Options
Miletic, Danijela
Nom
Miletic, Danijela
Affiliation principale
Fonction
Ancien.ne collaborateur.trice
Identifiants
Résultat de la recherche
4 Résultats
Voici les éléments 1 - 4 sur 4
- PublicationAccès libreMetrological characterization of custom-designed 894.6 nm VCSELs for miniature atomic clocks(2013-11-8)
; ;Al-Samaneh, Ahmed ;Kroemer, Eric ;Bimboes, Laura; ; ;Wahl, Dietmar ;Boudot, Rodolphe; Michalzik, Rainer - PublicationAccès libreFirst-order cancellation of the Cs clock frequency temperature-dependence in Ne-Ar buffer gas mixture(2011)
;Boudot, Rodolphe; ;Dziuban, Piotr; ;Knapkiewicz, Pawel ;Dziuban, Jan; ;Giordano, VincentGorecki, ChristopheThrough the detection of Coherent Population Trapping (CPT) resonances, we demonstrate the temperature-dependence cancellation of the Cs clock frequency in microfabricated vapor cells filled with a mixture of Ne and Ar. The inversion temperature at which the Cs clock frequency temperature sensitivity is greatly reduced only depends on the partial pressure of buffer gases and is measured to be lower than 80±C as expected with simple theoretical calculations. These results are important for the development of state-of-the-art Cs vapor cell clocks with improved long-term frequency stability. - PublicationAccès libreQuadratic dependence on temperature of Cs 0-0 hyperfine resonance frequency in single Ne buffer gas microfabricated vapour cell(2010)
; ;Dziuban, Piotr ;Boudot, Rodolphe ;Hasegawa, M. ;Chutani, R.K.; ;Giordano, VincentGorecki, ChristophePresented is the observation of a quadratic temperature dependence of the Cs 0-0 ground state hyperfine resonance frequency in a single Neon (Ne) buffer gas vapour microcell. The inversion temperature, expected to be theoretically independent of the buffer gas pressure, is measured to be about 80-C for two different samples. A proposal to develop chip scale atomic clocks with improved long-term frequency stability, simpler configuration (a single buffer gas instead of a buffer gas mixture) and then relaxed constraints on pressure accuracy during the cell filling procedure is presented. - PublicationAccès libreMetrological characterization of custom-designed 894.6 nm VCSELs for miniature atomic clocks
; ;Al-Samaneh, Ahmed ;Kroemer, Eric ;Bimboes, Laura; ; ;Wahl, Dietmar ;Boudot, Rodolphe; Michalzik, RainerWe report on the characterization and validation of custom-designed 894.6 nm vertical-cavity surface-emitting lasers (VCSELs), for use in miniature Cs atomic clocks based on coherent population trapping (CPT). The laser relative intensity noise (RIN) is measured to be 1×10−11 Hz−1 at 10 Hz Fourier frequency, for a laser power of 700 μW. The VCSEL frequency noise is 1013 ƒ −1 Hz2/Hz in the 10 Hz < ƒ < 105 Hz range, which is in good agreement with the VCSEL’s measured fractional frequency instability (Allan deviation) of ≈ 1 × 10−8 at 1 s, and also is consistent with the VCSEL’s typical optical linewidth of 20–25 MHz. The VCSEL bias current can be directly modulated at 4.596 GHz with a microwave power of −6 to +6 dBm to generate optical sidebands for CPT excitation. With such a VCSEL, a 1.04 kHz linewidth CPT clock resonance signal is detected in a microfabricated Cs cell filled with Ne buffer gas. These results are compatible with state-of-the-art CPT-based miniature atomic clocks exhibiting a short-term frequency instability of 2–3×10−11 at τ = 1 s and few 10−12 at τ = 104 s integration time.