Laser diode stabilisation for coherent driving of rare earth ions

V. Crozatier; F. De Seze; L. Haals; F. Bretenaker; I. Lorgeré; J. L. Le Gouët

doi:10.1016/j.optcom.2004.07.011

Laser diode stabilisation for coherent driving of rare earth ions

V. Crozatier
, F. De Seze
, L. Haals
, F. Bretenaker
, I. Lorgeré
, J. L. Le Gouët

École Polytechnique

CNRS

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We report on the frequency stabilisation of an extended cavity diode laser for the coherent driving of thulium ions. This stabilisation loop uses a single locking point on an intra-cavity electro-optic crystal. It uses neither the diode current, nor any piezoelectric actuator, making its conception simple, versatile, and independent of the diode itself. Thanks to this, the laser linewidth with respect to the reference cavity is reduced well below 1 kHz. The laser coherence time is then much longer than the atomic coherence lifetime of the thulium ions. The performances of this stabilised source are used in basic coherent driving experiments in a Tm³⁺:YAG crystal. Efficient inversion of population by single adiabatic transfer and creation of narrow absorption lines by repetitive excitations are achieved.

langue originale	Anglais
Pages (de - à)	203-213
Nombre de pages	11
journal	Optics Communications
Volume	241
Numéro de publication	1-3
Les DOIs	https://doi.org/10.1016/j.optcom.2004.07.011
état	Publié - 1 nov. 2004

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10.1016/j.optcom.2004.07.011

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title = "Laser diode stabilisation for coherent driving of rare earth ions",

abstract = "We report on the frequency stabilisation of an extended cavity diode laser for the coherent driving of thulium ions. This stabilisation loop uses a single locking point on an intra-cavity electro-optic crystal. It uses neither the diode current, nor any piezoelectric actuator, making its conception simple, versatile, and independent of the diode itself. Thanks to this, the laser linewidth with respect to the reference cavity is reduced well below 1 kHz. The laser coherence time is then much longer than the atomic coherence lifetime of the thulium ions. The performances of this stabilised source are used in basic coherent driving experiments in a Tm3+:YAG crystal. Efficient inversion of population by single adiabatic transfer and creation of narrow absorption lines by repetitive excitations are achieved.",

keywords = "Coherent driving, Laser frequency stabilisation, Rare earth ions",

author = "V. Crozatier and \{De Seze\}, F. and L. Haals and F. Bretenaker and I. Lorger{\'e} and \{Le Gou{\"e}t\}, \{J. L.\}",

year = "2004",

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doi = "10.1016/j.optcom.2004.07.011",

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T1 - Laser diode stabilisation for coherent driving of rare earth ions

AU - Crozatier, V.

AU - De Seze, F.

AU - Haals, L.

AU - Bretenaker, F.

AU - Lorgeré, I.

AU - Le Gouët, J. L.

PY - 2004/11/1

Y1 - 2004/11/1

N2 - We report on the frequency stabilisation of an extended cavity diode laser for the coherent driving of thulium ions. This stabilisation loop uses a single locking point on an intra-cavity electro-optic crystal. It uses neither the diode current, nor any piezoelectric actuator, making its conception simple, versatile, and independent of the diode itself. Thanks to this, the laser linewidth with respect to the reference cavity is reduced well below 1 kHz. The laser coherence time is then much longer than the atomic coherence lifetime of the thulium ions. The performances of this stabilised source are used in basic coherent driving experiments in a Tm3+:YAG crystal. Efficient inversion of population by single adiabatic transfer and creation of narrow absorption lines by repetitive excitations are achieved.

AB - We report on the frequency stabilisation of an extended cavity diode laser for the coherent driving of thulium ions. This stabilisation loop uses a single locking point on an intra-cavity electro-optic crystal. It uses neither the diode current, nor any piezoelectric actuator, making its conception simple, versatile, and independent of the diode itself. Thanks to this, the laser linewidth with respect to the reference cavity is reduced well below 1 kHz. The laser coherence time is then much longer than the atomic coherence lifetime of the thulium ions. The performances of this stabilised source are used in basic coherent driving experiments in a Tm3+:YAG crystal. Efficient inversion of population by single adiabatic transfer and creation of narrow absorption lines by repetitive excitations are achieved.

KW - Coherent driving

KW - Laser frequency stabilisation

KW - Rare earth ions

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DO - 10.1016/j.optcom.2004.07.011

M3 - Article

AN - SCOPUS:6344249083

SN - 0030-4018

VL - 241

SP - 203

EP - 213

JO - Optics Communications

JF - Optics Communications

IS - 1-3

ER -

Laser diode stabilisation for coherent driving of rare earth ions

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