Microwave-induced three-photon coherence of Rydberg atomic states

We investigate the three-photon coherence (TPC) effects of the Rydberg state in a Doppler-broadened four-level ladder-type atomic system for the 5S1/2(F=3)–5P3/2(F′=4)–50D5/2–51P3/2 transition of 85Rb atoms. Upon interaction of the Rydberg Rb atom of the ladder-type electromagnetically induced trans...

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Bibliographic Details
Published in:Optics communications 2016-12, Vol.380, p.168-173
Main Authors: Kwak, Hyo Min, Jeong, Taek, Lee, Yoon-Seok, Moon, Han Seb
Format: Article
Language:English
Subjects:
Rydberg EIT
Three-photon coherence
Three-photon electromagnetically induced absorption
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Summary:We investigate the three-photon coherence (TPC) effects of the Rydberg state in a Doppler-broadened four-level ladder-type atomic system for the 5S1/2(F=3)–5P3/2(F′=4)–50D5/2–51P3/2 transition of 85Rb atoms. Upon interaction of the Rydberg Rb atom of the ladder-type electromagnetically induced transparency (EIT) scheme with a resonant microwave (MW) field, we numerically analyze the spectral features of the Rydberg TPC from two viewpoints, Autler–Townes splitting (AT-splitting) of the Rydberg EIT and three-photon electromagnetically induced absorption (TPEIA). We determine the criterion to differentiate between AT-splitting of the Rydberg EIT and TPEIA in the Doppler-broadened ladder-type atomic system. •In this paper, we present a study of three-photon coherence (TPC) of Rydberg states in a ladder system where the upper transition is a microwave coupling between close lying Rydberg states for the 5S1/2(F=3)–5P3/2(F′=4)–50D5/2–51P3/2 transition of 85Rb atoms.•The main results of the paper are numerically analyzed the spectral features of the Rydberg TPC from two viewpoints, Autler–Townes splitting (AT-splitting) of the Rydberg EIT and three-photon electromagnetically induced absorption (TPEIA).•We determine the criterion to differentiate between AT-splitting of the Rydberg EIT and TPEIA in the Doppler-broadened ladder-type atomic system.•We believe that our results contribute to an understanding of multi-photon coherence effects in the Rydberg states with microwave interactions.
ISSN:0030-4018
1873-0310
DOI:10.1016/j.optcom.2016.06.004