Controlling laser spectra in a phaseonium photonic crystal using maser

Pankaj K. Jha; C. Y. Lee; C. H. Raymond Ooi

arXiv:1205.5262·physics.atom-ph·June 5, 2015

Controlling laser spectra in a phaseonium photonic crystal using maser

Pankaj K. Jha, C. Y. Lee, C. H. Raymond Ooi

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TL;DR

This paper explores how microwave-driven masers can manipulate quantum resonances in phaseonium photonic crystals, enabling control over their spectral transmission and reflection properties through combined scattering effects.

Contribution

It introduces a novel method of controlling photonic crystal spectra using maser-induced effects alongside traditional laser control.

Findings

01

Maser phase and intensity influence quantum resonance behavior.

02

Hyperfine resonances are generated through multiple scattering.

03

Spectral transmission and reflection can be precisely tuned.

Abstract

We study the control of quantum resonances in photonic crystals with electromagnetically induced transparency driven by microwave field. In addition to the control laser, the intensity and phase of the maser can alter the transmission and reflection spectra in interesting ways, producing hyperfine resonances through the combined effects of multiple scattering in the superstructure.

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