Energy exchange between the lattice and electrons in a metal under femtosecond laser irradiation

YU.V. PETROV

doi:10.1017/S0263034605050391

Abstract

The energy transfer rate between the lattice and electrons in strongly nonequilibrium electron-phonon system of crystalline aluminum created by ultrashort femtosecond laser pulse is calculated in the frame of two-temperature model for a wide range of electron temperature. It is shown that the energy, transmitted from electrons to the lattice per unit volume of the crystal per unut time strongly increases when taking into account the umklapp processes in the electron-phonon scattering.

References

REFERENCES

Allen, P.B. (1987). Theory of thermal relaxation of electrons in metals. Phys. Rev. Lett. 59, 1460–1462.CrossRef Google Scholar

Alouani Bibi, F., Matte, J.-P. & Kieffer, J.-C. (2004a). Fokker-Planck simulations of hot electron transport in solid density plasma. Laser Part. Beams 22, 97–102.Google Scholar

Alouani Bibi, F. & Matte, J.-P. (2004b). Nonlocal electron heat transport and election-ion energy transfer in the presence of strong collisional heating. Laser Part. Beams 22, 103–108.Google Scholar

Anisimov, S.I., Kapeliovich, B.L. & Perel'man, T.L. (1974). Electron emission from metal surfaces exposed to ultrashort laser pulses. Zh. Eksp. Teor. Fix. 66, 776–781; Sov. Phys. JETP 39, 375–377.Google Scholar

Anisimov, S.I., Benderskii, V.A. & Farkas, Gy. (1977). Non-linear photoelectric effect in metals produced by a laser radiation. Usp. Fiz. Nauk. 122, 185–222; Sov. Phys.-Uspekhi 20, 467–488.Google Scholar

Ashitkov, S.I., Agranat, M.B., Kondratenko, P.S., Anisimov, S.I., Fortov, V.E., Temnov, V.V., Sokolovski-Tinten, K., Rethfeld, B., Zhou, P. & von der Linde, D. (2002). Ultrafast laser-induced phase transitions in tellurium. Pis'ma v ZhETF 76, 538–541.CrossRef Google Scholar

Fal'kovskii, L.A. & Mishchenko, E.G. (1997). Lattice deformation from interaction with electrons heated by an untrashort laser pulse. Pis'ma v ZhETF 66, 195–199; JETP Lett. 66, 208–213.Google Scholar

Girifalco, L.A. (1973). Statistical Physics of Materials. New York: John Wiley & Sons.

Kaganov, M.I., Lifshits, I.M. & Tanatarov, L.V. (1957). Relaxation between electrons and a lattice. Zh. Eksp. Teor. Fiz. 31, 232–237; Sov. Phys. JETP 4, 173–178.Google Scholar

Landau, L.D. & Lifshits, E.M. (1980). Statistical Physics. Oxford: Pergamon.

Lugovskoy, A.V. & Bray, I. (1999). Ultrafast electron dynamics in metals under laser irradiation. Phys. Rev. B 60, 3279–3288.CrossRef Google Scholar

Medvedev, D.M. & Petrov, Yu.V. (1999). Dependence of the phonon spectrum of a metal on electron temperature in a nonequilibrium electron-phonon system. Zh. Eksp. Teor. Fiz. 115, 231–242; JETP 88, 128–134.Google Scholar

Rethfeld, B., Kaiser, A., Vicanek, M. & Simon, G. (2002). Ultrafast dynamics of nonequilibrium electrons in metals under femtosecond laser irradiation. Phys. Rev. B 65, 214303 (1–11).Google Scholar

Schoenlein, R.W., Lin, W.Z., Fujimoto, J.G. & Eesley, G.L. (1992). Femtosecond studies of nonequilibrium electronic processes in metals. Phys. Rev. Lett. 58, 1680–1683.Google Scholar

Stampfli, P. & Bennemann, K.H. (1990). Theory for the instability of the diamond structure of Si, Ge and C induced by a dense electron-hole plasma. Phys. Rev. B 42, 7163–7173.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Anisimov, S. I. Zhakhovskiĭ, V. V. Inogamov, N. A. Nishihara, K. Petrov, Yu. V. and Khokhlov, V. A. 2006. Ablated matter expansion and crater formation under the action of ultrashort laser pulse. Journal of Experimental and Theoretical Physics, Vol. 103, Issue. 2, p. 183.

