Beat note stabilization of mode-locked lasers for quantum information processing.

Authors :: Islam, R
Islam, R
Campbell, WC
Choi, T
Clark, SM
Conover, CWS
Debnath, S
Edwards, EE
Fields, B
Hayes, D
Hucul, D
Inlek, IV
Johnson, KG
Korenblit, S
Lee, A
Lee, KW
Manning, TA
Matsukevich, DN
Mizrahi, J
Quraishi, Q
Senko, C
Smith, J
Monroe, C
Islam, R
Islam, R
Campbell, WC
Choi, T
Clark, SM
Conover, CWS
Debnath, S
Edwards, EE
Fields, B
Hayes, D
Hucul, D
Inlek, IV
Johnson, KG
Korenblit, S
Lee, A
Lee, KW
Manning, TA
Matsukevich, DN
Mizrahi, J
Quraishi, Q
Senko, C
Smith, J
Monroe, C
Source :: Optics letters; vol 39, iss 11, 3238-3241; 0146-9592
Publication Year :: 2014
Abstract: We stabilize a chosen radio frequency beat note between two optical fields derived from the same mode-locked laser pulse train in order to coherently manipulate quantum information. This scheme does not require access or active stabilization of the laser repetition rate. We implement and characterize this external lock, in the context of two-photon stimulated Raman transitions between the hyperfine ground states of trapped 171Yb(+) quantum bits.

Database :: OAIster
Journal :: Optics letters; vol 39, iss 11, 3238-3241; 0146-9592
Notes :: application/pdf, Optics letters vol 39, iss 11, 3238-3241 0146-9592
Publication Type :: Electronic Resource
Accession number :: edsoai.on1287437767
Document Type :: Electronic Resource

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