[22] Gorelik V.S., Sushchinskii M.M. Kombinatzionnoye rasseianiye sveta v kristallakh

[Raman scattering of light in crystals] //

Usp. Fiz. Nauk

[Sov.Phys. Usp.], 1969,

vol. 98, pp. 237-298 (in Russ.).

[23] Gorelik V.S., Izmailov G.N. Stimulirovannaya konversia fotonov v psevdoskalarnaye

bozony [Stimulated Photon Conversion into Pseudo-Scalar Bosons] //

Bull. Lebedev

Phys Inst,

2011, vol. 38, no. 6, pp. 177–183. (in Russ.).

[24] Yablonovitch E. Inhibited Spontaneous Emission in Solid-State Physics and

Electronics //

Phys. Rev. Lett.,

1987, vol. 58, no. 20, pp. 2059–2062. DOI: http://

dx.doi.org/10.1103/PhysRevLett.58.2059

[25] John S. Strong Localization of Photons in Certain Disordered Dielectric Superlattices

//

Phys. Rev. Lett

., 1987, vol. 58, pp. 2486–2489.

[26] Dowling J.P., Bowden C.M. Atomic emission rates in inhomogeneous media with

applications to photonic band structures //

Phys. Rev. A

., 1992, vol. 46, no. 1, pp. 612–

622.

[27] John S., Quang T. Localization of Superradiance near a Photonic Bandgap

// Phys.

Rev. Lett

., 1995, vol. 74, no. 17, pp. 3419–3422.

[28] Astratov V.N. Bogomolov V.N., Kaplyanskii A.A„ Prokofiev A.V., Samoilovich L.A.,

Samoilovich S.M., Vlasov Yu.A. Optical spectroscopy of opal matrices with CdS

embedded in its pores: Quantum confinement and photonic band gap effects //

Nuovo

Cimento D.

1995, vol. 17, no. 11–12. pp. 1349–1354.

[29] Bogomolov V.N., Gaponenko S.V., Kapitonov A.M., Prokofiev A.V., Ponyavina A.N.,

Silvanovich N.I., Samoilovich S.M. Photonic band gap in the visible range in a three-

dimensional solid state lattice //

Appl. Phys. A

., 1996, vol. 63, no. 6, pp. 613–616.

[30] Purcell E.M. Spontaneous emission probabilities at radio frequencies //

Phys. Rev.

1946, vol. 69, p. 681.

[31] Gorelik V.S. Optika globuliarnykh fotonnykh kristallov [Optics of globular photonic

crystals] //

Kvantovaya Elektron

. [Quantum Electronics], 2007, vol. 37 (5), pp. 409–

432. (in Russ.).

[32] Gorelik V.S. Optika globuliarnykh fotonnykh kristallov [Optics of Globular Photonic

Crystals] //

Laser Physics

, 2008, vol. 18 (12), pp. 1479–1500.

[33] Voshchinskii Yu.A., Gorelik V.S. Dispersion Law in Photonic Crystals in Sinusoidal

and Quasi-Relativistic Approximations //

Inorganic Materials

, 2011, vol. 47, no. 2,

pp. 148–151.

[34] Josephson B.D. Possible new effects in superconductive tunneling //

Phys. Lett

.,1962,

vol. 1, pp. 251–253.

[35] Larkin

S.Yu.

Izmerenie chastoty monokhromaticheskogo SVCh-polya na osnove

nestatsionarnogo effekta Dzhozefsona [Frequency measurement of monochromatic

microwave field on the basis of the nonstationary Josephson effect]. Kiev, Naukova

Dumka, 1999, 271 p.

[36] Shapiro S., Janus A.R., Holly S. Effect of microwaves in Josephson current in

superconducting tunneling //

Rev. Mod. Phys

, 1964, vol. 36, pp. 223–225.

[37] Golovashkin A.I., Elenskiy V.G., Likharev K.K. Effekt Dzhozefsona i ego primenenie

[Josephson effect and its application]. Moscow, Nauka Publ., 1983, 222 p.

[38] Hoffman С., Lefloch F., Sanquer M., Pannetier B. Mesoscopic transition in the shot

noise of diffusive superconductor — normal-metal — superconductor junctions //

Phys.

Rev. B

, 2004, vol. 70, pp. 180503(R). DOI: 10.1103/PhysRevB.70.180503

[39] Beck C. Possible Resonance Effect of Axionic Dark Matter in Josephson

Junctions //

Phys. Rev. Lett.

, 2013, vol. 111, iss. 23, p. 231801. URL:

prl.aps.org/abstract/PRL/v111/i23/e231801.

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