Canova, F. Flacco, A. Canova, L. Clady, R. Chambaret, J.-P. PlÉ, F. Pittman, M. Planchon, T.A. Silva, M. Benocci, R. Lucchini, G. Batani, D. Lavergne, E. Dovillaire, G. and Levecq, X. 2007. Efficient aberrations pre-compensation and wavefront correction with a deformable mirror in the middle of a petawatt-class CPA laser system. Laser and Particle Beams, Vol. 25, Issue. 4, p. 649.

Lin, Zhibin and Zhigilei, Leonid V. 2007. Temperature dependences of the electron–phonon coupling, electron heat capacity and thermal conductivity in Ni under femtosecond laser irradiation. Applied Surface Science, Vol. 253, Issue. 15, p. 6295.

Anisimov, S. I. Inogamov, N. A. Petrov, Yu. V. Zhakhovskii, V. V. and Nishihara, K. 2007. Laser Ablation and its Applications. Vol. 129, Issue. , p. 1.

Veysman, M E Agranat, M B Andreev, N E Ashitkov, S I Fortov, V E Khishchenko, K V Kostenko, O F Levashov, P R Ovchinnikov, A V and Sitnikov, D S 2008. Femtosecond optical diagnostics and hydrodynamic simulation of Ag plasma created by laser irradiation of a solid target. Journal of Physics B: Atomic, Molecular and Optical Physics, Vol. 41, Issue. 12, p. 125704.

Lee, Jae Bin Kang, Kwangu and Lee, Seong Hyuk 2011. Comparison of Theoretical Models of Electron-Phonon Coupling in Thin Gold Films Irradiated by Femtosecond Pulse Lasers. MATERIALS TRANSACTIONS, Vol. 52, Issue. 3, p. 547.

Inogamov, N. A. Faenov, A. Ya. Zhakhovsky, V. V. Pikuz, T. A. Skobelev, I. Yu. Petrov, Yu. V. Khokhlov, V. A. Shepelev, V. V. Anisimov, S. I. Fortov, V. E. Fukuda, Y. Kando, M. Kawachi, T. Nagasono, M. Ohashi, H. Yabashi, M. Tono, K. Senda, Y. Togashi, T. and Ishikawa, T. 2011. Two‐Temperature Warm Dense Matter Produced by Ultrashort Extreme Vacuum Ultraviolet‐Free Electron Laser (EUV‐FEL) Pulse. Contributions to Plasma Physics, Vol. 51, Issue. 5, p. 419.

Inogamov, N. A. Zhakhovsky, V. V. Faenov, A. Ya. Fortov, V. E. Kato, Y. Shepelev, V. V. Fukuda, Y. Kishimoto, M. Nagasono, M. Ohashi, H. Senda, Y. Yabashi, M. Tono, K. Tanaka, M. Skobelev, I. Yu. Pikuz, T. A. Anisimov, S. I. Petrov, Yu. V. Ishino, M. Ishikawa, T. Togashi, T. Nishikino, M. Khokhlov, V. A. Kando, M. and Kawachi, T. 2011. Ablation of insulators under the action of short pulses of X-ray plasma lasers and free-electron lasers. Journal of Optical Technology, Vol. 78, Issue. 8, p. 473.

Inogamov, Nail A. Zhakhovsky, Vasily V. Petrov, Yurii V. Khokhlov, Viktor A. Ashitkov, Sergey I. Migdal, Kirill P. Ilnitsky, Denis K. Emirov, Yusuf N. Khishchenko, Konstantin V. Komarov, Pavel S. Shepelev, Vadim V. Agranat, Mikhail B. Anisimov, Sergey I. Oleynik, Ivan I. Fortov, Vladimir E. Veiko, Vadim P. and Vartanyan, Tigran A. 2013. Ultrashort laser-matter interaction at moderate intensities: two-temperature relaxation, foaming of stretched melt, and freezing of evolving nanostructures. Vol. 9065, Issue. , p. 906502.

