Laser Pulse Formation by Balanced Self Phase Modulation, Group Velocity Dispersion, Saturable Absorption, and Saturable Gain

R. L. Fork; J. P. Gordon; J. A. Valdmanis

doi:10.1364/IDLNOS.1985.FC2

International Meeting on Instabilities and Dynamics of Lasers and Nonlinear Optical Systems
Technical Digest Series (Optica Publishing Group, 1985),
paper FC2
•https://doi.org/10.1364/IDLNOS.1985.FC2

Laser Pulse Formation by Balanced Self Phase Modulation, Group Velocity Dispersion, Saturable Absorption, and Saturable Gain

R. L. Fork, J. P. Gordon, and J. A. Valdmanis

Instabilities and Dynamics of Lasers and Nonlinear Optical Systems 1985

Rochester, New York United States
18–21 June 1985
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Short Pulse Formation (FC)

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R. L. Fork, J. P. Gordon, and J. A. Valdmanis, "Laser Pulse Formation by Balanced Self Phase Modulation, Group Velocity Dispersion, Saturable Absorption, and Saturable Gain," in International Meeting on Instabilities and Dynamics of Lasers and Nonlinear Optical Systems, Technical Digest Series (Optica Publishing Group, 1985), paper FC2.

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Abstract

We examine, experimentally and theoretically, the nonlinear dynamics of a laser which generates pulses as short as 27 fs directly from the laser (1), Fig. 1 . The laser shapes the intracavity pulses by a balanced combination of self phase modulation, group velocity dispersion, saturable absorption, and saturable gain which appears different from the shaping mechanisms in earlier lasers where the pulse shaping was due principally to saturable absorption and gain (2), or to soliton-like mechanisms in an optical fiber (3). The shaping which we discuss also offers advantages over prior modelocking mechanisms in that it yields enhanced stability, a close approach to transform limit, and pulses which are, to our knowledge, the shortest yet generated from a laser.

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