Journal of the Korean Crystal Growth and Crystal Technology (한국결정성장학회지)

The Korea Association of Crystal Growth (한국결정성장학회)
권호 표지
DOI QR코드

DOI QR Code

Analysis of surface defect in RE : YAG (RE = Nd3+, Er3+, Yb3+) single crystal using chemical polishing and etching

화학적 polishing 및 etching을 통한 RE : YAG (RE = Nd3+, Er3+, Yb3+) 단결정의 표면 결함 분석

  • Shim, Jang Bo (Thin Film Materials Research Center, Korea Research Institute of Chemical Technology) ;
  • Kang, Jin Ki (NTS Ltd.) ;
  • Lee, Young Kuk (Thin Film Materials Research Center, Korea Research Institute of Chemical Technology)
  • 심장보 (한국화학연구원, 박막재료 연구센터) ;
  • 강진기 ((주)엔티에스) ;
  • 이영국 (한국화학연구원, 박막재료 연구센터)
  • Received : 2016.06.15
  • Accepted : 2016.07.22
  • Published : 2016.08.31
Download PDF
⟨ Previous Next ⟩

Abstract

The conditions for chemical polishing and etching technique were investigated to reveal surface defects in RE : YAG ($RE=Nd^{3+},\;Er^{3+},\;Yb^{3+}$) single crystals grown by Czochralski method. The optimal condition for chemical polishing was in 85 % $H_3PO_4$ solution at $330^{\circ}C$ for 30 minutes with a specimen fixed in the vertical direction. In addition, the optimal condition for chemical etching was in 85 % $H_3PO_4$ solution at $260^{\circ}C$ for 1 hour, and $70{\sim}80{\mu}m$ sized triangular etch pits were observed on (111) face. As a result of defect density analysis, $1.9{\times}10^3/cm^2$ for Nd(1 %) : YAG, $4.3{\times}10^2/cm^2$ for Er(7.3 %) : YAG, and $5.1{\times}10^2/cm^2$ for Yb(15 %) : YAG were measured.

Czochralski 법으로 성장한 RE : YAG ($RE=Nd^{3+}\;,Er^{3+}\;,Yb^{3+}$) 단결정의 표면 결함을 측정하는 chemical polishing 및 etching 조건에 대하여 조사하였다. 최적의 chemical polishing 조건은 시편을 수직 방향으로 고정하고 85 % $H_3PO_4$ 용액에서 $330^{\circ}C$, 30분 동안 진행한 것이었다. 또한 최적의 chemical etching 조건은 85 % $H_3PO_4$ 용액에서 $260^{\circ}C$, 1시간 동안 진행한 것이었고, (111) 면에 $70~80{\mu}m$ 크기의 삼각형 etch pit들이 관찰되었다. 결함 밀도 분석 결과, Nd(1 %) : YAG는 $1.9{\times}10^3$개/$cm^2$, Er(7.3 %) : YAG는 $4.3{\times}10^2$개/$cm^2$, Yb(15 %) : YAG는 $5.1{\times}10^2$개/$cm^2$로 측정되었다.

Keywords

References

  1. A.A. Kaminski, "Laser crystals", Springer, New York (1981).
  2. M.A. Dubinskii, K.L. Schepler, V.V. Semashko, R.Yu. Abdulsabirov, S.L. Korableva and A.K. Naumov, "Spectroscopic analogy approach in selective search for new $Ce^{3+}$-activated all-solid-state tunable ultraviolet laser materials", J. Mod. Opt. 45 (1998) 221.
  3. Y. Shimony, Y. Kalisky, H. Lotem, Z. Goldbart and J. Kagan, "Growth and characterization of (Ho,Tm,Er) : YAG crystals for 2.09 ${\mu}m$ laser", J. Appl. Phys. 68 (1990) 2966. https://doi.org/10.1063/1.346432
  4. C. Belouet, "About crystalline perfection of Nd-doped YAG single crystals", J. Crystal Growth 15 (1972) 188. https://doi.org/10.1016/0022-0248(72)90118-2
  5. M. Gerber and Th. Graf, "Optimum parameters to etch Nd : YAG crystals with orthphosphoric acid $H_3PO_4", Optics & Laser Technology 33 (2001) 449. https://doi.org/10.1016/S0030-3992(01)00057-3
  6. K.E. Shafer, D.E. Eakins, D.F. Bahr, M.G. Norton and K.G. Lynn, "Strength enhancement of single crystal laser components", J. Mater. Res. 18 (2003) 2537. https://doi.org/10.1557/JMR.2003.0353
  7. S. Maekawa, T. Tohyama and I. Morita, "Etch pits at dislocations in yttriun aluminum garnet", J. Crystal Growth 18 (1973) 99. https://doi.org/10.1016/0022-0248(73)90154-1
  8. M. Swirkowski, M. Skorczakowski, J. Jabczynski, A. Bajor, E. Tymicki, B. Kaczmarek and T. Lukasiewicz, "Investigation of structural, optical and lasing properties of YAG : Yb single crystals", Opto-Electronics Review 13 (2005) 213.
  9. S. Kostic, Z.Z. Lazarevic, V. Radojevic, A. Milutinovic, M. Romcevic, N.Z. Romcevic and A. Valcic, "Study of structural and optical properties of YAG and Nd : YAG single crystals", Materials Research Bulletin 63 (2015) 80. https://doi.org/10.1016/j.materresbull.2014.11.033
  10. Y. Peizhi, D. Peizhen, Y. Zhiwen and T. Yulian, "The growth defects in Czochralski-grown Yb : YAG crystal", J. Crystal Growth 218 (2000) 87. https://doi.org/10.1016/S0022-0248(00)00531-5
  11. L. Burgess, F.J. Kumar and J. Mackenzie, "Orientation dependence of etch pit density in (111) and (211) CdZnTe everson etch", J. Electron. Mater. 44 (2015) 3277. https://doi.org/10.1007/s11664-015-3853-y
  12. R.D. Shannon, "Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides", Acta Cryst. A32 (1976) 751.