Features of YAG crystals growth by the Czochralski method in Mo crucibles

Results on growth of Y₃Al₅O₁₂ (YAG) crystals by the Czochralski method in Mo crucibles in reducing and oxidizing atmosphere are presented. The ways to improve the growth technology for obtaining of high quality crystals are determined. The factors providing reduction of absorption in UV-band are dis...

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Бібліографічні деталі
Дата:	2014
Автори:	Arhipov, P., Tkachenko, S., Vasyukov, S., Biatov, M., Sidletskiy, O., Mateychenko, P., Bryleva, E.
Формат:	Стаття
Мова:	English
Опубліковано:	НТК «Інститут монокристалів» НАН України 2014
Назва видання:	Functional Materials
Теми:	Technology
Онлайн доступ:	http://dspace.nbuv.gov.ua/handle/123456789/120493
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Назва журналу:	Digital Library of Periodicals of National Academy of Sciences of Ukraine
Цитувати:	Features of YAG crystals growth by the Czochralski method in Mo crucibles / P. Arhipov, S. Tkachenko, S. Vasyukov, M. Biatov, O. Sidletskiy, P. Mateychenko, E. Bryleva // Functional Materials. — 2014. — Т. 21, № 4. — С. 472-475. — Бібліогр.: 12 назв. — англ.

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Digital Library of Periodicals of National Academy of Sciences of Ukraine

