Theoretical and experimental study on femtosecond laser induced damage in CaF2 crystals

T. Q. Jia; X. X. Li; D. H. Feng; C. F. Cheng; R. X. Li; H. Chen; Z. Z. Xu

doi:10.1007/s00339-004-2685-z

Theoretical and experimental study on femtosecond laser induced damage in CaF₂ crystals

T. Q. Jia^*
, X. X. Li
, D. H. Feng
, C. F. Cheng
, R. X. Li
, H. Chen
, Z. Z. Xu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

We report on the damage threshold in CaF₂ crystals induced by femtosecond laser at wavelengths of 800 nm and 400 nm, respectively. The dependences of ablation depths and ablation volumes on laser fluences are also presented. We investigate theoretically the coupling constants between phonon and conduction band electrons (CBE), and calculate the rates of CBE absorbing laser energy. A theoretical model including CBE production, laser energy deposition, and CBE diffusion is applied to study the damage mechanisms. Our results indicate that energy diffusion greatly influences damage threshold and ablation depth.

Original language	English
Pages (from-to)	645-649
Number of pages	5
Journal	Applied Physics A: Materials Science and Processing
Volume	81
Issue number	3
DOIs	https://doi.org/10.1007/s00339-004-2685-z
State	Published - Aug 2005
Externally published	Yes

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title = "Theoretical and experimental study on femtosecond laser induced damage in CaF2 crystals",

abstract = "We report on the damage threshold in CaF2 crystals induced by femtosecond laser at wavelengths of 800 nm and 400 nm, respectively. The dependences of ablation depths and ablation volumes on laser fluences are also presented. We investigate theoretically the coupling constants between phonon and conduction band electrons (CBE), and calculate the rates of CBE absorbing laser energy. A theoretical model including CBE production, laser energy deposition, and CBE diffusion is applied to study the damage mechanisms. Our results indicate that energy diffusion greatly influences damage threshold and ablation depth.",

author = "Jia, \{T. Q.\} and Li, \{X. X.\} and Feng, \{D. H.\} and Cheng, \{C. F.\} and Li, \{R. X.\} and H. Chen and Xu, \{Z. Z.\}",

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T1 - Theoretical and experimental study on femtosecond laser induced damage in CaF2 crystals

AU - Jia, T. Q.

AU - Li, X. X.

AU - Feng, D. H.

AU - Cheng, C. F.

AU - Li, R. X.

AU - Chen, H.

AU - Xu, Z. Z.

PY - 2005/8

Y1 - 2005/8

N2 - We report on the damage threshold in CaF2 crystals induced by femtosecond laser at wavelengths of 800 nm and 400 nm, respectively. The dependences of ablation depths and ablation volumes on laser fluences are also presented. We investigate theoretically the coupling constants between phonon and conduction band electrons (CBE), and calculate the rates of CBE absorbing laser energy. A theoretical model including CBE production, laser energy deposition, and CBE diffusion is applied to study the damage mechanisms. Our results indicate that energy diffusion greatly influences damage threshold and ablation depth.

AB - We report on the damage threshold in CaF2 crystals induced by femtosecond laser at wavelengths of 800 nm and 400 nm, respectively. The dependences of ablation depths and ablation volumes on laser fluences are also presented. We investigate theoretically the coupling constants between phonon and conduction band electrons (CBE), and calculate the rates of CBE absorbing laser energy. A theoretical model including CBE production, laser energy deposition, and CBE diffusion is applied to study the damage mechanisms. Our results indicate that energy diffusion greatly influences damage threshold and ablation depth.

UR - https://www.scopus.com/pages/publications/21644479342

U2 - 10.1007/s00339-004-2685-z

DO - 10.1007/s00339-004-2685-z

M3 - 文章

AN - SCOPUS:21644479342

SN - 0947-8396

VL - 81

SP - 645

EP - 649

JO - Applied Physics A: Materials Science and Processing

JF - Applied Physics A: Materials Science and Processing

IS - 3

ER -

Theoretical and experimental study on femtosecond laser induced damage in CaF₂ crystals

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