Публикации
1. Zakoldaev R.A., Kostyuk G.K., Koval V.V., Sergeev M.M., Rymkevich V.S., Yakovlev E.B. Microlens array fabrication on fused silica by libbh technology with CO2 laser smoothing // Известия высших учебных заведений. Приборостроение - 2016, Vol. 59, No. 5, pp. 400-406
2. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K., Yakovlev E.B. Determination of the Optical Characteristics of Complexly Structured, Locally Modified Regions in Quartzoid Glass // Glass and Ceramics - 2014, Vol. 70, No. 11-12, pp. 395-399
3. Sergeev M.M., Kostiuk G.K., Zakoldaev R.A., Yakovlev E.B. Laser-Induced Passivation of Porous Glass to Protect It from Chemical Degradation and Aging // Protection of Metals and Physical Chemistry of Surfaces - 2015, Vol. 51, No. 3, pp. 427-434
4. Veiko V.P., Kudryashov S.I., Sergeev M.M., Zakoldaev R.A., Danilov P.A., Ionin A.A., Antropova T.V., Anfimova I.N. Femtosecond laser-induced stress-free ultra-densification inside porous glass // Laser Physics Letters - 2016, Vol. 13, No. 5, pp. 055901
5. Kostyuk G.K., Sergeev M.M., Zakoldaev R.A., Yakovlev E.B. Fast microstructuring of silica glasses surface by NIR laser radiation // Optics and Lasers in Engineering - 2015, Vol. 68, pp. 16-24
6. Вейко В.П., Волков С.А., Заколдаев Р.А., Сергеев М.М., Самохвалов А.А., Костюк Г.К., Миляев К.А. Лазерно-индуцированная микроплазма как инструмент микроструктурирования прозрачных сред // Квантовая электроника - 2017. - Т. 47. - № 9. - С. 842-848
7. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K., Veiko V.P. Laser-induced black-body heating (LIBBH) as a method for glass surface modification // Journal of Laser Micro Nanoengineering - 2015, Vol. 10, No. 1, pp. 15-19
8. Kostyuk G.K., Zakoldaev R.A., Sergeev M.M., Yakovlev E.B. Microlens array fabrication on fused silica influenced by NIR laser // Applied Physics B: Lasers and Optics - 2016, Vol. 122, No. 4, pp. 99
9. Sergeev M.M., Kostiuk G.K., Zakoldaev R.A., Yakovlev E.B. Laser-Induced Passivation of Porous Glass to Protect It from Chemical Degradation and Aging // Protection of Metals and Physical Chemistry of Surfaces - 2015, Vol. 51, No. 3, pp. 427-434
10. Veiko V.P., Yarchuk M.V., Zakoldaev R.A., Gedvilas M., Raciukaitis G., Kuzivanov M.O., Baranov A.V. Picosecond laser registration of interference pattern by oxidation of thin Cr films // Applied Surface Science - 2017, Vol. 404, pp. 63-66
11. Sergeev M.M., Veiko V.P., Zakoldaev R.A. Fast 3D laser-induced reversible phase-structure modification of photostructurable glass // Optical and Quantum Electronics - 2016, Vol. 48, No. 6, pp. 317
12. Вейко В.П., Заколдаев Р.А., Синев Д.А., Шахно Е.А., Гедвилас М., Войзат Б., Индрижинас С., Рачикайтис Г. Экспериментальная реализация и анализ возможностей термохимической лазерной интерференционной записи на плёнках титана // Beam Technologies and Laser Application: Proceedings of the international conference - 2016. - С. 366-370
13. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K., Yakovlev E.B. Determination of the Optical Characteristics of Complexly Structured, Locally Modified Regions in Quartzoid Glass // Glass and Ceramics - 2014, Vol. 70, No. 11-12, pp. 395-399
14. Veiko V.P., Yarchuk M.V., Zakoldaev R.A., Gedvilas M., Raciukaitis G., Kuzivanov M.O., Baranov A.V. Picosecond laser registration of interference pattern by oxidation of thin Cr films // Applied Surface Science - 2017, Vol. 404, pp. 63-66
15. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K. Forming microoptical elements of extended form in the bulk of porous glass plates, sodden with glycerol water solution under the laser irradiation // Proceedings of SPIE - 2013, Vol. 9065, pp. 90650P
16. Zakoldaev R.A., Kostyuk G.K., Koval V.V., Sergeev M.M., Rymkevich V.S., Yakovlev E.B. Microlens array fabrication on fused silica by libbh technology with CO2 laser smoothing // Известия высших учебных заведений. Приборостроение - 2016, Vol. 59, No. 5, pp. 400-406
17. Kostyuk G.K., Zakoldaev R.A., Sergeev M.M., Veiko V.P. Laser-induced glass surface structuring by LIBBH technology // Optical and Quantum Electronics - 2016, Vol. 48, No. 4, pp. 249
18. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K. Forming microoptical elements of extended form in the bulk of porous glass plates, sodden with glycerol water solution under the laser irradiation // Proceedings of SPIE - 2013, Vol. 9065, pp. 90650P
19. Veiko V.P., Yarchuk M.V., Zakoldaev R.A., Gedvilas M., Raciukaitis G., Kuzivanov M.O., Baranov A.V. Picosecond laser registration of interference pattern by oxidation of thin Cr films // Applied Surface Science - 2017, Vol. 404, pp. 63-66
20. Kostyuk G.K., Zakoldaev R.A., Sergeev M.M., Yakovlev E.B. Microlens array fabrication on fused silica influenced by NIR laser // Applied Physics B: Lasers and Optics - 2016, Vol. 122, No. 4, pp. 99
21. Sergeev M.M., Veiko V.P., Savochkin D.A., Zakoldaev R.A. Reversible phase–structure modification of photostructurable glass ceramic by CO2 laser irradiation // Applied Physics A: Materials Science and Processing - 2016, Vol. 122, No. 10, pp. 887
22. Sergeev M.M., Veiko V.P., Zakoldaev R.A. Fast 3D laser-induced reversible phase-structure modification of photostructurable glass // Optical and Quantum Electronics - 2016, Vol. 48, No. 6, pp. 317
23. Kostyuk G.K., Zakoldaev R.A., Koval V.V., Sergeev M.M., Rymkevich V.S. Laser microplasma as a tool to fabricate phase grating applied for laser beam splitting // Optics and Lasers in Engineering - 2017, Vol. 92, pp. 63-69
24. M. M. Sergeev, G. K. Kostyuk, R. A. Zakoldaev, and E. B. Yakovlev LaserInduced Passivation of Porous Glass to Protect It from Chemical Degradation and Aging //PROTECTION OF METALS AND PHYSICAL CHEMISTRY OF SURFACES Vol. 51 No.3 2015 pp. 427-434
25. Sergeev M.M., Veiko V.P., Savochkin D.A., Zakoldaev R.A. Reversible phase–structure modification of photostructurable glass ceramic by CO2 laser irradiation // Applied Physics A: Materials Science and Processing - 2016, Vol. 122, No. 10, pp. 887
26. Veiko V.P., Kudryashov S.I., Sergeev M.M., Zakoldaev R.A., Danilov P.A., Ionin A.A., Antropova T.V., Anfimova I.N. Femtosecond laser-induced stress-free ultra-densification inside porous glass // Laser Physics Letters - 2016, Vol. 13, No. 5, pp. 055901
27. Вейко В.П., Заколдаев Р.А., Синев Д.А., Шахно Е.А., Гедвилас М., Войзат Б., Индрижинас С., Рачикайтис Г. Экспериментальная реализация и анализ возможностей термохимической лазерной интерференционной записи на плёнках титана // Beam Technologies and Laser Application: Proceedings of the international conference - 2016. - С. 366-370
28. Сергеев М.М., Костюк Г.К., Заколдаев Р.А., Яковлев Е.Б. Лазерная пассивация пористого стекла для защиты от химической деградации и старения // Физикохимия поверхности и защита материалов - 2015. - Т. 51. - № 3. - С. 314-322
29. M. M. Sergeev, G. K. Kostyuk, R. A. Zakoldaev, and E. B. Yakovlev LaserInduced Passivation of Porous Glass to Protect It from Chemical Degradation and Aging //PROTECTION OF METALS AND PHYSICAL CHEMISTRY OF SURFACES Vol. 51 No.3 2015 pp. 427-434
30. Kostyuk G.K., Zakoldaev R.A., Sergeev M.M., Veiko V.P. Laser-induced glass surface structuring by LIBBH technology // Optical and Quantum Electronics - 2016, Vol. 48, No. 4, pp. 249
31. Kostyuk G.K., Sergeev M.M., Zakoldaev R.A., Yakovlev E.B. Fast microstructuring of silica glasses surface by NIR laser radiation // Optics and Lasers in Engineering - 2015, Vol. 68, pp. 16-24
32. Kostyuk G.K., Zakoldaev R.A., Koval V.V., Sergeev M.M., Rymkevich V.S. Laser microplasma as a tool to fabricate phase grating applied for laser beam splitting // Optics and Lasers in Engineering - 2017, Vol. 92, pp. 63-69
33. Вейко В.П., Волков С.А., Заколдаев Р.А., Сергеев М.М., Самохвалов А.А., Костюк Г.К., Миляев К.А. Лазерно-индуцированная микроплазма как инструмент микроструктурирования прозрачных сред // Квантовая электроника - 2017. - Т. 47. - № 9. - С. 842-848
34. Zakoldaev R.A., Sergeev M.M., Kostyuk G.K., Veiko V.P. Laser-induced black-body heating (LIBBH) as a method for glass surface modification // Journal of Laser Micro Nanoengineering - 2015, Vol. 10, No. 1, pp. 15-19
35. Сергеев М.М., Костюк Г.К., Заколдаев Р.А., Яковлев Е.Б. Лазерная пассивация пористого стекла для защиты от химической деградации и старения // Физикохимия поверхности и защита материалов - 2015. - Т. 51. - № 3. - С. 314-322