Geodesic
Processing of synthetic diamond structures laser radiation with a wave length of 532 nm
Problemy fiziki, matematiki i tehniki, no. 4 (2018), pp. 47-51.

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A numerical simulation of the processing of diamond crystals when exposed to laser radiation with a wavelength of $532$ nm was performed. The calculation of the shape of the hole and temperature fields formed in diamond crystals as a result of laser heating was carried out using three modeling options: I — a three-dimensional analysis when exposed to laser radiation along a second-order symmetry axis ($L_2$), II — a three-dimensional analysis when exposed laser radiation along the axis of symmetry of the third order ($L_3$), III — three-dimensional analysis when exposed to laser radiation along the axis of symmetry of the fourth order ($L_4$). An experimental verification of the obtained results was carried out.
Keywords: laser treatment, diamond, finite element method. 
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     title = {Processing of synthetic diamond structures laser radiation with a wave length of 532 nm},
     journal = {Problemy fiziki, matematiki i tehniki},
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E. B. Shershnev; Yu. V. Nikitjuk; S. I. Sokolov; S. F. Ermakov; A. E. Shershnev. Processing of synthetic diamond structures laser radiation with a wave length of 532 nm. Problemy fiziki, matematiki i tehniki, no. 4 (2018), pp. 47-51. http://geodesic.mathdoc.fr/item/PFMT_2018_4_a8/

[1] A.Yu. Mityagin, A.A. Altukhov, A.B. Mityagina, “Tekhnologiya i oborudovanie dlya obrabotki almaznykh materialov sovremennoi tekhniki”, Tekhnologiya i konstruirovanie v elektronnoi apparature, 2009, no. 1, 53–58

[2] A.I. Shkadov, Fizicheskie osnovy lazernoi obrabotki almazov, v 15 kn., ucheb. posobie dlya VTUZov, v. 3, Fizicheskie osnovy lazernoi obrabotki almazov, ed. A.M. Bocharov, Smolensk, 1997, 288 pp.

[3] S.V. Shalupaev, E.B. Shershnev, Y.V. Nikitjuk, V.V. Sviridova, “Dependence of the diamond laser processing efficiency on crystallographic directions”, Proc. SPIE, 4358 (2001), 329–333 | DOI

[4] E.B. Shershnev, Yu.V. Nikityuk, A.E. Shershnev, “Modelirovanie lazernoi obrabotki kristallov almaza”, Izvestiya Gomelskogo gosudarstvennogo universiteta imeni F. Skoriny, 2011, no. 6 (69), 164–168 | Zbl

[5] E.B. Shershnev, Yu.V. Nikityuk, A.E. Shershnev, S.I. Sokolov, “Osobennosti formirovaniya termouprugikh polei pri lazernoi obrabotke kristallov almaza”, Problemy fiziki, matematiki i tekhniki, 2015, no. 1 (22), 38–40

[6] E.B. Shershnev, Yu.V. Nikityuk, A.E. Shershnev, S.I. Sokolov, “Osobennosti primeneniya lazernogo izlucheniya s dlinami voln 1064 nm, 532 nm i 266 nm dlya obrabotki kristallov almaza”, Problemy fiziki, matematiki i tekhniki, 2017, no. 1 (30), 22–24

[7] N.N. Shabrov, Metod konechnykh elementov v raschetakh detalei teplovykh dvigatelei, Mashinostroenie, L., 1983, 212 pp.