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Transparent yttrium oxide ceramics as potential optical isolator materials

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objective of the presented study was to investigate the usefulness of transparent, sintered yttrium oxide for application as optical isolators, i.e., materials with high Verdet constant. The study utilizes the magneto-optical Faraday effect. To obtain yttrium oxide sinters, a commercial Y2O3 powder was applied, with LiF added to facilitate sintering. As a result of hot-press sintering and heating, transparent, dense sinters were obtained. The structure and morphology of the powders and bulk samples and the optical properties of the latter were investigated by means of X-ray diffraction, scanning electron microscopy, visible and near-infrared reflectance spectroscopy, and a study of magneto-optical (Faraday) effects. Measurements of the Faraday effect in the wavelength range of 500–1000 nm indicate high Verdet constants for the above-described materials, which means that they can be effectively applied in laser optics.
Czasopismo
Rocznik
Strony
585--594
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
  • AGH University of Science and Technology, Faculty of Materials Science and Ceramics, al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • Institute of Electronic Materials Technology, ul. Wólczyńska 133, 01-919 Warszawa, Poland
autor
  • Jagiellonian University, Faculty of Physics, Astronomy and Applied Computer Science, ul. Reymonta 4, 30-059 Kraków, Poland
autor
  • AGH University of Science and Technology, Faculty of Materials Science and Ceramics, al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • Jagiellonian University, Faculty of Physics, Astronomy and Applied Computer Science, ul. Reymonta 4, 30-059 Kraków, Poland
autor
  • AGH University of Science and Technology, Faculty of Materials Science and Ceramics, al. Mickiewicza 30, 30-059 Kraków, Poland
Bibliografia
  • [1] EILERS H., Fabrication, optical transmittance, and hardness of IR-transparent ceramics made from nanophase yttria, Journal of the European Ceramic Society 27(16), 2007, pp. 4711–4717.
  • [2] WAJLER A., WĘGLARZ H., TOMASZEWSKI H., MOŻDŻONEK M., SIDOROWICZ A., LIBRANT Z., Wytwarzanie przezroczystej ceramiki Y2O3 metodą spiekania pod ciśnieniem, Materiały Ceramiczne 64(1), 2012, pp. 108–114, (in Polish).
  • [3] XIAORUI HOU, SHENGMING ZHOU, TINGTING JIA, HUI LIN, HAO TENG, Effect of Nd concentration on structural and optical properties of Nd:Y2O3 transparent ceramic, Journal of Luminescence 131(9), 2011, pp. 1953–1958.
  • [4] WOOHONG KIM, VILLALOBOS G., BAKER C., FRANTZ J., SHAW B., BAYYA S., SADOWSKI B., HUNT M., AGGARWAL I., SANGHERA J., Ceramic windows and gain media for high-energy lasers, Optical Engineering 52(2), 2013, article 021003.
  • [5] LIN GAN, YOUNG-JO PARK, MI-JUNG PARK, HANEUL KIM, JIN-MYUNG KIM, JAE-WOONG KO, JAE-WOOK LEE, Facile fabrication of highly transparent yttria ceramics with fine microstructures by a hot-pressing method, Journal of the American Ceramic Society 98(7), 2015, pp. 2002–2004.
  • [6] MANN R., LAISHRAM K., AHMED S.A., MALHAN N., Novel amorphous precursor densification to transparent Nd:Y2O3 ceramics, Ceramics International 38(5), 2012, pp. 4131–4135.
  • [7] SHIRAKAWA A., TAKAICHI K., YAGI H., BISSON J.-F., LU J., MUSHA M., UEDA K., YANAGITANI T., PETROV T., KAMINSKII A., Diode-pumped mode-locked Yb3+:Y2O3 ceramic laser, Optics Express 11(22), 2003, pp. 2911–2916.
  • [8] CASTÉRA J.-P., HEPNER G., Isolator in integrated optics using Faraday and Cotton–Mouton effects, Applied Optics 16(8), 1977, pp. 2031–2033.
  • [9] DEETER M.N., ROSE A.H., DAY G.W., Faraday-effect magnetic field sensors based on substituted iron garnets, Proceedings of the SPIE 1367, 1991, p. 243.
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  • [12] GAWLIK W., KOWALSKI J., NEUMANN R., WIEGEMANN H.B., A new method for measuring oscillator strengths using the resonant Faraday effect in monochromatic light, Journal of Physics B: Atomic and Molecular Physics,12(23), 1979, pp. 3873–3882.
  • [13] KAGAMITANI Y., PAWLAK D.A., SATO H., YOSHIKAWA A., MACHIDA H., FUKUDA T., Annealing effect in terbium-scandium-aluminum garnet single crystal, Japanese Journal of Applied Physics 41(Part 1, 10), 2002, pp. 6020–6022.
  • [14] KAGAMITANI Y., PAWLAK D.A., SATO H., YOSHIKAWA A., MARTINEK J., MACHINA H., FUKUDA T., Dependence of Faraday effect on the orientation of terbium-scandium-aluminum garnet single crystal, Journal of Materials Research 19(2), 2004, pp. 579–583.
  • [15] TAN C.Z., ARNDT J., Faraday effect in silica glasses, Physica B: Condensed Matter 233(1),1997, pp. 1–7.
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  • [17] YOUNGHUN HWANG, HYEKYEONG KIM, SUNGLAE CHO, TAESOO KIM, YOUNGHO UM, HYOYEOL PARK, GWANGSOO JEEN, Magnetic and magneto-optical properties in diluted magnetic semiconductors: Cd1–x–y MnxFeyTe single crystals, Journal of Magnetism and Magnetic Materials 304(1), 2006, pp. e309–e311.
  • [18] WENJING ZHANG, FEIYUN GUO, JIANZHONG CHEN, Growth and characterization of Tb3Ga5–xAlxO12 single crystal, Journal of Crystal Growth 306(1), 2007, pp. 195–199.
  • [19] www.as.northropgrumman.com/synoptics
  • [20] KRUK A., MRÓZEK M., DOMAGAŁA J., BRYLEWSKI T., GAWLIK W., Synthesis and physicochemical properties of yttrium oxide doped with neodymium and lanthanum, Journal of Electronic Materials 43(9), 2014, pp. 3611–3617.
  • [21] ANDERSON R.D., Transparent yttria-based ceramics and method for producing same, US Patent 3545987, 1970.
  • [22] PODOWITZ S.R., GAUMÉ R., FEIGELSON R.S., Effect of europium concentration on densification of transparent Eu:Y2O3 scintillator ceramics using hot pressing, Journal of the American Ceramic Society 93(1), 2010, pp. 82–88.
  • [23] PAMPUCH R., HABERKO K., KORDEK M., Nauka o procesach ceramicznych, PWN, Warszawa, 1992, (in Polish).
  • [24] NAKIELNA P., CZERWIEC J., Czujniki magnetyczne wykorzystujące efekt Faradaya, Master Thesis, Jagiellonian University, 2007, (in Polish).
  • [25] KRELL A., KLIMKE J., HUTZLER T., Transparent compact ceramics: inherent physical issues, Optical Materials 31(8), 2009, pp. 1144–1150.
  • [26] HUTCHINGS D.C., SHEIK-BAHAE M., HAGAN D.J., VAN STRYLAND E.W., Kramers–Krönig relations in nonlinear optics, Optical and Quantum Electronics 24(1), 1992, pp. 1–30.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-437022ec-414d-464c-9635-cf559a009a69
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