How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide

How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide

Laser-induced melting plays a crucial role in advanced manufacturing technology and ultrafast science; however, its atomic processes and microscopic mechanisms, especially in a wide-gap ceramic, remain elusive due to complex interplays between many degrees of freedom within a timescale of ~100 fs. W...

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Main Authors: Hui Zhao, Shiqi Hu, Mengxue Guan, Xinbao Liu, Daqiang Chen, Jiyu Xu, Sheng Meng
Format: Article
Language:English
Published: American Association for the Advancement of Science (AAAS) 2025-01-01
Series:Ultrafast Science
Online Access:https://spj.science.org/doi/10.34133/ultrafastscience.0085
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author Hui Zhao
Shiqi Hu
Mengxue Guan
Xinbao Liu
Daqiang Chen
Jiyu Xu
Sheng Meng
author_facet Hui Zhao
Shiqi Hu
Mengxue Guan
Xinbao Liu
Daqiang Chen
Jiyu Xu
Sheng Meng
author_sort Hui Zhao
collection DOAJ
description Laser-induced melting plays a crucial role in advanced manufacturing technology and ultrafast science; however, its atomic processes and microscopic mechanisms, especially in a wide-gap ceramic, remain elusive due to complex interplays between many degrees of freedom within a timescale of ~100 fs. We report here that laser melting is greatly accelerated by intense laser-induced tunnel ionization, instead of a priori multiphoton absorption, in the archetypal ceramic magnesium oxide (MgO). The tunneling processes generate a large number of photocarriers and results in intense energy absorption, instantaneously altering the potential energy surface of lattice configuration. The strong electron–phonon couplings and fast carrier relaxation enable efficient energy transfer between electrons and the lattice. These results account well for the latest ultrafast melting experiments and provide atomistic details and nonequilibrium mechanism of photoinduced ultrafast phase transitions in wide-gap materials. The laser modulation of melting thresholds and phase boundary demonstrate the possibility of manipulating phase transition on demand. A shock wave curve is also obtained at moderate conditions (P = 2 GPa), extending Hugoniot curve to new regimes.
format Article
id doaj-art-34c337d689c2455eb586424a164c3632
institution Kabale University
issn 2765-8791
language English
publishDate 2025-01-01
publisher American Association for the Advancement of Science (AAAS)
record_format Article
series Ultrafast Science
spelling doaj-art-34c337d689c2455eb586424a164c36322025-02-05T09:24:23ZengAmerican Association for the Advancement of Science (AAAS)Ultrafast Science2765-87912025-01-01510.34133/ultrafastscience.0085How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium OxideHui Zhao0Shiqi Hu1Mengxue Guan2Xinbao Liu3Daqiang Chen4Jiyu Xu5Sheng Meng6Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.Laser-induced melting plays a crucial role in advanced manufacturing technology and ultrafast science; however, its atomic processes and microscopic mechanisms, especially in a wide-gap ceramic, remain elusive due to complex interplays between many degrees of freedom within a timescale of ~100 fs. We report here that laser melting is greatly accelerated by intense laser-induced tunnel ionization, instead of a priori multiphoton absorption, in the archetypal ceramic magnesium oxide (MgO). The tunneling processes generate a large number of photocarriers and results in intense energy absorption, instantaneously altering the potential energy surface of lattice configuration. The strong electron–phonon couplings and fast carrier relaxation enable efficient energy transfer between electrons and the lattice. These results account well for the latest ultrafast melting experiments and provide atomistic details and nonequilibrium mechanism of photoinduced ultrafast phase transitions in wide-gap materials. The laser modulation of melting thresholds and phase boundary demonstrate the possibility of manipulating phase transition on demand. A shock wave curve is also obtained at moderate conditions (P = 2 GPa), extending Hugoniot curve to new regimes.https://spj.science.org/doi/10.34133/ultrafastscience.0085
spellingShingle Hui Zhao
Shiqi Hu
Mengxue Guan
Xinbao Liu
Daqiang Chen
Jiyu Xu
Sheng Meng
How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
Ultrafast Science
title How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
title_full How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
title_fullStr How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
title_full_unstemmed How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
title_short How Does a Ceramic Melt Under Laser? Tunnel Ionization Dominant Femtosecond Ultrafast Melting in Magnesium Oxide
title_sort how does a ceramic melt under laser tunnel ionization dominant femtosecond ultrafast melting in magnesium oxide
url https://spj.science.org/doi/10.34133/ultrafastscience.0085
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AT mengxueguan howdoesaceramicmeltunderlasertunnelionizationdominantfemtosecondultrafastmeltinginmagnesiumoxide
AT xinbaoliu howdoesaceramicmeltunderlasertunnelionizationdominantfemtosecondultrafastmeltinginmagnesiumoxide
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AT jiyuxu howdoesaceramicmeltunderlasertunnelionizationdominantfemtosecondultrafastmeltinginmagnesiumoxide
AT shengmeng howdoesaceramicmeltunderlasertunnelionizationdominantfemtosecondultrafastmeltinginmagnesiumoxide

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