Laser breakdown with millijoule trains of picosecond pulses transmitted through a hollow-core photonic-crystal fibre

Sequences of picosecond pulses with a total energy in the pulse train of about 1 mJ are transmitted through a hollow-core photonic-crystal fibre with a core diameter of approximately 14 *mm. The fluence of laser radiation coupled into the core of the fibre under these conditions exceeds the breakdow...

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Published inJournal of physics. D, Applied physics Vol. 36; no. 12; pp. 1375 - 1381
Main Authors Konorov, S O, Fedotov, A B, Kolevatova, O A, Beloglazov, V I, Skibina, N B, Shcherbakov, A V, Wintner, E, Zheltikov, A M
Format Journal Article
LanguageEnglish
Russian
Published Bristol IOP Publishing 21.06.2003
Institute of Physics
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Abstract Sequences of picosecond pulses with a total energy in the pulse train of about 1 mJ are transmitted through a hollow-core photonic-crystal fibre with a core diameter of approximately 14 *mm. The fluence of laser radiation coupled into the core of the fibre under these conditions exceeds the breakdown threshold of fused silica by nearly an order of magnitude. The laser beam coming out of the fibre is then focused to produce a breakdown on a solid surface. Parameters of laser radiation were chosen in such a way as to avoid effects related to the excitation of higher order waveguide modes and ionization of the gas filling the fibre in order to provide the possibility to focus the output beam into a spot with a minimum diameter, thus ensuring the maximum spatial resolution and the maximum power density in the focal spot.
AbstractList Sequences of picosecond pulses with a total energy in the pulse train of about 1 mJ are transmitted through a hollow-core photonic-crystal fibre with a core diameter of approximately 14 *mm. The fluence of laser radiation coupled into the core of the fibre under these conditions exceeds the breakdown threshold of fused silica by nearly an order of magnitude. The laser beam coming out of the fibre is then focused to produce a breakdown on a solid surface. Parameters of laser radiation were chosen in such a way as to avoid effects related to the excitation of higher order waveguide modes and ionization of the gas filling the fibre in order to provide the possibility to focus the output beam into a spot with a minimum diameter, thus ensuring the maximum spatial resolution and the maximum power density in the focal spot.
Author Fedotov, A B
Zheltikov, A M
Beloglazov, V I
Shcherbakov, A V
Skibina, N B
Konorov, S O
Kolevatova, O A
Wintner, E
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  fullname: Skibina, N B
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  fullname: Shcherbakov, A V
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  fullname: Wintner, E
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