MD simulations of laser-induced ultrashort shock waves in nickel

Demaske, Brian; Zhakhovsky, V. V.; Inogamov, N. A.; White, C. T.; Oleynik, Ivan

doi:10.1063/1.3686486

Cited by 6 publications

(3 citation statements)

References 7 publications

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“…In the GLAD film (α = 60 • ), the stresses are approximately half that of the normally deposited film (α = 0 • ). The formation of film layers, with a high value of compress stress under laser irradiation, was demonstrated earlier in the MD simulations [9].…”

Section: E(si) →supporting

confidence: 60%

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Laser-Induced Thermal Stresses in Dense and Porous Silicon Dioxide Films

2021

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The laser-induced thermal stresses in silicon dioxide films are calculated using molecular dynamics simulations. The absorption of the laser energy is simulated by the linear temperature growth from room temperature to 1300 K in a time equal to the laser pulse duration. The maximum values of stresses for picosecond pulses are approximately twice as high as for nanosecond pulses. The stresses in highly porous glancing angle deposited films are approximately two times lower than in dense films. Stress waves caused by picosecond pulses are observed in dense films. An increase in the heating temperature to 1700 K leads to an increase in the absolute stress values for picosecond pulses, and a decrease for nanosecond pulses.

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Section: E(si) →supporting

confidence: 60%

“…The stresses in nickel films, caused by femtosecond laser pulses, were studied using molecular dynamics (MD) simulations in Ref. [9]. It was found that ultrafast heating results in the formation of a 100 nm thick strongly compressed layer below the film surface.…”

Section: Introductionmentioning

confidence: 99%

Laser-Induced Thermal Stresses in Dense and Porous Silicon Dioxide Films

2021

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“…The process of nonlinear evolution of wave is described in papers. 23,[29][30][31][32][33] The description in those papers is based on molecular dynamics (MD) simulations. Below in Section 4 we presents new results concerning comparison the 2T-hydrodynamic simulations † and MD.…”

Section: General Picturementioning

confidence: 99%

Ultrashort laser-matter interaction at moderate intensities: two-temperature relaxation, foaming of stretched melt, and freezing of evolving nanostructures

et al. 2013

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Interaction of ultrashort laser pulse with metals is considered. Ultrafast heating in our range of absorbed fluences F abs > 10 mJ/cm 2 transfers matter into two-temperature (2T) state and induces expressed thermomechanical response. To analyze our case, where 2T, thermomechanical, and multidimensional (formation of surface structures) effects are significant, we use density functional theory (DFT), solutions of kinetic equations in τ -approximation, 2T-hydrodynamics, and molecular dynamics simulations. We have studied transition from light absorption in a skin layer to 2T state, and from 2T stage to hydrodynamical motions. We describe (i) formation of very peculiar (superelasticity) acoustic wave irradiated from the laser heated surface layer and (ii) rich complex of surface phenomena including fast melting, nucleation of seed bubbles in hydrodynamically stretched fluid, evolution of vapor-liquid mixture into very spatially extended foam, mechanical breaking of liquid membranes in foam (foam disintegration), strong surface tension oscillations driven by breaking of membranes, non-equilibrium freezing of overcooled molten metals, transition to nano-domain solid, and formation of surface nanostructures.

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Laser shock peening induced surface nanocrystallization and martensite transformation in austenitic stainless steel

Zhou

Luo

et al. 2016

Journal of Alloys and Compounds

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MD simulations of laser-induced ultrashort shock waves in nickel

Cited by 6 publications

References 7 publications

Laser-Induced Thermal Stresses in Dense and Porous Silicon Dioxide Films

Laser-Induced Thermal Stresses in Dense and Porous Silicon Dioxide Films

Ultrashort laser-matter interaction at moderate intensities: two-temperature relaxation, foaming of stretched melt, and freezing of evolving nanostructures

Laser shock peening induced surface nanocrystallization and martensite transformation in austenitic stainless steel

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