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Kvantovaya Elektronika, 2013, Volume 43, Number 3, Pages 271–275 (Mi qe15138)  

This article is cited in 11 scientific papers (total in 11 papers)

Extreme light fields and their applications

Nanopowders M2O3 (M = Y, La, Yb, Nd) with spherical particles and laser ceramics based on them

S. N. Bagayeva, A. A. Kaminskiib, Yu. L. Kopylovc, V. B. Kravchenkoc, A. V. Tolmachevd, V. V. Shemetc, R. P. Yavetskiid

a Institute of Laser Physics, Siberian Branch, Russian Academy of Sciences, Novosibirsk
b Institute of Cristallography RAS, Moscow
c Kotelnikov Institute of Radioengineering and Electronics, Fryazino Branch, Russian Academy of Sciences
d Institute for Single Crystals, National Academy of Sciences of Ukraine, Kharkov

Abstract: We have considered the problems of agglomeration of yttrium aluminium garnet (YAG) nanopowders prepared by chemical co-precipitation of precursors from aqueous solutions and subsequent calcination. To fabricate YAG and Y2O3 laser ceramic samples with high optical transmittance and reproducible characteristics, we have developed a method for producing non-agglomerated nanopowders of pure and doped Y2O3 by homogeneous chemical precipitation. Nanopowders Y2O3 with La and Yb as well as mixtures of Y2O3 : Nd and several commercial nanopowders of aluminium oxide have been compacted; optimised compacting technique have been selected; ceramic samples (Y, La, Yb)2O3 and YAG : Nd with high optical transmittance at a wavelength of 1 mm have been produced by solid-phase synthesis.

Keywords: laser ceramics, nanopowders, yttrium aluminium garnet, yttrium oxide, spherical nanoparticles, optical transmission.

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English version:
Quantum Electronics, 2013, 43:3, 271–275

Bibliographic databases:

PACS: 81.07.Wx, 81.05.Je, 42.70.Hj
Received: 24.12.2012
Revised: 07.02.2013

Citation: S. N. Bagayev, A. A. Kaminskii, Yu. L. Kopylov, V. B. Kravchenko, A. V. Tolmachev, V. V. Shemet, R. P. Yavetskii, “Nanopowders M2O3 (M = Y, La, Yb, Nd) with spherical particles and laser ceramics based on them”, Kvantovaya Elektronika, 43:3 (2013), 271–275 [Quantum Electron., 43:3 (2013), 271–275]

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    1. E. A. Mar’ina, A. A. Mar’in, I. B. Makhina, V. S. Balitskii, Yu. B. Shapovalov, Dokl. Earth Sc, 453:2 (2013), 1237  crossref  adsnasa  isi  scopus
    2. R.P. Yavetskiy, V.N. Baumer, A.G. Doroshenko, Yu.L. Kopylov, D.Yu. Kosyanov, Journal of Crystal Growth, 2014  crossref  isi  scopus
    3. R.P. Yavetskiy, D.Yu. Kosyanov, V.N. Baumer, A.G. Doroshenko, A.I. Fedorov, Journal of Rare Earths, 32:4 (2014), 320  crossref  isi  scopus
    4. M. G. Ivanov, Yu. L. Kopylov, V. B. Kravchenko, K. V. Lopukhin, V. V. Shemet, Inorg Mater, 50:9 (2014), 951  crossref  isi  elib  scopus
    5. Quantum Electron., 44:6 (2014), 585–587  mathnet  crossref  isi  elib
    6. D. Yu. Kosyanov, V. N. Baumer, R. P. Yavetskiy, V. L. Voznyy, V. B. Kravchenko, Crystallogr. Rep, 60:2 (2015), 299  crossref  adsnasa  isi  elib  scopus
    7. I. O. Vorona, R. P. Yavetskiy, O. L. Shpilinskaya, D. Yu. Kos’yanov, A. G. Doroshenko, Tech. Phys. Lett, 41:5 (2015), 496  crossref  adsnasa  isi  elib  scopus
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    11. Kumar S.A., Senthilselvan J., Vinitha G., Opt. Laser Technol., 109 (2019), 561–568  crossref  isi  scopus
  • Квантовая электроника Quantum Electronics
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