Longitudinal and scalar bosons in material media and in vacuum

[4] Van Bibber K., Dagdeviren N.R., Koonin S.E., Kerman A.K., Nelson H.N. Proposed

experiment to produce and detect light pseudoscalars.

Phys. Rev. Lett.

, 1987, vol. 59,

pp. 759–762.

[5] Polivanov Yu.N. Raman scattering by polaritons.

Usp. Fiz. Nauk

[Sov. Phys.-Usp.],

1978, vol. 126, no. 2, pp. 185–232 (in Russ.).

[6] Agranovich V.M., Gartshteyn Yu.N. Spatial dispersion and negative refraction of

light.

Usp. Fiz. Nauk

[Phys.-Usp.], 2006, vol. 176, no. 10, pp. 1051–1068 (in Russ.).

[7] Gorelik V.S. Optics of globular photonic crystals.

Quantum Electronics

, 2007, vol. 37,

no. 5, pp. 409–432.

[8] Gorelik V.S., Shchavlev V.V. Optical devices based on materials with negative

refraction.

Bull. Lebedev Phys. Inst.

, 2010, no. 12, pp. 23–32 (in Russ.).

[9] Gorelik V.S. Bound and dark photonic states in globular photonic crystals.

Acta Phys.

Hung. B

, 2006, vol. 26/1–2, pp. 37–46.

[10] Gorelik V.S. Coherent and bound photonic states in globular photonic crystals.

J. of

Russian Laser Research

, 2006, vol. 27, iss. 5, pp. 437–449.

[11] Gorelik V.S. Linear and nonlinear optical phenomena in nanostructured photonic

crystals, filled by dielectrics or metals.

Eur. Phys. J. Appl. Phys.

, 2010, vol. 49, no. 3,

pp. 33007(1)–33007(9). DOI:

http://dx.doi.org/10.1051/epjap/2010014

[12] Gorelik V.S. Polaritons and their counterparts in the material and in the physical

vacuum.

Proc. of Int. Sci. Meeting PIRT-2003 “Physical Interpretations of Relativity

Theory”

. Moscow, 2003, pp. 56–81 (in Russ.).

[13] Gorelik V.S. Dynamics of lattice models of media and physical vacuum.

Proc. of

Int. Sci. Meeting PIRT-2005 “Physical interpretations of relativity theory”

. Moscow,

2005, pp. 70–76.

[14] Gorelik V.S. Microstructure of crystalline physical vacuum and photon-boson.

Gravitation and Cosmology

, 2006, vol. 12, no. 2–3, pp. 151–154.

[15] Gorelik V.S. Dynamic of lattice models of media and physical vacuum.

Proc. of

Int. Sci. Meeting PIRT-2005 “Physical interpretations of relativity theory”

. Moscow,

2005, p. 70.

[16] Tareeva M.V., Gorelik V.S., Kudryavtseva A.D., Chernega N.V. Spectral and energy

characteristics of stimulated globular scattering of light.

Bull. Lebedev Phys. Inst.

2010, no. 11, pp. 35–41 (in Russ.).

[17] Gorelik V.S., Kudryavtseva A.D., Tareeva M.V., Chernega N.V. On generation of

pulsed acoustic waves in globular photonic crystals.

Vestn. Mosk. Gos. Tekh. Univ.

im. N.E. Baumana, Estestv. Nauki

[Herald of the Bauman Moscow State Tech. Univ.,

Nat. Sci.], 2011, no. 2(41), pp. 3–15 (in Russ.).

[18] Sikivie P., Tanner D.B., Van Bibber K. Resonantly enhanced axion-photon

regeneration.

Phys. Rev. Lett.

, 2007, vol. 98. 172002(1)–172002(4). DOI:

10.1103/PhysRevLett.98.172002

[19] Andriamonje S., Aune S., Autiero D., Barth K., Belov A. An improved limit on

the axion-photon coupling from the CAST experiment.

J. Cosmol. Astropart. Phys.

2007, iss. 4, pp. 1–23. DOI:10.1088/1475-7516/2007/04/010

[20] Chou A.S., Wester W., Baumbaugh A., Gustafson H.R., Irizarry-Valle Y., Mazur P.O.,

Steffen J.H., Tomlin R., Upadhye A., Weltman A., X. Yang, Yoo J. A search for

chameleon particles using a photon regeneration technique.

Phys. Rev. Lett.

, 2009,

vol. 102, pp. 080402(1)–080402(4). DOI: 10.1103/PhysRevLett.102.030402

[21] Pugnat P., Duvillaret L., Jost R., Vitrant G., Romanini D., Siemko A., Ballou R.,

Barbara B., Finger Mich., Finger Mir., Hoˇsek J., Kr´al M., Meissner K.A., ˇSulc M.,

Zicha J. First results from the OSQAR photon regeneration experiment: No light

shining through a wall.

Phys. Rev. D.

, 2008, vol. 78, pp. 092003(1)–092003(5).

DOI:10.1103/PhysRevD.78.092003

ISSN 1812-3368. Herald of the BMSTU. Series “Natural Sciences”. 2015. No. 1