Infrared laser stimulated broadband white emission of transparent Cr:YAG ceramics obtained by solid state reaction sintering

In the present work, the Light Induced White Emission (LIWE) was investigated as one of the sources of laser loss in transparent Cr:YAG ceramics. We have found that transparent Cr:YAG ceramics is capable of generating bright LIWE at excitation powers above a certain threshold. Intensity of LIWE stro...

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Published inOptical materials Vol. 111; p. 110673
Main Authors Chaika, M.A., Tomala, R., Strek, W.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2021
Subjects
Ceramics
Cr:YAG
Intervalence charge transfer
Tetravalent chromium
White light emission
Cr:YAG
White light emission
Intervalence charge transfer
Ceramics
Tetravalent chromium
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Abstract In the present work, the Light Induced White Emission (LIWE) was investigated as one of the sources of laser loss in transparent Cr:YAG ceramics. We have found that transparent Cr:YAG ceramics is capable of generating bright LIWE at excitation powers above a certain threshold. Intensity of LIWE strongly depends on the excitation power and ambient pressure. The host temperature estimated from Cr3+ luminescence was found to be below 600 °C, while the most intense white emission was found between 50 and 400 °C. The mechanism of the laser induced white emission was discussed in terms of Intervalence Charge Transfer (IVCT) in chromium mixed valence pair. •We have found that transparent Cr:YAG ceramics is capable of generating bright LIWE.•The host temperature estimated from Cr3+ luminescence was found to be below 600 °C.•The most intense white emission was found between 50–400 °C.•The laser induced white emission was discussed in terms of Intervalence Charge Transfer (IVCT) in chromium mixed valence pair.
AbstractList In the present work, the Light Induced White Emission (LIWE) was investigated as one of the sources of laser loss in transparent Cr:YAG ceramics. We have found that transparent Cr:YAG ceramics is capable of generating bright LIWE at excitation powers above a certain threshold. Intensity of LIWE strongly depends on the excitation power and ambient pressure. The host temperature estimated from Cr3+ luminescence was found to be below 600 °C, while the most intense white emission was found between 50 and 400 °C. The mechanism of the laser induced white emission was discussed in terms of Intervalence Charge Transfer (IVCT) in chromium mixed valence pair. •We have found that transparent Cr:YAG ceramics is capable of generating bright LIWE.•The host temperature estimated from Cr3+ luminescence was found to be below 600 °C.•The most intense white emission was found between 50–400 °C.•The laser induced white emission was discussed in terms of Intervalence Charge Transfer (IVCT) in chromium mixed valence pair.
ArticleNumber 110673
Author Tomala, R.
Strek, W.
Chaika, M.A.
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Keywords Cr:YAG
White light emission
Intervalence charge transfer
Ceramics
Tetravalent chromium
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Snippet In the present work, the Light Induced White Emission (LIWE) was investigated as one of the sources of laser loss in transparent Cr:YAG ceramics. We have found...
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StartPage 110673
SubjectTerms Ceramics
Cr:YAG
Intervalence charge transfer
Tetravalent chromium
White light emission
Title Infrared laser stimulated broadband white emission of transparent Cr:YAG ceramics obtained by solid state reaction sintering
URI https://dx.doi.org/10.1016/j.optmat.2020.110673
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