Transmission and time delay properties of an integrated system consisting of atomic vapor cladding on top of a micro ring resonator

Citation:

Liron Stern and Levy, Uriel . 2012. “Transmission And Time Delay Properties Of An Integrated System Consisting Of Atomic Vapor Cladding On Top Of A Micro Ring Resonator”. Optics Express, 20, 27, Pp. 28082–28093. doi:10.1364/OE.20.028082.

Abstract:

In this paper we analyze the transmission and time delay properties of light propagating through a microring resonator (MRR) consisting of a solid core waveguide surrounded by an atomic vapor cladding. Using the atomic effective susceptibility of Rubidium we derive the complex transmission spectrum of the integrated system. We show, that when the system is under-coupled, the transmission can exceed the standalone MRR's background transmission and is accompanied by enhanced positive time delay. It is shown that in this case the contrast of the atomic lines is greatly enhanced. This allows achieving high optical densities at short propagation length. Furthermore, owing to its features such as small footprint, high tunability, and high delay-transmission product, this system may become an attractive choice for chip scale manipulations of light.