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Optimization of Yb + fluorescence and hyperfine-qubit detection
Ejtemaee, S. ; Thomas, R. ; Haljan, P. C.
Physical review. A, Atomic, molecular, and optical physics, 2010-12, Vol.82 (6), Article 063419
United States
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Título:
Optimization of Yb + fluorescence and hyperfine-qubit detection
Autor:
Ejtemaee, S.
;
Thomas, R.
;
Haljan, P. C.
Assuntos:
ATOMIC AND MOLECULAR PHYSICS
;
CHARGED PARTICLES
;
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
;
COMPARATIVE EVALUATIONS
;
DETECTION
;
EMISSION
;
EVALUATION
;
EVEN-EVEN
NUCLEI
;
EVEN-ODD
NUCLEI
;
FLUORESCENCE
;
INFORMATION
;
INTERMEDIATE MASS
NUCLEI
;
IONS
;
ISOTOPES
;
LUMINESCENCE
;
MAGNETIC FIELDS
;
NUCLEI
;
OPTIMIZATION
;
PHOTON EMISSION
;
POLARIZATION
;
QUANTUM INFORMATION
;
QUBITS
;
RARE EARTH
NUCLEI
;
STABLE ISOTOPES
;
TRAPPING
;
YTTERBIUM 171
;
YTTERBIUM 174
;
YTTERBIUM IONS
;
YTTERBIUM ISOTOPES
É parte de:
Physical review. A, Atomic, molecular, and optical physics, 2010-12, Vol.82 (6), Article 063419
Descrição:
Fluorescence of single, trapped {sup 171}Yb{sup +} ions has been experimentally studied as a function of laser polarization, power, and detuning and as a function of magnetic field strength. The suppression of efficient fluorescence by coherent population trapping and the counteracting effect of the magnetic field are found to agree with theoretical predictions. For comparison, a fluorescence study has also been made of the isotope {sup 174}Yb{sup +} for which coherent population trapping is absent on the main fluorescence and laser cooling transition. Finally, state-sensitive fluorescence detection of the {sup 171}Yb{sup +} hyperfine qubit is studied, including the role of coherent population trapping in the optimization of detection parameters. A qubit detection fidelity of greater than 97% is achieved.
Editor:
United States
Idioma:
Inglês
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