Thermal melting of solid materials induced by ultrafast laser pulse irradiation as explosively homogeneous nucleation

By using the classical nucleation and growth dynamics to describe the melting process of superheated solid materials induced by ultrafast laser pulse irradiation, we found that the melting process of highly superheated solid materials is governed by explosively homogeneous nucleation. For the superh...

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Published in	Chemical physics letters Vol. 392; no. 4; pp. 415 - 418
Main Authors	Wei, Jingsong, Sun, Zengrong, Zhang, Feng, Xu, Wendong, Wang, Yang, Zhou, Fei, Gan, Fuxi
Format	Journal Article
Language	English
Published	Elsevier B.V 11.07.2004
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Abstract	By using the classical nucleation and growth dynamics to describe the melting process of superheated solid materials induced by ultrafast laser pulse irradiation, we found that the melting process of highly superheated solid materials is governed by explosively homogeneous nucleation. For the superheating degree of 1.6–1.9, the melting time for aluminum is several tens of picoseconds. In this case the lattice is heated within a few picoseconds, thus the total melting time of the solid materials is governed by the explosively homogeneous nucleation. However, for the very short laser pulse irradiation, such as femtosecond laser pulses with high fluences, the nonthermal mechanism plays a critical role in the melting process, and the classical homogeneous nucleation theory and growth dynamics is not useful. That is to say, the classical homogeneous nucleation theory and growth dynamics is useful for describing the rapid thermal melting process, however, is not suitable for explaining the nonthermal melting process.
AbstractList	By using the classical nucleation and growth dynamics to describe the melting process of superheated solid materials induced by ultrafast laser pulse irradiation, we found that the melting process of highly superheated solid materials is governed by explosively homogeneous nucleation. For the superheating degree of 1.6–1.9, the melting time for aluminum is several tens of picoseconds. In this case the lattice is heated within a few picoseconds, thus the total melting time of the solid materials is governed by the explosively homogeneous nucleation. However, for the very short laser pulse irradiation, such as femtosecond laser pulses with high fluences, the nonthermal mechanism plays a critical role in the melting process, and the classical homogeneous nucleation theory and growth dynamics is not useful. That is to say, the classical homogeneous nucleation theory and growth dynamics is useful for describing the rapid thermal melting process, however, is not suitable for explaining the nonthermal melting process.
Author	Wang, Yang Xu, Wendong Sun, Zengrong Gan, Fuxi Zhou, Fei Wei, Jingsong Zhang, Feng
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Cites_doi	10.1103/PhysRevLett.69.1228 10.1103/PhysRevB.58.R11805 10.1103/PhysRevLett.52.2364 10.1179/cmq.2002.41.2.151 10.1063/1.1733573 10.1103/PhysRevLett.53.182 10.1016/0038-1098(86)90209-7 10.1126/science.286.5443.1340 10.1103/PhysRevLett.87.225701
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