Electromagnetically induced transparency in an atom-molecule   Bose-Einstein condensate

Guang-Ri Jin; Chul Koo Kim; and Kyun Nahm

arXiv:cond-mat/0603094·cond-mat.other·June 25, 2015

Electromagnetically induced transparency in an atom-molecule Bose-Einstein condensate

Guang-Ri Jin, Chul Koo Kim, and Kyun Nahm

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TL;DR

This paper introduces a novel measurement scheme using electromagnetically induced transparency (EIT) to detect dark states in an atom-molecule Bose-Einstein condensate, supported by numerical calculations of absorption spectra.

Contribution

It presents a new EIT-based method for observing dark states in atom-molecule BECs, advancing experimental techniques in quantum state detection.

Findings

01

EIT dip observed in spectra confirms dark state creation.

02

Numerical density-matrix calculations support the proposed scheme.

03

The method provides a clear spectroscopic signature of atom-molecule dark states.

Abstract

We propose a new measurement scheme for the atom-molecule dark state by using electromagnetically induced transparency (EIT) technique. Based on a density-matrix formalism, we calculate the absorption coefficient numerically. The appearance of the EIT dip in the spectra profile gives clear evidence for the creation of the dark state in the atom-molecule Bose-Einstein condensate.

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