Raw material synthesis and single crystal growth of Yb:KGW laser crystal

Ying Wei Wang; Hao Bo Cheng; Jing He Liu

Raw material synthesis and single crystal growth of Yb:KGW laser crystal

Ying Wei Wang^*, Hao Bo Cheng, Jing He Liu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

The key factor for crystal growth of Yb:KGW laser crystal is the selection of the flux and the design of the proper processes. Comparing the phase diagram and temperature field between K₂WO₄ and K₂W₂O₇, Yb: KGW crystal was grown by the flux method using K₂W₂O₇ as a suitable flux. By analyzing the X-ray diffraction spectra of Yb:KGW crystal powder sample and KGW powder sample, we found the same distribution of the diffraction maximum and the relative intensity, so it is concluded that the β- Yb:KGW crystal is of low-temperature phase, monoclinic system and C2/c space group. On the basis of TG-DTA, the results show that Yb:KGW has two obvious absorption peaks at 1086°C and 1021°C contrasting with the pure KGW crystal (melting point at 1031°C, phase transition temperature from tetragonal system to monoclinic system is 1088°C).The Yb:KGW crystal's melting point is about 1086°C and the phase transition peak from tetragonal system to monoclinic is at 1021°C.

Original language	English
Pages (from-to)	887-891
Number of pages	5
Journal	Rengong Jingti Xuebao/Journal of Synthetic Crystals
Volume	33
Issue number	6
Publication status	Published - Dec 2004
Externally published	Yes

Keywords

Crystal growth
Flux
Flux method
Yb:KGW laser crystal

Cite this

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title = "Raw material synthesis and single crystal growth of Yb:KGW laser crystal",

abstract = "The key factor for crystal growth of Yb:KGW laser crystal is the selection of the flux and the design of the proper processes. Comparing the phase diagram and temperature field between K2WO4 and K2W2O7, Yb: KGW crystal was grown by the flux method using K2W2O7 as a suitable flux. By analyzing the X-ray diffraction spectra of Yb:KGW crystal powder sample and KGW powder sample, we found the same distribution of the diffraction maximum and the relative intensity, so it is concluded that the β- Yb:KGW crystal is of low-temperature phase, monoclinic system and C2/c space group. On the basis of TG-DTA, the results show that Yb:KGW has two obvious absorption peaks at 1086°C and 1021°C contrasting with the pure KGW crystal (melting point at 1031°C, phase transition temperature from tetragonal system to monoclinic system is 1088°C).The Yb:KGW crystal's melting point is about 1086°C and the phase transition peak from tetragonal system to monoclinic is at 1021°C.",

keywords = "Crystal growth, Flux, Flux method, Yb:KGW laser crystal",

author = "Wang, {Ying Wei} and Cheng, {Hao Bo} and Liu, {Jing He}",

year = "2004",

month = dec,

language = "English",

volume = "33",

pages = "887--891",

journal = "Rengong Jingti Xuebao/Journal of Synthetic Crystals",

issn = "1000-985X",

publisher = "Chinese Ceramic Society",

number = "6",

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TY - JOUR

T1 - Raw material synthesis and single crystal growth of Yb:KGW laser crystal

AU - Wang, Ying Wei

AU - Cheng, Hao Bo

AU - Liu, Jing He

PY - 2004/12

Y1 - 2004/12

N2 - The key factor for crystal growth of Yb:KGW laser crystal is the selection of the flux and the design of the proper processes. Comparing the phase diagram and temperature field between K2WO4 and K2W2O7, Yb: KGW crystal was grown by the flux method using K2W2O7 as a suitable flux. By analyzing the X-ray diffraction spectra of Yb:KGW crystal powder sample and KGW powder sample, we found the same distribution of the diffraction maximum and the relative intensity, so it is concluded that the β- Yb:KGW crystal is of low-temperature phase, monoclinic system and C2/c space group. On the basis of TG-DTA, the results show that Yb:KGW has two obvious absorption peaks at 1086°C and 1021°C contrasting with the pure KGW crystal (melting point at 1031°C, phase transition temperature from tetragonal system to monoclinic system is 1088°C).The Yb:KGW crystal's melting point is about 1086°C and the phase transition peak from tetragonal system to monoclinic is at 1021°C.

AB - The key factor for crystal growth of Yb:KGW laser crystal is the selection of the flux and the design of the proper processes. Comparing the phase diagram and temperature field between K2WO4 and K2W2O7, Yb: KGW crystal was grown by the flux method using K2W2O7 as a suitable flux. By analyzing the X-ray diffraction spectra of Yb:KGW crystal powder sample and KGW powder sample, we found the same distribution of the diffraction maximum and the relative intensity, so it is concluded that the β- Yb:KGW crystal is of low-temperature phase, monoclinic system and C2/c space group. On the basis of TG-DTA, the results show that Yb:KGW has two obvious absorption peaks at 1086°C and 1021°C contrasting with the pure KGW crystal (melting point at 1031°C, phase transition temperature from tetragonal system to monoclinic system is 1088°C).The Yb:KGW crystal's melting point is about 1086°C and the phase transition peak from tetragonal system to monoclinic is at 1021°C.

KW - Crystal growth

KW - Flux

KW - Flux method

KW - Yb:KGW laser crystal

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M3 - Article

AN - SCOPUS:12844251379

SN - 1000-985X

VL - 33

SP - 887

EP - 891

JO - Rengong Jingti Xuebao/Journal of Synthetic Crystals

JF - Rengong Jingti Xuebao/Journal of Synthetic Crystals

IS - 6

ER -

Raw material synthesis and single crystal growth of Yb:KGW laser crystal

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Keywords

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