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All-Optical transistor action in photonic band gap materials

All-Optical transistor action in photonic band gap materials
All-Optical transistor action in photonic band gap materials

We describe all-optical transistor action in photonic band gap materials doped with active atoms. In the presence of a photonic band gap (PBG) material, a coherent laser beam with the frequency slightly detuned from the resonant atomic transition frequency can drive a collection of two-level atoms to an almost totally inverted state, a phenomenon strictly forbidden in ordinary vacuum. By changing the laser field intensity in the neighborhood of a threshold value, it is possible to drive the atomic system through a transition from states in which the atoms populate preferentially the ground level to almost totally inverted states. In this process, the atomic system switches from a passive medium (highly absorptive) to a active medium (highly amplifying). The switching action in a PBG material is not associated with operating near a narrow cavity resonance with conventional trade-off between switching time and switching threshold intensity. Rather it is associated with an abrupt discontinuity in the engineered broad band electromagnetic density of states of the PBG material. We demonstrate all-optical transistor action in PBG materials by analyzing the absorption spectrum of a second probe laser beam and we show that the probe beam experience a substantial differential gain by slight intensity modulations in the control laser field.
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
John, Sajeev
ba4555dc-5a56-4038-a64e-99c4abd0b974
Lessard, Roger A.
8bc97261-245d-41f6-93ef-dbd171846328
Lampropoulos, George A.
61246108-a231-4e51-ab1a-cc2894a21a7a
Schinn, Gregory W.
56b39fc8-cc0a-4ed2-9660-97420d122c8b
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
John, Sajeev
ba4555dc-5a56-4038-a64e-99c4abd0b974
Lessard, Roger A.
8bc97261-245d-41f6-93ef-dbd171846328
Lampropoulos, George A.
61246108-a231-4e51-ab1a-cc2894a21a7a
Schinn, Gregory W.
56b39fc8-cc0a-4ed2-9660-97420d122c8b

Florescu, Marian and John, Sajeev (2003) All-Optical transistor action in photonic band gap materials. Lessard, Roger A., Lampropoulos, George A. and Schinn, Gregory W. (eds.) In SPIE Proceedings. (doi:10.1117/12.474416).

Record type: Conference or Workshop Item (Paper)

Abstract


We describe all-optical transistor action in photonic band gap materials doped with active atoms. In the presence of a photonic band gap (PBG) material, a coherent laser beam with the frequency slightly detuned from the resonant atomic transition frequency can drive a collection of two-level atoms to an almost totally inverted state, a phenomenon strictly forbidden in ordinary vacuum. By changing the laser field intensity in the neighborhood of a threshold value, it is possible to drive the atomic system through a transition from states in which the atoms populate preferentially the ground level to almost totally inverted states. In this process, the atomic system switches from a passive medium (highly absorptive) to a active medium (highly amplifying). The switching action in a PBG material is not associated with operating near a narrow cavity resonance with conventional trade-off between switching time and switching threshold intensity. Rather it is associated with an abrupt discontinuity in the engineered broad band electromagnetic density of states of the PBG material. We demonstrate all-optical transistor action in PBG materials by analyzing the absorption spectrum of a second probe laser beam and we show that the probe beam experience a substantial differential gain by slight intensity modulations in the control laser field.

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Published date: 17 February 2003

Identifiers

Local EPrints ID: 501660
URI: http://eprints.soton.ac.uk/id/eprint/501660
DOI: doi:10.1117/12.474416
PURE UUID: f879cd5a-0c1b-42fc-a82f-8569ece29b1a
ORCID for Marian Florescu: ORCID iD orcid.org/0000-0001-6278-9164

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Date deposited: 04 Jun 2025 17:17
Last modified: 05 Jun 2025 02:15

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Contributors

Author: Marian Florescu ORCID iD
Author: Sajeev John
Editor: Roger A. Lessard
Editor: George A. Lampropoulos
Editor: Gregory W. Schinn

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