I. V. Kravetsky scite author profile

I. V. Kravetsky

3Publications

87Citation Statements Received

18Citation Statements Given

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114

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Affiliations

Academy of Sciences of Moldova, Institute of Applied Physics, Technical University of Moldova

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Semiconductor sieves as nonlinear optical materials

Tiginyanu

Kravetsky

Monecke

et al. 2000

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Electrochemical etching techniques were used to fabricate semiconductor sieves of gallium phosphide, i.e., two-dimensionally nanostructured membranes exhibiting an enhanced optical second harmonic generation (SHG) in comparison with the bulk material. The SHG rotational and fundamental polarization dependencies studied under sample excitation by a 1064-nm Nd-YAG laser beam indicate optical homogeneity and uniaxial symmetry of the membranes. The artificial anisotropy and the enhanced nonlinear optical response induced by nanotexturization make semiconductor sieves very promising for use in all-optical devices.

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Porous III–V compounds as nonlinear optical materials

Tiginyanu

Kravetsky

Langa

et al. 2003

phys. stat. sol. (a)

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Electrochemical etching is shown to represent a unique approach for tailoring linear and nonlinear optical properties of III-V compounds. We demonstrate that under defined etching conditions uniformly distributed pores with transverse dimensions less than 100 nm are formed. The presence of pores modifies the refractive index of the materials and, with parallel orientation, induces an artificial optical anisotropy, as evidenced by optical transmission studies. Small dimensions of both pore and skeleton entities are shown to provide the optical homogeneity of the porous specimens. The enhanced optical second harmonic generation (SHG) inherent to porous membranes of GaP containing triangular-prism like pores is attributed to giant third order electric field fluctuations. The dependence of the SHG phase matching angle upon the degree of porosity is deduced.

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Design of New Nonlinear Optical Materials Based on Porous III-V Compounds

Tiginyanu

Kravetsky

Marowsky

et al. 2000

phys. stat. sol. (b)

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I. V. Kravetsky

Semiconductor sieves as nonlinear optical materials

Porous III–V compounds as nonlinear optical materials

Design of New Nonlinear Optical Materials Based on Porous III-V Compounds

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