id	irk-123456789-120493
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spelling	irk-123456789-1204932017-06-13T03:04:34Z Features of YAG crystals growth by the Czochralski method in Mo crucibles Arhipov, P. Tkachenko, S. Vasyukov, S. Biatov, M. Sidletskiy, O. Mateychenko, P. Bryleva, E. Technology Results on growth of Y₃Al₅O₁₂ (YAG) crystals by the Czochralski method in Mo crucibles in reducing and oxidizing atmosphere are presented. The ways to improve the growth technology for obtaining of high quality crystals are determined. The factors providing reduction of absorption in UV-band are discussed, as well as post-growth annealing regimes aimed at elimination of these absorption bands. 2014 Article Features of YAG crystals growth by the Czochralski method in Mo crucibles / P. Arhipov, S. Tkachenko, S. Vasyukov, M. Biatov, O. Sidletskiy, P. Mateychenko, E. Bryleva // Functional Materials. — 2014. — Т. 21, № 4. — С. 472-475. — Бібліогр.: 12 назв. — англ. 1027-5495 DOI: dx.doi.org/10.15407/fm21.04.472 http://dspace.nbuv.gov.ua/handle/123456789/120493 en Functional Materials НТК «Інститут монокристалів» НАН України
institution	Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection	DSpace DC
language	English
topic	Technology Technology
spellingShingle	Technology Technology Arhipov, P. Tkachenko, S. Vasyukov, S. Biatov, M. Sidletskiy, O. Mateychenko, P. Bryleva, E. Features of YAG crystals growth by the Czochralski method in Mo crucibles Functional Materials
description	Results on growth of Y₃Al₅O₁₂ (YAG) crystals by the Czochralski method in Mo crucibles in reducing and oxidizing atmosphere are presented. The ways to improve the growth technology for obtaining of high quality crystals are determined. The factors providing reduction of absorption in UV-band are discussed, as well as post-growth annealing regimes aimed at elimination of these absorption bands.
format	Article
author	Arhipov, P. Tkachenko, S. Vasyukov, S. Biatov, M. Sidletskiy, O. Mateychenko, P. Bryleva, E.
author_facet	Arhipov, P. Tkachenko, S. Vasyukov, S. Biatov, M. Sidletskiy, O. Mateychenko, P. Bryleva, E.
author_sort	Arhipov, P.
title	Features of YAG crystals growth by the Czochralski method in Mo crucibles
title_short	Features of YAG crystals growth by the Czochralski method in Mo crucibles
title_full	Features of YAG crystals growth by the Czochralski method in Mo crucibles
title_fullStr	Features of YAG crystals growth by the Czochralski method in Mo crucibles
title_full_unstemmed	Features of YAG crystals growth by the Czochralski method in Mo crucibles
title_sort	features of yag crystals growth by the czochralski method in mo crucibles
publisher	НТК «Інститут монокристалів» НАН України
publishDate	2014
topic_facet	Technology
url	http://dspace.nbuv.gov.ua/handle/123456789/120493
citation_txt	Features of YAG crystals growth by the Czochralski method in Mo crucibles / P. Arhipov, S. Tkachenko, S. Vasyukov, M. Biatov, O. Sidletskiy, P. Mateychenko, E. Bryleva // Functional Materials. — 2014. — Т. 21, № 4. — С. 472-475. — Бібліогр.: 12 назв. — англ.
series	Functional Materials
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first_indexed	2025-07-08T17:58:33Z
last_indexed	2025-07-08T17:58:33Z
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fulltext	�� YAG�� Mo�� !� �"��" #$�� !� �"��" #$�� Y3Al5O12 �YAG� �� Mo �� !� �� "�� !�� #$�� % �� &'()�+, '-./�010, 23 ),'14()1+(� 5'(601//3) Y3Al5O12 �YAG� (- �� 0(�/7 ) )36601+3)(0/�+37 ( 6/183 35(6/(0/�+37 6'�� 92'�/+, 2.0( ./.��+(: 0;+3/3� �(( ),'14()1+(: �/: 23/.�+(: 51�60)++,; 5'(601//3) YAG� 986.<�1�06: =1503� ',% 23-)3/:�4(* 6+(-(0� (+0+6()+360� 23/36 23�/34+(: 5'(601//3) ) >?��(121-3� +% 30'18301+, '<(@, 0'@338'18305( �/: .60'1++(: A0(; 23/36� �� YAG �� Mo �� B1)�+3 '-./�010( - )('34.)1++: 5'(601/�) YAG - �� 0(�/�) . )��+3)/�)1/�+3@. 01 6/183 35(6/�)1/�+3@. 6'�3)(4�� C(-+1�+� �/:;( 235'14++: 0;+3/3��D )('3� 4.)1++: �/: 30'(@1++: :5�6+(; 5'(601/�) YAG� 98�3)3'��0�6: �(++(5(% 43 �3-)3/:� �0� -+(-(0( �+0+6()+�60� 6@.