Anush Danielyan scite author profile

Anush Danielyan

2Publications

13Citation Statements Received

57Citation Statements Given

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Affiliations

Laboratoire Matériaux Optiques, Photonique et Systèmes, National Academy of Sciences of Armenia, Institute for Physical Research

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A polaron approach to photorefractivity in Fe : LiNbO₃

Vittadello¹,

Bazzan²,

Danielyan

et al. 2018

J. Phys. Commun.

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The thermally activated, incoherent hopping of small electron polarons generated by continuous illumination in iron-doped lithium niobate is simulated by a Marcus-Holstein model for which all the input parameters are known from literature. The results of the calculations are compared with a comprehensive set of data obtained from photorefractive, photogalvanic and photoconductive measurements under green light excitation on samples with different doping levels and stoichiometries in the temperature range between 150 K and room temperature. We show that the temperature and composition dependence of the photorefractive observables can be interpreted by a change in the abundance of the different hop types that a polaron performs before being captured by a deep Fe trap. Moreover, by a comparison between experimental and numerical data we obtain new insights on the initial photo-excitation part of the photorefractive process. In particular all results are consistent if a single value of the photogalvanic length L 1.44 0.05 PG =  ( )Åis assumed for all the samples and all the temperatures. The photo-generation efficiency f under green light excitation (somewhere denoted as quantum efficiency) is also estimated. It appears to decrease from 10%-15% at room temperature to about 5% at 150 K. This behavior is qualitatively interpreted in terms of a temperature-dependent retrapping probability of the light-emitted particles from the initial Fe donor center.

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The r₂₂electro-optic coefficients in indium-doped congruent lithium–niobate crystals

Abarkan

Danielyan

Sewastianow

et al. 2017

J. Phys.: Conf. Ser.

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Anush Danielyan

A polaron approach to photorefractivity in Fe : LiNbO₃

The r₂₂electro-optic coefficients in indium-doped congruent lithium–niobate crystals

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Anush Danielyan

A polaron approach to photorefractivity in Fe : LiNbO3

The r22electro-optic coefficients in indium-doped congruent lithium–niobate crystals

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A polaron approach to photorefractivity in Fe : LiNbO₃

The r₂₂electro-optic coefficients in indium-doped congruent lithium–niobate crystals