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Atomic spectroscopy and laser frequency stabilization with scalable micrometer and sub-micrometer vapor cells

Eliran Talker, Roy Zektzer, Yefim Barash, Noa Mazurski, Uriel Levy

2020Journal of Vacuum Science & Technology B Nanotechnology and Microelectronics Materials Processing Measurement and Phenomena14 citationsDOI

Abstract

We report on the atomic spectroscopy and laser frequency stabilization using a new type of a miniaturized glass vapor cell with a scalable thickness varying from 500 nm up to 8 μm. The cell is fabricated by lithography and etching techniques in a Pyrex glass substrate, followed by anodic bonding. It is filled with rubidium vapor using a distillation procedure. This simple and cost-effective fabrication method provides an attractive and compact solution for atomic cells, with applications in quantum metrology, sensing, communication, and light-vapor manipulations at the subwavelength scale. Using the fabricated cell, we have performed fluorescence and transmission spectroscopy of the Rubidium D2 line and observed sub-Doppler broadened lines. As an example, for a potential application, we have used the fabricated cell to demonstrate the stabilization of a 780 nm diode laser to the level about 10−10 in fractional frequency.

Topics & Concepts

Materials scienceSpectroscopyRubidiumOptoelectronicsAtomic clockFabricationEtching (microfabrication)LaserNanolithographyMicrometerOpticsNanotechnologyPotassiumMedicineMetallurgyPhysicsPathologyLayer (electronics)Quantum mechanicsAlternative medicineAtomic and Subatomic Physics ResearchQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein Condensates
Atomic spectroscopy and laser frequency stabilization with scalable micrometer and sub-micrometer vapor cells | Litcius