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Warianty tytułu
Języki publikacji
Abstrakty
Using a highly accurate polarimetric method, we determine the gyration tensor component g11 for Ca3Ga2Ge4O14 (CGG) crystals. For this aim we employ a single-wavelength high-accuracy polarimeter and eliminate the main systematic errors of our polarimetric measurements. A calculation technique based on the polarizability theory for optical activity (OA) is applied to derive optical rotatory power (ORP) for the CGG. A comparison of the observed and calculated OA parameters confirms the validity of our theoretical calculations. Dispersions of both the ordinary and extraordinary refractive indices and the ORP are calculated.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
s. 217--228
Opis fizyczny
Bibliogr. 30 poz., tab., wykr.
Twórcy
autor
- Ivan Franko National University of Lviv, 8 Kyrylo and Mefodiy Street, 79005 Lviv, Ukraine
autor
Bibliografia
- [1] KAMINSKII A., AMINOV L., ERMOLAEV V., KORNIENKO A., KRAVCHENKO V., MALKIN B., MILL B., PERLIN YU., PETROSYAN A., PUKHOV K., SAKUN V., SARKISOV S., SVESHNIKOVA E., SKRIPKO G., STAROSTIN N., SHKADAREVICH A., Physics and Spectroscopy of Laser Crystals, Nauka, Moscow, 1986, pp. 197–233, (in Russian).
- [2] KALDYBAEV K., KONSTANTINOVA A., PEREKALINA Z., Gyrotropy of Uniaxial Absorbing Crystals, ISPIN, Moscow, 2000, pp. 226–243, (in Russian).
- [3] MILL B.V, KLIMENKOVA A.A., MAXIMOV B.A., MOLCHANOV V.N., PUSHCHAROVSKY D.YU., Enantiomorphism of the Ca3Ga2Ge4O14 com-pound and comparison of the Ca3Ga2Ge4O14 and Sr3Ga2Ge4O14 structures, Crystallography Reports 52(5), 2007, pp. 785–794.
- [4] VEREMEICHIK T.F., SIMONOV V.I., Comparison of the spectral characteristics of chromium-containing crystals of the calcium gallogermanate type with their structural features, Crystallography Reports 55(6), 2010, pp. 976–982.
- [5] VEREMEICHIK T.F, Optical activity and crystalline structure of crystals of the langasite family, Crystallography Reports 56(6), 2011, pp. 1060–1065.
- [6] KOBAYASHI J., UESU Y., A new optical method and apparatus “HAUP” for measuring simultaneously optical activity and birefringence of crystals. I. Principles and construction, Journal of Applied Crystallography 16(2), 1983, pp. 204–211.
- [7] KOBAYASHI J., ASAHI T., SAKURAI M., TAKAHASHI M., OKUBO K., ENOMOTO Y., Optical properties of superconducting Bi2Sr2CaCu2O8, Physical Review B 53(17), 1996, pp. 11784–11795.
- [8] ASAHI T., OSAKA T., ABRAHAMS S.C., MATSUKI R., ASAI H., NANAMATSU S., KOBAYASHI J., Measurement of circular dichroism of ferroelectric fresnoite Ba2Si2TiO8, Proceedings of SPIE 5218, 2003, pp. 223–231.
- [9] MATSUKI R., ASAHI T., KOBAYASHI J., ASAI H., Measurement of circular birefringance and circular dichroism of the single crystals of Λ-(+)589- and Δ-(–)589-tris(ethylenediamine)cobalt(III) triiodide monohydrate by the extended HAUP method, Chirality 16(5), 2004, pp. 286–293.
- [10] DEVARAJAN V., GLAZER A.M., Theory and computation of optical rotatory power in inorganic crystals, Acta Crystallographica Section A 42(6), 1986, pp. 560–569.
- [11] BORN M., HUANG K., Dynamical Theory of Crystal Lattices, IL, Moscow, 1958, pp. 244–311, (in Russian).
- [12] KAMINSKY W., Experimental and phenomenological aspects of circular birefringence and related properties in transparent crystals, Reports on Progress in Physics 63(10), 2000, pp. 1575–1640.
