Controlled photon emission and raman transition experiments with a single trapped atom

M. P.A. Jones; B. Darquié; J. Beugnon; J. Dingjan; S. Bergamini; Y. Sortais; G. Messin; A. Browaeys; P. Grangier

doi:10.1142/9789812701473_0042

Controlled photon emission and raman transition experiments with a single trapped atom

M. P.A. Jones
, B. Darquié
, J. Beugnon
, J. Dingjan
, S. Bergamini
, Y. Sortais
, G. Messin
, A. Browaeys
, P. Grangier

Laboratoire Charles Fabry

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

We present recent results on the coherent control of an optical transition in a single rubidium atom, trapped in an optical tweezer. We excite the atom using resonant light pulses that are short (4 ns) compared with the lifetime of the excited state (26 ns). By varying the intensity of the laser pulses, we can observe an adjustable number of Rabi oscillations, followed by free decay once the light is switched off. To generate the pulses we have developed a novel laser system based on frequency doubling a telecoms laser diode at 1560 nm. By setting the laser intensity to make a π pulse, we use this coherent control to make a high quality triggered source of single photons. We obtain an average single photon rate of 9600 s^-1 at the detector. Measurements of the second-order temporal correlation function show almost perfect antibunching at zero delay. In addition, we present preliminary results on the use of Raman transitions to couple the two hyperfine levels of the ground state of our trapped atom. This will allow us to prepare and control a qubit formed by two hyperfine sub-levels.

Original language	English
Title of host publication	Micro, Meso, Macro
Subtitle of host publication	Addressing Complex Systems Couplings
Publisher	World Scientific Publishing Co.
Pages	413-420
Number of pages	8
ISBN (Electronic)	9789812701473
ISBN (Print)	9789812566591
DOIs	https://doi.org/10.1142/9789812701473_0042
Publication status	Published - 1 Jan 2005
Externally published	Yes

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Jones, M. P. A., Darquié, B., Beugnon, J., Dingjan, J., Bergamini, S., Sortais, Y., Messin, G., Browaeys, A., & Grangier, P. (2005). Controlled photon emission and raman transition experiments with a single trapped atom. In Micro, Meso, Macro: Addressing Complex Systems Couplings (pp. 413-420). World Scientific Publishing Co.. https://doi.org/10.1142/9789812701473_0042

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title = "Controlled photon emission and raman transition experiments with a single trapped atom",

abstract = "We present recent results on the coherent control of an optical transition in a single rubidium atom, trapped in an optical tweezer. We excite the atom using resonant light pulses that are short (4 ns) compared with the lifetime of the excited state (26 ns). By varying the intensity of the laser pulses, we can observe an adjustable number of Rabi oscillations, followed by free decay once the light is switched off. To generate the pulses we have developed a novel laser system based on frequency doubling a telecoms laser diode at 1560 nm. By setting the laser intensity to make a π pulse, we use this coherent control to make a high quality triggered source of single photons. We obtain an average single photon rate of 9600 s-1 at the detector. Measurements of the second-order temporal correlation function show almost perfect antibunching at zero delay. In addition, we present preliminary results on the use of Raman transitions to couple the two hyperfine levels of the ground state of our trapped atom. This will allow us to prepare and control a qubit formed by two hyperfine sub-levels.",

author = "Jones, \{M. P.A.\} and B. Darqui{\'e} and J. Beugnon and J. Dingjan and S. Bergamini and Y. Sortais and G. Messin and A. Browaeys and P. Grangier",

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AU - Jones, M. P.A.

AU - Darquié, B.

AU - Beugnon, J.

AU - Dingjan, J.

AU - Bergamini, S.

AU - Sortais, Y.

AU - Messin, G.

AU - Browaeys, A.

AU - Grangier, P.

PY - 2005/1/1

Y1 - 2005/1/1

N2 - We present recent results on the coherent control of an optical transition in a single rubidium atom, trapped in an optical tweezer. We excite the atom using resonant light pulses that are short (4 ns) compared with the lifetime of the excited state (26 ns). By varying the intensity of the laser pulses, we can observe an adjustable number of Rabi oscillations, followed by free decay once the light is switched off. To generate the pulses we have developed a novel laser system based on frequency doubling a telecoms laser diode at 1560 nm. By setting the laser intensity to make a π pulse, we use this coherent control to make a high quality triggered source of single photons. We obtain an average single photon rate of 9600 s-1 at the detector. Measurements of the second-order temporal correlation function show almost perfect antibunching at zero delay. In addition, we present preliminary results on the use of Raman transitions to couple the two hyperfine levels of the ground state of our trapped atom. This will allow us to prepare and control a qubit formed by two hyperfine sub-levels.

AB - We present recent results on the coherent control of an optical transition in a single rubidium atom, trapped in an optical tweezer. We excite the atom using resonant light pulses that are short (4 ns) compared with the lifetime of the excited state (26 ns). By varying the intensity of the laser pulses, we can observe an adjustable number of Rabi oscillations, followed by free decay once the light is switched off. To generate the pulses we have developed a novel laser system based on frequency doubling a telecoms laser diode at 1560 nm. By setting the laser intensity to make a π pulse, we use this coherent control to make a high quality triggered source of single photons. We obtain an average single photon rate of 9600 s-1 at the detector. Measurements of the second-order temporal correlation function show almost perfect antibunching at zero delay. In addition, we present preliminary results on the use of Raman transitions to couple the two hyperfine levels of the ground state of our trapped atom. This will allow us to prepare and control a qubit formed by two hyperfine sub-levels.

UR - https://www.scopus.com/pages/publications/84967361685

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DO - 10.1142/9789812701473_0042

M3 - Chapter

AN - SCOPUS:84967361685

SN - 9789812566591

SP - 413

EP - 420

BT - Micro, Meso, Macro

PB - World Scientific Publishing Co.

ER -

Controlled photon emission and raman transition experiments with a single trapped atom

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