T.-S. Hung, Y.-C. Ho, Y.-L. Chang, S.-J. Wong, H.-H. Chu, J.-Y. Lin, J. Wang, and S.-Y. Chen*
Physics of Plasmas 19, 063109 (2012).
Programmable fabrication of longitudinal spatial structures in an optically preformed plasma waveguide in a gas jet was achieved, by using laser machining with a liquid-crystal spatial light modulator as the pattern mask. Fabrication of periodic structures with a minimal period of 200 lm and density-ramp structures with a minimal slope length of 100 lm was attained. The technique is useful for the optimization of various laser-plasma-based photon and particle sources.
Y.-C. Ho, T.-S. Hung, C.-P. Yen, S.-Y. Chen*
Physics of Plasmas 18, 063102 (2011).
A systematic experimental study on injection of electrons in a gas-jet-based laser wakefield accelerator via ionization of dopant was conducted. The pump-pulse threshold energy for producing a quasi-monoenergetic electron beam was significantly reduced by doping the hydrogen gas jet with argon atoms, resulting in a much better spatial contrast of the electron beam. Furthermore, laser wakefield electron acceleration in an optically preformed plasma waveguide based on the axicon-ignitor-heater scheme was achieved. It was found that doping with argon atoms can also lower the pump-pulse threshold energy in this experimental configuration.
P.-H. Lin, M.-C. Chou, M.-J. Jiang, P.-C. Tseng, H.-H. Chu, J.-Y. Lin, J. Wang, and S.-Y. Chen*
Optics Letters 34, 3562 (2009).
A strongly saturated waveguide-based optical-field-ionization soft-x-ray laser seeded by high harmonic generation was demonstrated for Ni-like Kr lasing at 32.8 nm. Compared with the same laser seeded only with spontaneous emission, seeding with high harmonics yields much smaller divergence, enhanced spatial coherence, and controlled polarization. The integration of high harmonic seeding, optically preformed plasma waveguide, and optical-field-ionization pumping forms one of the optimal archetypes of an ultrashort-pulse soft-x-ray laser.