duan, PR Berman, ...
Physical review letters 110 (16), 167401, 2013
1872013
Imaging the alignment angular distribution: State symmetries, coherence effects, and nonadiabatic interactions in photodissociation
AS Bracker, ER Wouters, AG Suits, OS Vasyutinskii
The Journal of chemical physics 110 (14), 6749-6765, 1999
1751999
Polarized fine structure in the photoluminescence excitation spectrum of a negatively charged quantum dot
ME Ware, EA Stinaff, D Gammon, MF Doty, AS Bracker, D Gershoni, ...
Physical review letters 95 (17), 177403, 2005
1692005
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
1672013
Fine structure of trions and excitons in single GaAs quantum dots
JG Tischler, AS Bracker, D Gammon, D Park
Physical Review B 66 (8), 081310, 2002
1492002
Antibonding ground states in InAs quantum-dot molecules
MF Doty, JI Climente, M Korkusinski, M Scheibner, AS Bracker, ...
Physical review letters 102 (4), 047401, 2009
1312009
Electrically tunable g factors in quantum dot molecular spin states
MF Doty, M Scheibner, IV Ponomarev, EA Stinaff, AS Bracker, VL Korenev, ...
Physical review letters 97 (19), 197202, 2006
1312006
Scalable in operando strain tuning in nanophotonic waveguides enabling three-quantum-dot superradiance
JQ Grim, AS Bracker, M Zalalutdinov, SG Carter, AC Kozen, M Kim, ...
Nature materials 18 (9), 963-969, 2019
1162019
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20