Título
Numerical investigation of gas-filled multipass cells in the enhanced dispersion regime for clean spectral broadening and pulse compression
Autor(es)
Palabras clave
Hollow core fibers
Laser sources
Laser systems
Numerical simulation
Pulse compression
Ultrashort pulses
Fecha de publicación
2023-05
Citación
Staels, V. W. Segundo, E. Conejero Jarque, D. Carlson, M. Hemmer, H. C. Kapteyn, M. M. Murnane, y J. San Roman. 2023. «Numerical investigation of gas-filled multipass cells in the enhanced dispersion regime for clean spectral broadening and pulse compression». Opt. Express 31(12):18898-906. doi: 10.1364/OE.481054.
Resumen
We show via numerical simulations that the regime of enhanced frequency chirp can be achieved in gas-filled multipass cells. Our results demonstrate that there exists a region of pulse and cell parameters for which a broad and flat spectrum with a smooth parabolic-like phase can be generated. This spectrum is compatible with clean ultrashort pulses, whose secondary structures are always below the 0.5% of its peak intensity such that the energy ratio (the energy contained within the main peak of the pulse) is above 98%. This regime makes multipass cell post-compression one of the most versatile schemes to sculpt a clean intense ultrashort optical pulse.
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