Fast optical limiting on volatilizable metallic mirror

Inna M. Belousova, Ivan M. Kislyakov, Nikita B. Leonov, Anastasia V. Venediktova, Tigran A. Vartanyan

Результат исследований: Научные публикации в периодических изданияхстатья

1 цитирование (Scopus)

Выдержка

We report on the investigation into an optical limiter, utilizing ablation destruction of a thin-film metallic mirror affected by high-intensity laser irradiation with nanosecond pulse duration. Its limiting threshold and dynamic range showed up being dependent on both the type of a material used and the thickness of the metallic film, as well as the type of the substrate material. An aluminum film deposited onto a polycarbonate substrate with reflection coefficient of weak irradiation being 90% has a limiting threshold 30 mJ/cm2, whilst reflection coefficient drops down to 1% at pulse energy density 200 J/cm2, wavelength being 1.06 μm.

Язык оригиналаанглийский
Страницы (с-по)69-72
Число страниц4
ЖурналOptical Materials
Том70
DOI
СостояниеОпубликовано - 1 авг 2017

Отпечаток

polycarbonate
Mirrors
mirrors
reflectance
Metallic films
irradiation
thresholds
Limiters
polycarbonates
Substrates
Laser beam effects
Ablation
Polycarbonates
Aluminum
high power lasers
ablation
destruction
dynamic range
pulse duration
flux density

Предметные области Scopus

  • Электроника, оптика и магнитные материалы
  • Компьютерные науки (все)
  • Атомная и молекулярная физика и оптика
  • Спектроскопия
  • Физическая и теоретическая химия
  • Органическая химия
  • Неорганическая химия
  • Электротехника и электроника

Цитировать

Belousova, I. M., Kislyakov, I. M., Leonov, N. B., Venediktova, A. V., & Vartanyan, T. A. (2017). Fast optical limiting on volatilizable metallic mirror. Optical Materials, 70, 69-72. https://doi.org/10.1016/j.optmat.2017.05.008
Belousova, Inna M. ; Kislyakov, Ivan M. ; Leonov, Nikita B. ; Venediktova, Anastasia V. ; Vartanyan, Tigran A. / Fast optical limiting on volatilizable metallic mirror. В: Optical Materials. 2017 ; Том 70. стр. 69-72.
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abstract = "We report on the investigation into an optical limiter, utilizing ablation destruction of a thin-film metallic mirror affected by high-intensity laser irradiation with nanosecond pulse duration. Its limiting threshold and dynamic range showed up being dependent on both the type of a material used and the thickness of the metallic film, as well as the type of the substrate material. An aluminum film deposited onto a polycarbonate substrate with reflection coefficient of weak irradiation being 90{\%} has a limiting threshold 30 mJ/cm2, whilst reflection coefficient drops down to 1{\%} at pulse energy density 200 J/cm2, wavelength being 1.06 μm.",
keywords = "All-optical devices, Metals, Mirrors, Nonlinear optics at surfaces, Optical limiters, Thin films",
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Belousova, IM, Kislyakov, IM, Leonov, NB, Venediktova, AV & Vartanyan, TA 2017, 'Fast optical limiting on volatilizable metallic mirror', Optical Materials, том. 70, стр. 69-72. https://doi.org/10.1016/j.optmat.2017.05.008

Fast optical limiting on volatilizable metallic mirror. / Belousova, Inna M.; Kislyakov, Ivan M.; Leonov, Nikita B.; Venediktova, Anastasia V.; Vartanyan, Tigran A.

В: Optical Materials, Том 70, 01.08.2017, стр. 69-72.

Результат исследований: Научные публикации в периодических изданияхстатья

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T1 - Fast optical limiting on volatilizable metallic mirror

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AU - Kislyakov, Ivan M.

AU - Leonov, Nikita B.

AU - Venediktova, Anastasia V.

AU - Vartanyan, Tigran A.

PY - 2017/8/1

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AB - We report on the investigation into an optical limiter, utilizing ablation destruction of a thin-film metallic mirror affected by high-intensity laser irradiation with nanosecond pulse duration. Its limiting threshold and dynamic range showed up being dependent on both the type of a material used and the thickness of the metallic film, as well as the type of the substrate material. An aluminum film deposited onto a polycarbonate substrate with reflection coefficient of weak irradiation being 90% has a limiting threshold 30 mJ/cm2, whilst reflection coefficient drops down to 1% at pulse energy density 200 J/cm2, wavelength being 1.06 μm.

KW - All-optical devices

KW - Metals

KW - Mirrors

KW - Nonlinear optics at surfaces

KW - Optical limiters

KW - Thin films

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JF - Optical Materials

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