Geodesic
Thermooptical sounds excitation in gyrotropic two-layers under opposite interaction of electromagnetic waves
Problemy fiziki, matematiki i tehniki, no. 1 (2012), pp. 19-25.

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Photoacoustic transformation in the gyrotropic two-layer medium under the tunnel electromagnetic interference has been studied in the work. The effect of full suppression of photoacoustic signal amplitude depending on the intensiveness of oppositeinteractive waves, phase difference and modulation frequency has been revealed. The method of the amplitude-phase characteristics control of the photoacoustic signal has been proposed.
Mots-clés : photoacoustic effect, heat conduction equation, photoacoustic signal amplitude, photoacoustic cell.
Keywords: tunnel electromagnetic interference, gyrotropy, circularly dichroism 
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G. S. Mityurich; V. V. Sviridova; A. N. Serdyukov. Thermooptical sounds excitation in gyrotropic two-layers under opposite interaction of electromagnetic waves. Problemy fiziki, matematiki i tehniki, no. 1 (2012), pp. 19-25. http://geodesic.mathdoc.fr/item/PFMT_2012_1_a3/

[1] V. V. Sidorenkov, V. V. Tolmachev, “Effekt tunnelnoi elektromagnitnoi interferentsii v metallicheskikh plenkakh”, Pisma v ZhTF, 15:21 (1989), 34–37

[2] V. V. Sidorenkov, V. V. Tolmachev, “Effekty elektromagnitnoi interferentsii v metallicheskikh plastinakh”, Pisma v ZhTF, 16:3 (1990), 20–25

[3] R. V. Barkladze, N. B. Brant, V. V. Tolmachev, “Interferentsionnaya prozrachnost ploskoparallelnoi plastinki pri padenii na nee s dvukh storon ploskikh elektromagnitnykh voln”, Mekhanika sploshnoi sredy, Sb. nauch. tr., M., 1981, 3–46

[4] R. G. Sannikov, D. I. Sementsov, “Interferentsiya vstrechnykh voln v nevzaimnoi kiralnoi srede”, Pisma v ZhTF, 33:23 (2007), 19–26

[5] S. A. Afanasev, D. I. Sementsov, “Potoki energii pri interferentsii elektromagnitnykh voln”, UFN, 178 (2008), 377–384 | DOI

[6] S. A. Afanasev, D. I. Sementsov, “Tunnelnaya interferentsiya vstrechnykh voln v oblasti otritsatelnoi magnitnoi pronitsaemosti”, ZhTF, 67:67 (1997), 77–80

[7] E. V. Ivakin, I. P. Petrovich, A. S. Rubanov, “Termicheskoe interferentsionno-opticheskoe vozbuzhdenie ultrazvukovykh voln v kondensirovannykh sredakh”, Kvantovaya elektronika, 4:11 (1977), 2421–2426

[8] G. S. Mityurich, V. P. Zelyony, A. N. Serdyukov, “Photoacoustic transformation in gyrotropic media at interaction of two light beams”, Proc. 5$^{\mathrm{th}}$ Spring School on Acoustooptics and Applications, SPIE, 184, 1992, 309–318 | DOI

[9] G. S. Mityurich et al., “Photoacoustic transformation in magnetically active under the interaction of opposing light waves”, Journ. de Phys. IV Colloque C7, 4 (1994), C7-769–C7-772

[10] P. V. Astakhov, G. S. Mityurich, “Fotodeflektsionnyi otklik girotropno-izotropnogo obraztsa v usloviyakh tunnelnoi elektromagnitnoi interferentsii”, Pisma v ZhTF, 24:15 (1998), 85–90

[11] A. A. Karabutov i dr., “Interferentsiya vstrechnykh prodolnykh akusticheskikh voln v izotropnoi pogloschayuschei plastinke i periodicheskoi strukture s defektami”, Akust. zhurn., 47:6 (2001), 890–896

[12] V. V. Sidorenko, V. V. Tolmachev, Effekt tunnelnoi interferentsii polei proizvolnoi fizicheskoi prirody i ego tekhnicheskie prilozheniya, , SciTecLibrary, 02.04.2008 http://www.sciteclibrary.ru/rus/catalog/pages/9021.html/

[13] D. Caher, “Photoacoustic cell for reflection and transition measurements”, Rev. Sci. Instrum., 52:9 (1981), 1306–1310 | DOI

[14] F. I. Fedorov, Teoriya girotropii, Nauka i tekhnika, Minsk, 1976, 456 pp.

[15] F. I. Fedorov, Optika anizotropnykh sred, Izd. AN BSSR, Minsk, 1958, 380 pp.

[16] B. V. Bokut, A. N. Serdyukov, V. V. Shepelevich, “K fenomenologicheskoi teorii pogloschayuschikh opticheski aktivnykh sred”, Opt. i spektr., 37:1 (1974), 120–124

[17] B. V. Bokut, A. N. Serdyukov, “K fenomenologicheskoi teorii estestvennoi opticheskoi aktivnosti”, ZhETF, 61:5 (1971), 1803–1813

[18] G. S. Mityurich, V. V. Sviridova, A. N. Serdyukov, “Fotoakusticheskaya spektroskopiya girotropnykh sloistykh obraztsov”, ZhPS, 53:4 (1990), 611–617

[19] Sposob peredachi elektromagnitnykh signalov cherez tonkoplenochnuyu sredu, A.S. No 1689925, B.I. No 41, 1991

[20] Sposob induktsionnogo nagreva ploskogo izdeliya iz elektroprovodnogo materiala, A.S. No 1707782, B.I. No 3, 1992

[21] Ob'emnoe golograficheskoe antennoe ustroistvo, Patent No 2089027, B.I. No 24, 1997

[22] Kombinirovannaya sistema fotoakusticheskoi induktsii i ultrazvukovoi vizualizatsii, Zayavka na izobretenie No 200912779, B.I. No 3, 2011