Abstract

This paper discusses the spectrally selective properties of Ag-Na<sub>3</sub>AlF<sub>6</sub> multilayer plasmonic nanocomposites formed on glass, quartz, and polymer substrates during thermal evaporation in vacuum. It is demonstrated that they can be used as a basis for creating broad-band optical coatings characterized by strong absorption of electromagnetic radiation in the visible region and low reflectance in the absorption region.

© 2014 Optical Society of America

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  1. V. V.  Klimov, Nanoplasmonics (Fizmatlit, Moscow, 2009).
  2. N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).
  3. C. F.  Bohren, D. E.  Huffman, Absorption and Scattering of Light by Small Particles (Wiley, New York, 1983; Mir, Moscow, 1986).
  4. S. M.  Kachan, A. N.  Ponyavina, “Spectral characteristics of confined photonic and plasmonic nanostructures,” Proc. SPIE 470, 588 (2002).
  5. A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).
  6. A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).
  7. A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of quasi-one-dimensional bimetallic photonic crystals,” in Collection of Scientific Transactions of the Second Conference of Physicists of Belarus, Minsk, 2008, pp. 88–89.
  8. A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

2010 (1)

A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

2007 (1)

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

2003 (2)

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).

2002 (1)

S. M.  Kachan, A. N.  Ponyavina, “Spectral characteristics of confined photonic and plasmonic nanostructures,” Proc. SPIE 470, 588 (2002).

Baran, L. V.

A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

Bogatyrev, B. A.

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

Bohren, C. F.

C. F.  Bohren, D. E.  Huffman, Absorption and Scattering of Light by Small Particles (Wiley, New York, 1983; Mir, Moscow, 1986).

Dykman, L. A.

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

Huffman, D. E.

C. F.  Bohren, D. E.  Huffman, Absorption and Scattering of Light by Small Particles (Wiley, New York, 1983; Mir, Moscow, 1986).

Kachan, S. M.

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).

S. M.  Kachan, A. N.  Ponyavina, “Spectral characteristics of confined photonic and plasmonic nanostructures,” Proc. SPIE 470, 588 (2002).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of quasi-one-dimensional bimetallic photonic crystals,” in Collection of Scientific Transactions of the Second Conference of Physicists of Belarus, Minsk, 2008, pp. 88–89.

Khlebtsov, B. N.

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

Khlebtsov, N. G.

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

Klimov, V. V.

V. V.  Klimov, Nanoplasmonics (Fizmatlit, Moscow, 2009).

Ponyavina, A. N.

A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

S. M.  Kachan, A. N.  Ponyavina, “Spectral characteristics of confined photonic and plasmonic nanostructures,” Proc. SPIE 470, 588 (2002).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of quasi-one-dimensional bimetallic photonic crystals,” in Collection of Scientific Transactions of the Second Conference of Physicists of Belarus, Minsk, 2008, pp. 88–89.

Sil’vanovich, N. I.

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

Zamkovets, A. D.

A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of quasi-one-dimensional bimetallic photonic crystals,” in Collection of Scientific Transactions of the Second Conference of Physicists of Belarus, Minsk, 2008, pp. 88–89.

Opt. Zh. (1)

A. D.  Zamkovets, A. N.  Ponyavina, L. V.  Baran, “Strengthening of plasmon resonances in bimetallic planar nanostructures,” Opt. Zh. 77, No. 7, 64 (2010) [J. Opt. Technol. 77, 456 (2010)].

Phys. Chem. Solid State (1)

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of thin-film metal-dielectric nanocomposites,” Phys. Chem. Solid State 4, 628 (2003).

Proc. SPIE (1)

S. M.  Kachan, A. N.  Ponyavina, “Spectral characteristics of confined photonic and plasmonic nanostructures,” Proc. SPIE 470, 588 (2002).

Ross. Nanotekh. (1)

N. G.  Khlebtsov, B. A.  Bogatyrev, L. A.  Dykman, B. N.  Khlebtsov, “Gold nanostructures with plasmon resonance for biomedical studies,” Ross. Nanotekh. 2, Nos. 3–4, 69 (2007).

Zh. Prikl. Spektrosk. (1)

A. N.  Ponyavina, A. D.  Zamkovets, S. M.  Kachan, N. I.  Sil’vanovich, “Optical spectra of metal–dielectric nanocomposites with a layered subwavelength structure,” Zh. Prikl. Spektrosk. 70, 526 (2003).

Other (3)

C. F.  Bohren, D. E.  Huffman, Absorption and Scattering of Light by Small Particles (Wiley, New York, 1983; Mir, Moscow, 1986).

A. D.  Zamkovets, S. M.  Kachan, A. N.  Ponyavina, “Optical properties of quasi-one-dimensional bimetallic photonic crystals,” in Collection of Scientific Transactions of the Second Conference of Physicists of Belarus, Minsk, 2008, pp. 88–89.

V. V.  Klimov, Nanoplasmonics (Fizmatlit, Moscow, 2009).

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