Samuel Bohman scite author profile

We demonstrate methods to increase the energy incident on hollow fibers for spectral broadening by self-phase modulation. We used chirped pulses for spectral broadening, lowering the optical intensity to avoid ionization of the gaseous medium. We also used helium as a nonlinear medium and demonstrated the generation of 5.0fs, 5.0mJ pulses at a repetition rate of 1kHz using a pressure gradient hollow-fiber pulse compressor.

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Pointing stabilization of a high-repetition-rate high-power femtosecond laser for intense few-cycle pulse generation

Kanai

Suda

Bohman

et al. 2008

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Optical Pulse Compression of Ultrashort Laser Pulses in an Argon-Filled Planar Waveguide

et al. 2006

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We investigate the possibility of optical pulse compression of high energy ultrashort laser pulses in an argon-filled planar waveguide, based on two level coupled mode theory and the full 3D nonlinear Schrödinger equation. We derive general expressions for controlling the spatial beam profile and the extent of the spectral broadening. The analysis and simulations suggest that the proposed method should be appropriate for optical pulse compression of ultrashort laser pulses with energies as high as 600 mJ.

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Generation of 5 fs, 0.5 TW pulses focusable to relativistic intensities at 1 kHz

Bohman¹,

Suda²,

Kaku³

et al. 2008

Opt. Express

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We have demonstrated the generation of 5 fs, 0.5 TW pulses at 1 kHz repetition rate using a pulse compression technique in a hollow fiber with a pressure gradient. Owing to the excellent beam quality by passing through the hollow fiber, the beam after pulse compression could be focused to a nearly diffraction-limited spot size. We obtained for the first time a peak intensity as high as 5x10(18) W/cm(2) in the 2-cycle regime.

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Samuel Bohman

Generation of 50 fs, 50 mJ pulses at 1 kHz using hollow-fiber pulse compression

Pointing stabilization of a high-repetition-rate high-power femtosecond laser for intense few-cycle pulse generation

Optical Pulse Compression of Ultrashort Laser Pulses in an Argon-Filled Planar Waveguide

Generation of 5 fs, 0.5 TW pulses focusable to relativistic intensities at 1 kHz

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