Title :
VUV laser in the Lyman band of molecular hydrogen pumped by fs titanium-sapphire laser pulses
Author :
Insam, Stefan ; Tommasini, Riccardo ; Fill, Ernst E.
Author_Institution :
Max-Planck-Inst. fur Quantenopt., Garching bei Munchen, Germany
Abstract :
We report lasing at 160 nm in the Lyman band of molecular hydrogen. The laser is pumped by 200 mJ/150 fs pulses from the ATLAS titanium-sapphire laser at our institute. The pump pulses are focused at an angle of incidence of 60° onto a 9-cm-long gold target to a line focus, generating traveling-wave excitation. With 80 mbar of hydrogen in the target chamber we measure an average gain of 1.1 cm-1 and achieve a total gain-length product of 10. The evaluation of the far-field pattern shows that the beam originates from a region with an electron density of 5×1015 cm-3. A simple model of the H2 laser is presented which explains the main part of our observations and supports a pump mechanism of photoelectron pumping
Keywords :
X-ray lasers; electron density; gas lasers; hydrogen neutral molecules; laser transitions; optical pumping; 150 fs; 160 nm; 200 mJ; 80 mbar; 9 cm; ATLAS titanium-sapphire laser; Al2O3:Ti; Au; H2; H2 laser; Lyman band; VUV laser; angle of incidence; average gain; electron density; far-field pattern; fs titanium-sapphire laser pulses; gold target; lasing; line focus; molecular hydrogen; photoelectron pumping; pump pulses; target chamber; total gain-length product; traveling-wave excitation; Electron beams; Gain measurement; Gold; Hydrogen; Laser beams; Laser excitation; Laser modes; Optical pulse generation; Optical pulses; Pump lasers;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.814991
