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Formation of amorphous carbon on melting of microcrystalline graphite by picosecond laser pulses (1997)

Agranat, M. B. ; Ashitkov, S. I. ; Kirillin, A. V. ; [et al.]

Springer

JETP letters 66 (1997), S. 699-703

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ISSN: 1090-6487

Keywords: 81.05.Gc ; 81.05.Tp ; 64.70.Dv

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Observations of microcrystalline graphite subjected to picosecond laser pulses reveal the formation of a liquid phase with a subsequent transition to a uniform amorphous state of a surface layer upon solidification. This phenomenon is observed on a definite type of graphite and with the radiation incident on a plane parallel to the sixfold symmetry axis, and only for certain parameters of the laser pulse. A structural analysis of the amorphous phase is performed by electron microscopy and Raman scattering spectroscopy. A periodic structure with a period of the order of the wavelength of the heating pulse is formed in the heating region. The “rulings” of this periodic structure are oriented in the direction of polarization of the heating pulse. A study of the reflection kinetics of the probe laser pulse showed that the characteristic existence time of the liquid phase and of the solidification process is ∼10−10 s.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.567582

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Shock wave structure in simple liquids (1997)

Anisimov, S. I. ; Zhakhovskii, V. V. ; Fortov, V. E.

Springer

JETP letters 65 (1997), S. 755-761

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ISSN: 1090-6487

Keywords: 02.70.Ns ; 62.50.+p

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The shock wave structure in a liquid is studied by a molecular dynamics simulation method. The interaction between atoms is described by the Lennard-Jones (6–12) potential. In contrast to earlier works, the simulation is performed in a reference frame tied to the shock wave front. This approach reduces non-physical fluctuations and makes it possible to calculate the distribution functions of the kinetic and potential energy for several cross sections within the shock layer. The profiles of flow variables and their fluctuations are found. The surface tension connected with pressure anisotropy within the shock front is calculated. It is shown that the main contribution to the surface tension coefficient comes from the mean virial.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.567422

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