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| Format: | Preprint |
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2025
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| Online-Zugang: | https://arxiv.org/abs/2503.01681 |
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| _version_ | 1866917943953063936 |
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| author | Rivera-Aguilar, Carlos Manuel Mursa, Andrei Carlé, Clément Friedt, Jean-Michel Klinger, Emmanuel Hafiz, Moustafa Abdel Passilly, Nicolas Boudot, Rodolphe |
| author_facet | Rivera-Aguilar, Carlos Manuel Mursa, Andrei Carlé, Clément Friedt, Jean-Michel Klinger, Emmanuel Hafiz, Moustafa Abdel Passilly, Nicolas Boudot, Rodolphe |
| contents | We present a coherent-population trapping (CPT) microcell atomic clock using symmetric auto-balanced Ramsey (SABR) spectroscopy. The pulsed SABR sequence is applied through direct current-based power modulation of the vertical-cavity surface-emitting laser, eliminating the need for an external optical shutter and enabling compatibility with fully-integrated clocks. The sequence is controlled by a single FPGA-based digital electronics board. A key aspect of proper clock operation was the implementation of a real-time tracking of the atomic signal detection window. The clock frequency dependence on laser power, microwave power, laser frequency, and timing of the detection window has been measured, obtaining sensitivity coefficients lower than those obtained with Ramsey-CPT spectroscopy. The Allan deviation of the SABR-CPT clock, based on a microfabricated cell with low-permeation glass windows, is 1.1~$\times$~10$^{-9}$ at 1~s and averages down to the low 10$^{-12}$ range at 1 day integration time. These results pave the way towards the development of Ramsey-CPT chip-scale atomic clocks with enhanced timekeeping performances. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2503_01681 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Microcell CPT atomic clock using laser current-actuated power modulation with 10$^{-12}$ range stability at 1 day Rivera-Aguilar, Carlos Manuel Mursa, Andrei Carlé, Clément Friedt, Jean-Michel Klinger, Emmanuel Hafiz, Moustafa Abdel Passilly, Nicolas Boudot, Rodolphe Atomic Physics We present a coherent-population trapping (CPT) microcell atomic clock using symmetric auto-balanced Ramsey (SABR) spectroscopy. The pulsed SABR sequence is applied through direct current-based power modulation of the vertical-cavity surface-emitting laser, eliminating the need for an external optical shutter and enabling compatibility with fully-integrated clocks. The sequence is controlled by a single FPGA-based digital electronics board. A key aspect of proper clock operation was the implementation of a real-time tracking of the atomic signal detection window. The clock frequency dependence on laser power, microwave power, laser frequency, and timing of the detection window has been measured, obtaining sensitivity coefficients lower than those obtained with Ramsey-CPT spectroscopy. The Allan deviation of the SABR-CPT clock, based on a microfabricated cell with low-permeation glass windows, is 1.1~$\times$~10$^{-9}$ at 1~s and averages down to the low 10$^{-12}$ range at 1 day integration time. These results pave the way towards the development of Ramsey-CPT chip-scale atomic clocks with enhanced timekeeping performances. |
| title | Microcell CPT atomic clock using laser current-actuated power modulation with 10$^{-12}$ range stability at 1 day |
| topic | Atomic Physics |
| url | https://arxiv.org/abs/2503.01681 |