Coherent beam amplification with dynamic holograms in glass-forming molecular azobenzene-based materials

Yaroslav Skrypka; Valdis Kokars; Kaspars Traskovskis; Andris Ozols; Peteris Augustovs; Alexandr Shumelyuk; Serguey Odoulov

doi:10.1364/OPTCON.451627

Coherent beam amplification with dynamic holograms in glass-forming molecular azobenzene-based materials

Yaroslav Skrypka^*
, Valdis Kokars
, Kaspars Traskovskis
, Andris Ozols
, Peteris Augustovs
, Alexandr Shumelyuk
, Serguey Odoulov

^*Corresponding author for this work

National Academy of Sciences of Ukraine
Riga Technical University

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Self-diffraction of two coherent light waves that record a holographic grating in thin films of azobenzene-containing molecular glass-forming materials is used for intensity enhancement of a weak beam in expense of the strong beam intensity. The intensity of a weak probe beam is doubled at interaction length of only 8 µm thus pointing to a very high specific coupling constant. The characteristic time of the intensity redistribution is relatively long, on the order of 200 s. Consequently, the underlying process of pronounced Kerr-type optical nonlinearity is related, most probably, to the photoinduced mass transfer.

Original language	English
Pages (from-to)	885-895
Number of pages	11
Journal	OSA Continuum
Volume	1
Issue number	4
DOIs	https://doi.org/10.1364/OPTCON.451627
Publication status	Published - 15 Apr 2022
Externally published	Yes

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title = "Coherent beam amplification with dynamic holograms in glass-forming molecular azobenzene-based materials",

abstract = "Self-diffraction of two coherent light waves that record a holographic grating in thin films of azobenzene-containing molecular glass-forming materials is used for intensity enhancement of a weak beam in expense of the strong beam intensity. The intensity of a weak probe beam is doubled at interaction length of only 8 µm thus pointing to a very high specific coupling constant. The characteristic time of the intensity redistribution is relatively long, on the order of 200 s. Consequently, the underlying process of pronounced Kerr-type optical nonlinearity is related, most probably, to the photoinduced mass transfer.",

author = "Yaroslav Skrypka and Valdis Kokars and Kaspars Traskovskis and Andris Ozols and Peteris Augustovs and Alexandr Shumelyuk and Serguey Odoulov",

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T1 - Coherent beam amplification with dynamic holograms in glass-forming molecular azobenzene-based materials

AU - Skrypka, Yaroslav

AU - Kokars, Valdis

AU - Traskovskis, Kaspars

AU - Ozols, Andris

AU - Augustovs, Peteris

AU - Shumelyuk, Alexandr

AU - Odoulov, Serguey

PY - 2022/4/15

Y1 - 2022/4/15

N2 - Self-diffraction of two coherent light waves that record a holographic grating in thin films of azobenzene-containing molecular glass-forming materials is used for intensity enhancement of a weak beam in expense of the strong beam intensity. The intensity of a weak probe beam is doubled at interaction length of only 8 µm thus pointing to a very high specific coupling constant. The characteristic time of the intensity redistribution is relatively long, on the order of 200 s. Consequently, the underlying process of pronounced Kerr-type optical nonlinearity is related, most probably, to the photoinduced mass transfer.

AB - Self-diffraction of two coherent light waves that record a holographic grating in thin films of azobenzene-containing molecular glass-forming materials is used for intensity enhancement of a weak beam in expense of the strong beam intensity. The intensity of a weak probe beam is doubled at interaction length of only 8 µm thus pointing to a very high specific coupling constant. The characteristic time of the intensity redistribution is relatively long, on the order of 200 s. Consequently, the underlying process of pronounced Kerr-type optical nonlinearity is related, most probably, to the photoinduced mass transfer.

UR - https://www.scopus.com/pages/publications/85168759677

U2 - 10.1364/OPTCON.451627

DO - 10.1364/OPTCON.451627

M3 - Article

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SP - 885

EP - 895

JO - OSA Continuum

JF - OSA Continuum

IS - 4

ER -

Coherent beam amplification with dynamic holograms in glass-forming molecular azobenzene-based materials

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