Effect of coloring impurities on the absorption in neodymium phosphate laser glass at a lasing wavelength
This paper reports on the results of the investigation of KGSS 0180/35 neodymium phosphate glasses produced on an industrial scale under oxidizing conditions and glasses prepared under experimental conditions in which iron and copper in small amounts rather than neodymium are introduced into the gla...
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| Published in: | Glass physics and chemistry Vol. 32; no. 2; pp. 146 - 152 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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Springer Nature B.V
01-03-2006
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| Abstract | This paper reports on the results of the investigation of KGSS 0180/35 neodymium phosphate glasses produced on an industrial scale under oxidizing conditions and glasses prepared under experimental conditions in which iron and copper in small amounts rather than neodymium are introduced into the glass composition. The experimental glasses are synthesized by varying the redox conditions of melting. The oxidation states of transition metal impurities (Cu, Fe, V, Ni, Co) and the nonactive absorption coefficients of glasses at the lasing wavelength are determined. It is revealed that the main contribution to the nonactive absorption coefficient of the KGSS 0180/35 glass produced on an industrial scale is made by Cu2+ ions at a concentration higher than 0.5 ppm. At a lower copper concentrations, the total contribution of Fe2+, V4+, Ni2+, and Co2+ impurity ions to the nonactive absorption coefficient is comparable to that of Cu2+ ions. It is demonstrated that a decrease in the concentration of coloring impurities in glasses and the optimization of redox conditions of melting make it possible to prepare phosphate laser glasses with a nonactive absorption coefficient of the order of 0.001 cm−1. In terms of the nonactive absorption coefficient, these glasses are on a par with similar glasses of foreign manufacture and satisfy the requirements imposed on glasses by developers of high-power high-energy laser facilities. |
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| AbstractList | This paper reports on the results of the investigation of KGSS 0180/35 neodymium phosphate glasses produced on an industrial scale under oxidizing conditions and glasses prepared under experimental conditions in which iron and copper in small amounts rather than neodymium are introduced into the glass composition. The experimental glasses are synthesized by varying the redox conditions of melting. The oxidation states of transition metal impurities (Cu, Fe, V, Ni, Co) and the nonactive absorption coefficients of glasses at the lasing wavelength are determined. It is revealed that the main contribution to the nonactive absorption coefficient of the KGSS 0180/35 glass produced on an industrial scale is made by Cu2+ ions at a concentration higher than 0.5 ppm. At a lower copper concentrations, the total contribution of Fe2+, V4+, Ni2+, and Co2+ impurity ions to the nonactive absorption coefficient is comparable to that of Cu2+ ions. It is demonstrated that a decrease in the concentration of coloring impurities in glasses and the optimization of redox conditions of melting make it possible to prepare phosphate laser glasses with a nonactive absorption coefficient of the order of 0.001 cm−1. In terms of the nonactive absorption coefficient, these glasses are on a par with similar glasses of foreign manufacture and satisfy the requirements imposed on glasses by developers of high-power high-energy laser facilities. This paper reports on the results of the investigation of KGSS 0180/35 neodymium phosphate glasses produced on an industrial scale under oxidizing conditions and glasses prepared under experimental conditions in which iron and copper in small amounts rather than neodymium are introduced into the glass composition. The experimental glasses are synthesized by varying the redox conditions of melting. The oxidation states of transition metal impurities (Cu, Fe, V, Ni, Co) and the nonactive absorption coefficients of glasses at the lasing wavelength are determined. It is revealed that the main contribution to the nonactive absorption coefficient of the KGSS 0180/35 glass produced on an industrial scale is made by Cu^sup 2+^ ions at a concentration higher