- [13] CLABORN K., KAHR B., KAMINSKY W., Calculation of optical properties of the tetraphenyl-X family of isomorphous crystals (X = C, Si, Ge, Sn, Pb), CrystEngComm 4(46), 2002, pp. 252–256.
- [14] HERREROS-CEDRES J., HERNANDEZ-RODRIGUEZ C., KAMINSKY W., Absolute optical rotation of CsLiB6O10, Journal of Applied Crystallography 38(3), 2005, pp. 544–554.
- [15] KAMINSKY W., GLAZER A., Crystal optics of D-mannitol, C6H14O6: crystal growth, structure, basic physical properties, birefringence, optical activity, Faraday effect, electro-optic effects and model calculations, Zeitschrift für Kristallographie 212(4), 1997, pp. 283–296.
- [16] KAMINSKY W., RESPONTE D., DARANCIANG D., GALLEGOS J.B., BAO-CHAU NGOC TRAN, TRAM-ANH PHAM, Structure, morphology and optical properties of chiral N-(4-X-phenyl)-N-[1(S)-1-phenylethyl] thiourea, X = Cl, Br, and NO2, Molecules 15(1), 2010, pp. 554–569.
- [17] KONSTANTINOVA A.F., KALDYBAEV K.A., PEREKALINA Z.B., OREKHOVA V.P., Anisotropic optical properties of crystals with Ca-gallogermanate structure, Crystallography Reports 47(3), 2002, pp. 480–483.
- [18] BURKOV V.I., PEREDEREI E.P., FEDOTOV E.V., MILL B.V., PISAREVSKII YU.V., Circular dichroism spectra of the langasite family crystals in the range of electronic transitions of structure defects, Crystallography Reports 53(5), 2008, pp. 843–846.
- [19] SHOPA Y.I., Measuring of optical activity in the KDP group crystals by high accuracy polarimetric methods, Journal of Physical Studies 5(1), 2001, pp. 70–74.
- [20] SHOPA Y., FTOMYN N., Polarimetric studies of linear dichroism in Cr-doped gallogermanate crystals, Ukrainian Journal of Physical Optics 7(4), 2006, pp. 183–188.
- [21] SHOPA Y.I., FTOMYN N.Y., Optical activity of chromium-doped Ca-gallogermanate crystals, Journal of Physical Studies 14(4), 2010, article 4001.
- [22] MOXON J.R.L., RENSHAW A.R., The simultaneous measurement of optical activity and circular dichroism in birefringent linearly dichroic crystal sections. I. Introduction and description of the method, Journal of Physics: Condensed Matter 2(32), 1990, pp. 6807–6836.
- [23] SHOPA Y.I., LUTSIV-SHUMSKIY L.P., FTOMYN A.E., Influence of deuteration on the optical activity in KDP crystals, Journal of Physical Studies 8(1), 2004, pp. 84–88.
- [24] GLAZER A.M., WINOPTACT: a computer program to calculate optical rotatory power and refractive indices from crystal structure data, Journal of Applied Crystallography 35(5), 2002, pp. 652–653.
- [25] TESSMAN J.R., KAHN A.H., SHOCKLEY W., Electronic polarizabilities of ions in crystals, Physical Review 92(4), 1953, pp. 890–895.
- [26] BATSANOV S., Structural Refractometry, Vysshaya Shkola, Moscow, 1976, pp. 47–82, (in Russian).
- [27] KITTEL C., Introduction to Solid State Physics, Nauka, Moscow, 1978, pp. 479–480, (in Russian).
- [28] SHOPA Y., NOSENKO A., KRAVCHUK M., SELSKIY A., Optical anisotropy in gallogermanate group crystals, Ukrainian Journal of Physics 43, 1998, pp. 1002–1003.
- [29] NYE J., Physical Properties of Crystals: Their Representation by Tensors and Matrices, IL, Moscow, 1960, pp. 330–346, (in Russian).
- [30] BORN M., WOLF E., Principles of Optics, 2nd Edition, Nauka, Moscow, 1970, pp. 110–124, (in Russian).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e4b1ea49-089b-4946-949e-af24dbe5f951