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"A theoretical description of Fourier domain mode locked lasers" Christian Jirauschek, Benjamin Biedermann, Robert HuberOptics Express 17, 24013-24019 (2009) Abstract: The first theoretical model of Fourier domain mode locking operation is presented. A specially tailored dynamic equation in a moving spectral reference frame is derived, enabling efficient numerical treatment, despite the broad laser spectrum and the extremely long cavity. The excellent agreement of the presented theory with experiment over a wide range of operation parameters enables a quantitative assessment of the relevant physical effects, such as the spectral loss modulation and gain saturation dynamics, amplified spontaneous emission, linewidth enhancement, and self-phase modulation. BMO authors (in alphabetic order): Benjamin Biedermann Robert Huber Assoziierte Projekte: Fourier Domain Mode Locking (FDML): Spectral mode locking in optics and applications  WWW-Version |