Enhanced Self-Action Effects and Slow-Light Optical Solitons by Electromagentically Induced Transparency in the Two-Level Atom

R. W. Boyd; D. Aronstein; R. Bennink; S. Lukishova; Q-H Park; C. Stroud; V. Wong

doi:10.1364/NLO.2000.WC3

Nonlinear Optics: Materials, Fundamentals and Applications
OSA Trends in Optics and Photonics (Optica Publishing Group, 2000),
paper WC3
•https://doi.org/10.1364/NLO.2000.WC3

Enhanced Self-Action Effects and Slow-Light Optical Solitons by Electromagentically Induced Transparency in the Two-Level Atom

R. W. Boyd, D. Aronstein, R. Bennink, S. Lukishova, Q-H Park, C. Stroud, and V. Wong

Nonlinear Optics: Materials, Fundamentals and Applications 2000

Kaua'i-Lihue, Hawaii United States
ISBN: 1-55752-645-1

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Nonlinear Optics in Atomic Systems (WC)

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R. W. Boyd, D. Aronstein, R. Bennink, S. Lukishova, Q. Park, C. Stroud, and V. Wong, "Enhanced Self-Action Effects and Slow-Light Optical Solitons by Electromagentically Induced Transparency in the Two-Level Atom," in Nonlinear Optics: Materials, Fundamentals and Applications, T. Li, ed., Vol. 46 of OSA Trends in Optics and Photonics (Optica Publishing Group, 2000), paper WC3.

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Abstract

Electromagnetically induced transparency (EIT) has been studied primarily within the context of a multilevel atomic system. We show that EIT can occur in a two-level atomic system and can lead to strong self-action effects that are not hampered by material absorption, with important implications for processes such as squeezed-light generation and the propagation of optical solitons.

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