� 23�/(+1++: . >? ��121-3+�% )��2'1��3)1+3 '<(@( 0'@338'385( �/: .6.+++: �(; 6@.�� Y3Al5O12 �YAG� �� YAG �� ! � �� "� �#$#� �% ! � � �� &'�� ( � #� �� Ir �� ! �� Mo �� )��! �� �� Mo �� ! � �� ) � � � �� Ir �� #� � �� YAG �� +,-�� ./0 � 1 ) �� ! �� +! �- � �� YAG �� 2 �� ! �� 3�� E� �� F�� GH% I �J �GKHJ� L GKHJ M N � OP �� N� �� O �� !"#�$!%& '%#()�%&* �� +,� "�� Mo �� 45�� ! � �� 5�� ) � �� 6� � � �� CO � �� 2 � �� CO �� 5�� ! �� 5�� )�� 7 � YAG �� Mo �� #� �� Ar 8 H2 �� ! Ar 8 CO �% 9 Ar 8 CO 8 H2 �( � $�� YAG �� #$# � �� Mo �� Ar �� : �� CO� �� 5�� ;�� YAG<Ce �� #$# � �� Mo �� Cz � �� Ir �� % � #� �� 5�� '�� #� �� )�� #� �� )�� ( � = � �� ! �� )�� #� � � �� /7 >� ? ��! �� )�� YAlO3 � � �� ( � 6�� )� �� 5�� #� �� Mo � � �� YAG � � � �� )�� ) �� ! �% � #� � �� ! �� * � � �� ) �� "�� 45�� ) �� -�� > �� 5�� ! �� ! �� YAG �� (-- � � (@- � �� % � 2 �� YAG �� ! � � �� .@- �� Mo ��5�� #� �� 5� �� #� � �� %77 � � (@- � � � �� ( � #�� Mo �� YAG �� YAG �� Mo �� 07 �� 07 �� Cz � �� :A � �� 0 �&� �� "� �� #� �� ! �� #� �� Ar �� (1 �� 71 �� #� �� Al2O3 � � Y2O3 �� ++�++ > �� 5 � � �� 4�� YAG �� #� �� /( ��B�9 �� 0/�- ��B�� #� �� Mo � � Ir! �� YAG �� Ir �� ,- �� ,- �� & �� 5�� 6�� +, � �� %--°� � �� =�� CD= ,(+- E3 F �� =?F� F�� ?��5�� 2�?6 ,(-- '�� 2�6 �� 4�� -×�-×� �� GD� �� .-G �� H5� �� Mo �� 5�� Mo �� O2 � � �� )� �� 5�� #� � � �� ?� � � �� -�.)/�0$1 (# %&� 2 �(%# )(* $3 4.5 ")6#%& 7)$8#/ 96 �� !"#�$!%& '%#()�%&* �� +,� ��: 2 � �� 5�� Mo �� 7--/,--°� �� "�� %Mo + O2 = %MoO2� D�� %--°� �� %/7 �� A�� ! %�� 1 � �� (MoO2(s) ←→ %MoO3(g) + Mo(s)� #�� I�%--°�� MoO2 � �� MoO3 � � � �� Mo! �� Mo �� #� �� ) � Mo �� 5�� ! �� 5�� &�� ) �! � �� YAG � �� 5�� 5�� ! �� �� Ar �71� �� ) � � ��) � �� =� �� 5�� ) � � �� #� �� ) � Mo �� >� =� �� 5�� 2� �� ) � � �� 5�� = � �� 5�� ) � � �� A�� 4 � �� )�� 5�� YAG �� #� �� +--/ %---°�� #� YAG �� (7 �� ) �� ! �� A�� (�� ?�� A�� .� A�� ! �� YAG �� Ir �� 2 � ��) �� %7-! (--! (@- � �� ) � �� Mo� ?�� E�� G� I�� Mo� E�� H� �� !�� Mo �� E�� Q� YAG �� E�� J� R�� YAG �� Ir �� ,� � � � Mo �� ;<� �� S � M & T JU ��% :M & T HKK ��% �M & T HQK ��% < = �� G �� -�.)/�0$1 (# %&� 2 �(%# )( $3 4.5 ")6#%& 7)$8#/ 96 �� !"#�$!%& '%#()�%&* �� +,� �� ) � �! �! �� ? � � � �� % � �� ) � �� 3 �� ) 7�� ?�� 3 �� ) � �� Ir �� D� � �� Ir � � Mo �� ! � � �� 5�� Mo � � Ir � �� ?�� 5�� 5� � �⋅�-�� > �#�� Mo �� -��÷%⋅�-�� >� D� � Mo �� 5�� ! �� )�� Mo �� 5��) �� YAG � �� #� YAG � � �5�� Mo! �� 1 ) �� ! Mo � �� YAG �� 2� �� Mo �� ! % � 6� �� 5�� ) �� &�� ) �! � �� 5�� #� � �� Mo �� "�� YAG �� &�� ) �! �� Mo �� ) �� ) %%--°�! � �� Mo � � �� MoC–Mo �� %%--°� �� 4) �� A�� 7� � � �� &�� "�� YAG �� Mo �� ) �� 5�� #� �� ) �� ) %%--°� �� )�� ) � �� �� Mo �� ! � �� 5�� #� �� )�� ! �� ! �� 5�� ! �� YAG �� Mo �� 3 �� Ir �� H� V��W!��% V �W!��% X�F� �� % >� ?)6#� 5)$8#/% ��% UJG �HYZH�� G� [�\ �% ]�^� �% V�_� �� % @%#� A(� B &&(C #�!% ��% HYUY �GKK`�� Q� N�I�� !��% R�\� ′� % $�a�� ! �� % � !"#�$!%& @%#()�%&% ��% UJQ �GKKZ�� J� V�b��% F�\�� % >� ?)6#� 5)$8#/% �% GQ` �HY`Z� U� I�R �� !% N�X��!% R�] �� % >� .00� D0("#)�% ��% HQGK �HYc`�� `� F�a�� % [�X��d�� !�% $�] �� % N� �� F� �� !% !�G% I��% F �� HYZc� e� �� f� c� ^�]��% \�N�� % g�b�� % ?)6#� A(� E("/!$&�% ��% ZUY �GKKQ�� Z� ]�^�� % _�^� �% ��_�� % ?)6#� 5)$8#/% ��% UGG �GKKJ�� Y� F�[��% F�R�� % g�N�� % >� ?)6#� 5)$8#/% ��% Uc �GKHQ�� HK� b�_�� %V�^� �% [�^�� % >� .&&$6* %!F ?$'0�% ��% GHZ �GKHG�� HH� \�W �� !% g�X�� !% N�W ��!� �� % G)�#%&&$7)%3�6%% ��% `ZZ �GKKY�� HG� \�W �� !% g�X�� !% N�W ��!� �� % G)�#%&&$7)%3�6%% ��% `YY �GKKZ�� Mo �� h Fe Si Mg Cu Ni% Bi% Ti Pb% Cr% Sn Mn Mo YAGSIr K�KKKU K�KKH K�KKKH K�KKKH K�KKKH K�KKKH K�KKKU K�KKKH YAGSMo K�KKKU K�KKH K�KKKKZ K�KKKH K�KKKH K�KKKH K�KKKU K�KKG E�� U� \�� -�.)/�0$1 (# %&� 2 �(%# )(* $3 4.5 ")6#%& 7)$8#/ 96 �� !"#�$!%& '%#()�%&* �� +,� ��<

Features of YAG crystals growth by the Czochralski method in Mo crucibles

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