Atom-photon interactions in atomic vapor waveguides

In this talk we will introduce the concept of the atomic cladded waveguide and discuss the physics and the applications of light-vapor interactions at the nanoscale. We will start by demonstrating the spectroscopy of the cell, followed by demonstrating effects such as long coherence, velocity selection and optical information processing.

We will also show that this platform is useful for optical frequency referencing at the telecom band. Finally, applications in the mid IR will be explored.
References:
1 – R. Zektzer, N. Mazurski, Y. Barash, and U. Levy, Nature. Phot. 15, 772–779 (2021).
2 – E. Talker, P. Arora, R. Zektzer, Y. Sebbag, M. Dikopltsev, and U. Levy, Phys. Rev. Applied, 15, L051001, (2021).
3 – Y. Sebbag, E. Talker, A. Naiman, Y. Barash, and U. Levy, Light: Science & Applications, 10, 54 (2021).
4 – R. Zektzer, E. Talker, Y. Barash, N. Mazurski, L. Stern, and U. Levy, ACS Photonics 8, 879–886, (2021).
5 – Y. Sebbag, A. Naiman, E. Talker, Y. Barash, and U. Levy, ACS Photonics 8, 142–146 (2021).
6- Y. Sebbag, R. Zektzer, Y. Barash, and U. Levy, ACS Photonics 7 (6), 1508-1514 (2020).
7- R. Zektzer, M.T. Hummon, L. Stern, Y. Sebbag, Y. Barash, N. Mazurski, J. Kitching, U. Levy, Laser & Photonics Reviews, 14 (6), 1900414 (2020).
8- Y. Sebbag, Y. Barash, U. Levy, Optics Letters 44 (4), 971-974 (2019).
9- R. Zektzer, E. Talker, Y. Barash, N. Mazurski, U. Levy, Optica 6 (1), 15-18 (2019).
10 – R. Zektzer, L. Stern, N. Mazurski, and U. Levy, Optica 5 (4), 486-494 (2018).
11 – L. Stern, M. Grajower, N. Mazurski, and U. Levy, “Magnetically controlled atomic-plasmonic Fano resonances,” Nano letters 18 (1), 202–207 (2018).
12- L. Stern, B. Desiatov, N. Mazurski, and U. Levy, Nature Commun 8, 14461(2017).
13 – L. Stern, R. Zektzer, N. Mazurski and U. Levy, Laser and photonics reviews 10 (6) 1016-1022 (2016).
14- R. Zektzer, L. Stern, N. Mazurski, and U. Levy, Appl. Phys. Lett, 109, 011103 (2016).
15- L. Stern, B. Desiatov, I. Goykhman, and U. Levy, Nature Comm. 4, 1548 (2013).
16- L. Stern and U. Levy, Opt. Express 20, 28082-28093 (2012).

An invited speaker presentation by Uriel Levy, Professor for nano photonics at The Institute of applied physics and the center for Nanoscience and nanotechnology The Hebrew University of Jerusalem.

About The Institute of applied physics and the center for Nanoscience and nanotechnology, The Hebrew University of Jerusalem
The Hebrew University Center for Nanoscience and Nanotechnology mission is to support the fabrication and characterization of nanoscale devices and materials for both academic and industrial users. We do this by maintaining a state-of-the-art well-equipped cleanroom facility and advanced characterization instruments with a wide range of capabilities, all operated by our highly professional staff, who are who are experts in their field. On top of being a core facility center, the nano Center provides a platform for research collaborations, encourages Interdisciplinary approach between its faculty members, Initiates and produces various events to promote knowledge and research in Nano and train the next generation of scientists by M.Sc. track with specialization in Nano.

For more information visit the website.

Professor Uriel Levy is invited speaker at the 2024 edition of the European Conference on Integrated Optics.

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