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Warianty tytułu
Badania w dziedzinie właściwości odblaskowych warstwowych antyferromagnetyczno- dielektrycznych struktur
Języki publikacji
Abstrakty
Reflection properties of layered antiferromagnetic-dielectric structures with an oblique axis orientation and an oblique planar wave falling are investigated in this paper. Nonreciprocal angle dependence in oblique axis orientation was obtained and described. Founded properties are based not on the Faraday effect but on the non-reciprocity of anisotropic material - FeF2 antiferromagnetic. Obtained result were studied in terahertz region but may be used in near-infrared region and radio frequency region with another anisotropic materials using. Obtained results allow us to propose a valve based on the investigated structure.
Właściwości odbijające warstwowych antyferromagnetyczno-dielektrycznych struktur z ukośną orientacją osi i ukośną, płaską falą padania są badane w tej pracy. Uzyskano i opisano zależność kąta w orientacji skośnej osi. Założone właściwości nie są oparte na efekcie Faradaya, ale na braku wzajemności materiału anizotropowego-antyferromagnetycznego FeF2. Otrzymany wynik oceniano w obszarze terahercowym ale może być stosowany w obszarze bliskiej podczerwieni i w obszarze częstotliwości radiowych w odniesieniu do innych materiałów anizotropowych.
Wydawca
Rocznik
Tom
Strony
55--58
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
autor
- O.Honchar Dnepropetrovsk National University, Ukraine Department of Physics, Electronics and Computer Systems
autor
- O.Honchar Dnepropetrovsk National University, Ukraine Department of Physics, Electronics and Computer Systems
autor
- O.Honchar Dnepropetrovsk National University, Ukraine Department of Physics, Electronics and Computer Systems
Bibliografia
- [1] Yun-Shik Lee: Principles of Terahertz science and technology, Springer, 2008.
- [2] Potton, R. J.: Reciprocity in optics, Reports on Progress in Physics, 67.5, 2004, 717.
- [3] Shalaby, Mostafa, et al.: Terahertz Faraday rotation in a magnetic liquid: High magneto-optical figure of merit and broadband operation in a ferrofluid, Applied Physics Letters, 100.24, 2012, 241107-241107.
- [4] Shuvaev, A., et al. Room temperature electrically tunable terahertz Faraday effect, Applied Physics Letters, 102, 2013, 241902.
- [5] Pisarev, R. V., J. Hohlfeld, and Th Rasing: Ultrafast Faraday effect and the dynamics of the antiferromagnet-paramagnet phase transition in FeBO3, Journal of Experimental and Theoretical Physics Letters, 75.9, 2002, 487-491.
- [6] Rotter, M., W. Ruile and A. Wixforth: Non-reciprocal SAW devices for RF applications, Ultrasonics Symposium, 2000 IEEE , Vol. 1. IEEE , 2000.
- [7] Koch, Jens, et al: Time-reversal-symmetry breaking in circuit-QEDbased photon lattices, Physical Review A, 82.4, 2010, 043811.
- [8] Fal, T. J., and R. E. Camley: Non-reciprocal devices using attenuated total reflection and thin film magnetic layered structures, Journal of Applied Physics, 110.5, 2011, 053912-053912.
- [9] Fedorov F.I.: Optics of anisotropic medya, Minsk, SA BUSR, 1968 (in russian).
- [10] Yeh P.: Optical waves in layered media, New York, Wiley, 1988. - Т. 95.
- [11] Eroglu, Abdullah: Wave propagation and radiation in gyrotropic and anisotropic media, Springer, 2010.
- [12] Jensen M. R. F. et al: Fourier Transform Spectroscopy of Magnetic Materials at Terahertz Frequencies, Science and Technology, T2, 2009, 105-119.
- [13] Berreman, Dwight W: Optics in stratified and anisotropic media: 4×4-matrix formulation, JOSA, 62.4, 1972, 502-510.
- [14] Teitler, S., and B. W. Henvis: Refraction in stratified, anisotropic media, JOSA, 60.6, 1970, 830-834.
- [15] K. Vytovtov: One-dimensional anisotropic photonic crystal as a key element for nonreciprocal optical devices based not on the Faraday effect, in Proc Microwave Conference (EuMC), Manchester, 2011 41st European, 818-821.
- [16] A.A. Bulgakov, S.A. Bulgakov, M. Nieto-Vesperinas: Inhomogeneous Waves and Energy Localization in Dielectric Superlattices, Phys. Rev. B, 58, 1998, pp. 4438-4446.
- [17] Prosvirnin S.L., Tyrnov D.O.: Propagation of waves in periodic layered structure of complex arrays, URSI/IEEE XXVII Convention on Radio Science, Digest of Technical Papers, S.Tretyakov, J.Saily (editors), Helsinki University of Technology, Espoo, Finland, Oct 17-18, 2002, pp. 112-114.
- [18] V.I. Fesenko, I.A. Sukhoivanov, S.N. Shul’ga and J.A. Andrade Lucio: Propagation of Electromagnetic Waves in Anisotropic Photonic Structures, Advances in Photonic Crystals.
Typ dokumentu
Bibliografia
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