Dubey, S., Kazakov, G., Zhou, S., Bennetts, S., Heizenreder, B., Famà, F., Beli Silva, C., & Schreck, F. (2024, June 27). Design and simulation of continuously-operating superradiant laser on 1S0 − 3P0 transition of neutral strontium [Poster Presentation]. 37th European Frequency and Time Forum, Neuchatel, Switzerland. https://doi.org/10.34726/8519
optical conveyor; Active optical clock; superradiant laser
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Abstract:
We report on the development towards active optical frequency standard based on superradiant laser continuously operating on the 3P0 – 1S0 transition of strontium atoms. Particularly, we report the modern design of the optical conveyor laser, and present results of simulations of both the loading and pumping process and the generation of the superradiance signal. We include relevant real-life effects, such as temperature of the atomic ensembles, collisions, and position-dependent shifts characteristics for our setup, and present optimized operational parameters.
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Research facilities:
Vienna Scientific Cluster
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Project title:
Modular Systems for Advanced Integrated Quantum Clocks: 860579 (European Commission)
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Additional information:
We report on the development towards active optical frequency standard based on superradiant laser continuously operating on the 3P0 – 1S0 transition of strontium atoms.
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Research Areas:
Quantum Modeling and Simulation: 20% Quantum Many-body Systems Physics: 40% Design and Engineering of Quantum Systems: 40%