Inogamov, N. A. Zhakhovsky, V. V. Petrov, Yu. V. Khokhlov, V.A. Ashitkov, S. I. Khishchenko, K. V. Migdal, K. P. Ilnitsky, D. K. Emirov, Yu. N. Komarov, P. S. Shepelev, V. V. Miller, C.W. Oleynik, I.I. Agranat, M.B. Andriyash, A.V. Anisimov, S.I. and Fortov, V.E. 2013. Electron‐Ion Relaxation, Phase Transitions, and Surface Nano‐Structuring Produced by Ultrashort Laser Pulses in Metals. Contributions to Plasma Physics, Vol. 53, Issue. 10, p. 796.

Inogamov, N. A. Petrov, Yu. V. Khokhlov, V. A. Anisimov, S. I. Zhakhovskiĭ, V. V. Ashitkov, S. I. Komarov, P. S. Agranat, M. B. Fortov, V. E. Migdal, K. P. Il’nitskiĭ, D. K. and Émirov, Yu. N. 2014. The effect of an ultrashort laser pulse on metals: Two-temperature relaxation, foaming of the melt, and freezing of the disintegrating nanofoam. Journal of Optical Technology, Vol. 81, Issue. 5, p. 233.

Minakov, D. V. and Levashov, P. R. 2015. Melting curves of metals with excited electrons in the quasiharmonic approximation. Physical Review B, Vol. 92, Issue. 22,

Khokhlov, V A Petrov, Yu V Inogamov, N A Migdal, K P Winter, J Aichele, C Rapp, S and Huber, H P 2019. Dynamics of supported ultrathin molybdenum films driven by strong short laser impact. Journal of Physics: Conference Series, Vol. 1147, Issue. , p. 012066.

Coudert, Stéphane Dilhaire, Stefan Lalanne, Philippe and Duchateau, Guillaume 2022. Unified theoretical description of out-of-equilibrium electron intraband dynamics in gold induced by femtosecond laser pulses. Physical Review B, Vol. 106, Issue. 13,

Borah, Rituraj Kumar, Ashish Samantaray, Millen Desai, Anusha and Tseng, Fan-Gang 2023. Photothermal Heating of Au Nanorods and Nanospheres: Temperature Characteristics and Strength of Convective Forces. Plasmonics, Vol. 18, Issue. 4, p. 1449.

Winter, Jan Redka, David Minár, Ján Schmidt, Michael and Huber, Heinz P. 2023. Resolving transient temperature and density during ultrafast laser ablation of aluminum. Applied Physics A, Vol. 129, Issue. 9,

Inogamov, N. A Khokhlov, V. A Romashevskiy, S. A Petrov, Yu. V Ovchinnikov, M. A and Ashitkov, S. I 2024. SIL'NOE VOZBUZhDENIE ELEKTRONNOY PODSISTEMY ZOLOTA UL'TRAKOROTKIM LAZERNYM IMPUL'SOM I PROTsESSY RELAKSATsII OKOLO TEMPERATURY PLAVLENIYa. Журнал экспериментальной и теоретической физики, Vol. 165, Issue. 2, p. 165.

Feng, Jiecai Wang, Junzhe Liu, Hongfei Sun, Yanning Fu, Xuewen Ji, Shaozheng Liao, Yang and Tian, Yingzhong 2024. A Review of an Investigation of the Ultrafast Laser Processing of Brittle and Hard Materials. Materials, Vol. 17, Issue. 15, p. 3657.

Article contents

Energy exchange between the lattice and electrons in a metal under femtosecond laser irradiation

Abstract

Keywords

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Energy exchange between the lattice and electrons in a metal under femtosecond laser irradiation

Abstract

Keywords

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests