Evaluation of the noise properties of a dual-frequency VECSEL for compact Cs atomic clocks (Poster)

International audienceWe evaluate a dual-frequency and dual-polarization optically-pumped semiconductor laser emitting at 852 nm as a new laser source for compact atomic clocks based on the coherent population trapping (CPT) technique. The frequency difference between the laser modes is tunable to 9.2 GHz corresponding to the ground state hyperfine-split of Cs. Impact of the laser noise has been investigated. Laser relative intensity noise is limited by the pump-RIN transfer to a level of-110 dB/Hz. Laser frequency noise shows excess mechanical and technical noise resulting in a laser linewidth of 1 MHz at 1 s in lock operation. The noise performance and spectral properties of the laser are already adequate to realize CPT experiments and should result in Allan standard-deviation of the clock below 1 × 10-12 at 1 second

Dual-frequency VECSEL for atomic clocks using coherent population trapping

Workshop on Laser Diodes for Space Applications, Nov 2015, Palaiseau, FranceAtomic frequency references provide high-precision stable signals, which are crucial in the most demanding applications as high bitrate communication networks, high-end inertial navigation, or satellite positioning. One way to obtain those laser fields with low intensity-and frequency-noise is to use the dual-frequency and dual-polarization emission of an optically-pumped vertical external-cavity semiconductor laser (OP-VECSEL)

Laser à semiconducteur à 852 nm bifrequence pompé optiquement pour les horloges atomiques CPT (poster)

National audienceNous présentons un laser à semiconducteur en cavité externe pompé optiquement, émettant sur deux fréquences optiques polarisées perpendiculairement, destiné au piégeage cohérent d'atomes (CPT) de Cs. L'émission est accordable autour de 852 nm. La différence de fréquence est ajustée grâce à une lame électro-optique autour de 9,2 GHz. La longueur d'onde du mode ordinaire est stabilisée sur la raie D2 du Cs et la différence de fréquence est asservie sur un signal de référence RF. En fonctionnement stabilisé, nous caractérisons les sources de bruits du laser afin d'évaluer les performances du laser en vue de son application dans une horloge atomique CPT

Spectral and noise characterization of a 852 nm dual-frequency VECSEL (orale)

3rd Workshop VECSEL, Nov 2015, Montpellier, FranceCoherent population trapping (CPT) is a common technique used in compact atomic clocks which requires two-phase coherent laser modes with a frequency difference in the GHz range for alkali atoms. To improve the performance vs size trade-off of Cs atomic clocks, we develop a laser source generating two cross-polarized coherent laser fields at 852 nm. It relies on the dual-frequency and dual-polarization operation of an optically-pumped vertical external-cavity semiconductor laser

Internet-based medical education: a realist review of what works, for whom and in what circumstances

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Horloge à cellule de césium et piégeage cohérent de population : étude des principaux effets affectant la stabilité de la fréquence

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A CPT-based Cs vapor cell atomic clock with a short-term fractional frequency stability of 3 × 10−13 τ −1/2

International audienceThis article reports on the development and short-term fractional frequency stability of a continuous-regime (CW) Cs vapor cell atomic clock based on coherent population trapping (CPT). The push-pull optical pumping technique is used to increase the number of atoms that participate to the clock transition, yielding a typical CPT resonance contrast of 25 % for a CPT linewidth of about 450 Hz. The clock short-term fractional frequency stability is measured to be 3 × 10−13 τ −1/2 up to 100 seconds averaging time, in correct agreement with the signal-to-noise ratio limit. The mid-term frequency stability results are currently mainly limited by laser power effects. The detection of high-contrast narrow Raman-Ramsey fringes is demonstrated with this setup by making the atoms interact with a light pulse sequence

Ramsey-CPT spectroscopy-based Cs cell atomic clock

International audienceRecently, the new bright feature of the saturated-absorption resonance under the two-frequency counterpropagating light waves has been observed [1] (see Fig.1). It consists in observation of a nonlinear resonance with very high contrast. In spite of this effect is becoming very useful tool for laser frequency stabilization in CPT atom clocks [2, 3], it has not been understood and studied well enough. Here we focus on the detailed experimental as well as theoretical study of the new effect. At least three physical reasons have been revealed that can result in observation of enhanced absorption at the center of the resonance. Moreover, simultaneous and constructive action of these reasons cangreatly increase an amplitude of the nonlinear resonance, which can be two times bigger than a wide Doppler background. Theory is based on a well-known -scheme of atomic energy levels. The scheme has provided us with very clear physical interpretation of the effect. The real structure of atomic energy levels with taking into account all magnetic sublevels has been also considered

Significant reduction of power light-shift in a CPT-based Vs cell clock with optimized auto-balanced Ramsey interrogation protocol

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