than 0.5 ppm. At a lower copper concentrations, the total contribution of Fe^sup 2+^, V^sup 4+^, Ni^sup 2+^, and Co^sup 2+^ impurity ions to the nonactive absorption coefficient is comparable to that of Cu^sup 2+^ ions. It is demonstrated that a decrease in the concentration of coloring impurities in glasses and the optimization of redox conditions of melting make it possible to prepare phosphate laser glasses with a nonactive absorption coefficient of the order of 0.001 cm^sup -1^. In terms of the nonactive absorption coefficient, these glasses are on a par with similar glasses of foreign manufacture and satisfy the requirements imposed on glasses by developers of high-power high-energy laser facilities.[PUBLICATION ABSTRACT] |
| Author | Gusev, P E Semenov, A D Nikitina, S I Voroshilova, M V Arbuzov, V I Fedorov, Yu K |
| Author_xml | – sequence: 1 givenname: P surname: Gusev middlename: E fullname: Gusev, P E – sequence: 2 givenname: V surname: Arbuzov middlename: I fullname: Arbuzov, V I – sequence: 3 givenname: M surname: Voroshilova middlename: V fullname: Voroshilova, M V – sequence: 4 givenname: S surname: Nikitina middlename: I fullname: Nikitina, S I – sequence: 5 givenname: A surname: Semenov middlename: D fullname: Semenov, A D – sequence: 6 givenname: Yu surname: Fedorov middlename: K fullname: Fedorov, Yu K |
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| CitedBy_id | crossref_primary_10_1007_s00339_019_2391_5 crossref_primary_10_1016_j_jnoncrysol_2015_06_009 crossref_primary_10_1016_j_optmat_2017_12_042 crossref_primary_10_1038_srep08593 |
| Cites_doi | 10.1016/S0022-3093(87)80671-3 10.1016/S0022-3093(98)00367-6 10.1016/S0022-3093(99)00645-6 10.1016/S0022-3093(99)00682-1 10.1111/j.1151-2916.2002.tb00223.x 10.1111/j.1151-2916.1991.tb04299.x |
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| References | K. Zirkelbach (2004_CR6) 1987; 60 V.I. Arbuzov (2004_CR1) 2003; 70 L.E. Ageeva (2004_CR3) 1977; 7 B.S. Bae (2004_CR8) 1991; 74 P.R. Ehrman (2004_CR4) 2000; 263–264 T.I. Veinberg (2004_CR13) 1963; 31 L.I. Demkina (2004_CR11) 1982 V.I. Arbuzov (2004_CR9) 2002; 69 J.H. Campbell (2004_CR2) 2000; 263–264 2004_CR12 B. Pivac (2004_CR7) 1998; 226 2004_CR5 P.R. Ehrman (2004_CR10) 2002; 85 |
| References_xml | – ident: 2004_CR12 – volume: 31 start-page: 224 issue: 160 year: 1963 ident: 2004_CR13 publication-title: Tr. Gos. Opt. Inst. contributor: fullname: T.I. Veinberg – ident: 2004_CR5 doi: 10.1016/S0022-3093(87)80671-3 – volume: 226 start-page: 41 year: 1998 ident: 2004_CR7 publication-title: J. Non-Cryst. Solids doi: 10.1016/S0022-3093(98)00367-6 contributor: fullname: B. Pivac – volume: 69 start-page: 16 issue: 1 year: 2002 ident: 2004_CR9 publication-title: Opt. Zh. contributor: fullname: V.I. Arbuzov – volume: 70 start-page: 68 issue: 1 year: 2003 ident: 2004_CR1 publication-title: Opt. Zh. contributor: fullname: V.I. Arbuzov – volume: 60 start-page: 312 year: 1987 ident: 2004_CR6 publication-title: Glastech. Ber. contributor: fullname: K. Zirkelbach – volume: 263–264 start-page: 318 year: 2000 ident: 2004_CR2 publication-title: J. Non-Cryst. Solids doi: 10.1016/S0022-3093(99)00645-6 contributor: fullname: J.H. Campbell – volume: 263–264 start-page: 251 year: 2000 ident: 2004_CR4 publication-title: J. Non-Cryst. Solids doi: 10.1016/S0022-3093(99)00682-1 contributor: fullname: P.R. Ehrman – volume: 85 start-page: 1061 issue: 5 year: 2002 ident: 2004_CR10 publication-title: J. Am. Ceram. Soc. doi: 10.1111/j.1151-2916.2002.tb00223.x contributor: fullname: P.R. Ehrman – volume: 74 start-page: 3039 issue: 12 year: 1991 ident: 2004_CR8 publication-title: J. Am. Ceram. Soc. doi: 10.1111/j.1151-2916.1991.tb04299.x contributor: fullname: B.S. Bae – volume-title: Nauchno-tekhnicheskie osnovy proizvodstva opticheskogo stekla s malym pokazatelem oslableniya year: 1982 ident: 2004_CR11 contributor: fullname: L.I. Demkina – volume: 7 start-page: 2414 issue: 11 year: 1977 ident: 2004_CR3 publication-title: Kvantovaya Elektron contributor: fullname: L.E. Ageeva |
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| SubjectTerms | Absorptivity Cobalt Coloring Copper Glass Impurities Iron Lanthanide phosphates Lasers Lasing Neodymium Nickel Optimization Oxidation Transition metals |
| Title | Effect of coloring impurities on the absorption in neodymium phosphate laser glass at a lasing wavelength |
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