Growth of large 90 mm diameter Yb:YAG single crystals with Bagdasarov method

doi:10.1364/OME.2.001219

Growth of large 90 mm diameter Yb:YAG single crystals with Bagdasarov method

M. Arzakantsyan, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup »View Author Affiliations

Optical Materials Express, Vol. 2, Issue 9, pp. 1219-1225 (2012)
http://dx.doi.org/10.1364/OME.2.001219

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Abstract
Article Info
References (12)
Cited By
Figures (7)
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Abstract

Highly transparent Yb doped YAG single crystals with diameter more than 90mm have been grown by Bagdasarov method also known as Horizontal Direct Crystallization.

OCIS Codes
(160.0160) Materials : Materials
(160.3380) Materials : Laser materials

ToC Category:
Laser Materials

History
Original Manuscript: April 16, 2012
Revised Manuscript: June 25, 2012
Manuscript Accepted: July 2, 2012
Published: August 7, 2012

Virtual Issues
Advances in Optical Materials (2012) Optical Materials Express

Citation
M. Arzakantsyan, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup, "Growth of large 90 mm diameter Yb:YAG single crystals with Bagdasarov method," Opt. Mater. Express 2, 1219-1225 (2012)
http://www.opticsinfobase.org/ome/abstract.cfm?URI=ome-2-9-1219

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References

M. Dunne, “A high-power laser fusion facility for Europe,” Nat. Phys.2(1), 2–5 (2006). [CrossRef]
W. R. Meier, “Systems modeling for a laser-driven IFE power plant using direct conversion,” J. Phys.: Conf. Ser.112(3), 032036 (2008). [CrossRef]
J.-C. Chanteloup, D. Albach, G. Bourdet, P. Hollander, and B. Vincent, “Impact of variable doped gain medium on HiPER multiple kJ / ~10Hz diode pumped beam lines design,” in Advanced Solid State Photonics Topical Meeting and Tabletop Exhibit (ASSP), Denver, Colorado, USA (1–4 Feb. 2009).
J-C. Chanteloup, D. Albach, A. Lucianetti, T. Novo and B. Vincent, “6.6 J / 2 Hz Yb:YAG diode-pumped laser chain activation,” in Advanced Solid-State Photonics (ASSP), Istanbul, Turkey, (13–16 Feb. 2011).
J. Zhao, J. Si, X. Xu, J. Xu, H. Song, and Y. Zhou, “Growth of large-sized Yb:YAG single crystals by temperature gradient technique,” J. Cryst. Growth252(1-3), 355–359 (2003). [CrossRef]
G. Zhao, X. Zeng, J. Xu, Y. Xu, and Y. Zhou, “Characteristics of large-sized Ce:YAG scintillation crystal grown by temperature gradient technique,” J. Cryst. Growth253(1-4), 290–296 (2003). [CrossRef]
X. Xu, Z. Zhao, G. Zhao, P. X. Song, J. Xu, and P. Deng, “Comparison of Yb:YAG crystals grown by CZ and TGT method,” J. Cryst. Growth257(3-4), 297–300 (2003). [CrossRef]
Kh. S. Bagdasarov, “Vysokotemperaturnaya kristallizatsiya iz rasplava” (M.: Fizmatlit, 2004).
M. Azrakantsyan, D. Albach, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup, “Yb3+:YAG growth with controlled doping distribution using modified horizontal direct crystallization,” J. Cryst. Growth329(1), 39–43 (2011). [CrossRef]
M. Azrakantsyan, D. Albach, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup, “Yb3+:YAG crystal growth with controlled doping distribution,” Opt. Mater. Express2(1), 20–30 (2012). [CrossRef]
Kh. S. Bagdasarov and L. A. Goryainov, “Teplo- i massoperenos pri vyrashchivanii monokristallov napravlennoi kristallizatsiei” (M.: Fizmatlit, 2007).
W. Koechner, Solid-State Laser Engineering (Springer, 1999).

Albach, D.
Ananyan, N.
Azrakantsyan, M.
Chanteloup, J.-C.
Deng, P.
Dunne, M.
Gevorgyan, V.
Meier, W. R.
Si, J.
Song, H.
Song, P. X.
Xu, J.
Xu, X.
Xu, Y.
Zeng, X.
Zhao, G.
Zhao, J.
Zhao, Z.
Zhou, Y.

J. Cryst. Growth

J. Zhao, J. Si, X. Xu, J. Xu, H. Song, and Y. Zhou, “Growth of large-sized Yb:YAG single crystals by temperature gradient technique,” J. Cryst. Growth252(1-3), 355–359 (2003). [CrossRef]
G. Zhao, X. Zeng, J. Xu, Y. Xu, and Y. Zhou, “Characteristics of large-sized Ce:YAG scintillation crystal grown by temperature gradient technique,” J. Cryst. Growth253(1-4), 290–296 (2003). [CrossRef]
X. Xu, Z. Zhao, G. Zhao, P. X. Song, J. Xu, and P. Deng, “Comparison of Yb:YAG crystals grown by CZ and TGT method,” J. Cryst. Growth257(3-4), 297–300 (2003). [CrossRef]
M. Azrakantsyan, D. Albach, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup, “Yb3+:YAG growth with controlled doping distribution using modified horizontal direct crystallization,” J. Cryst. Growth329(1), 39–43 (2011). [CrossRef]

J. Phys.: Conf. Ser.

W. R. Meier, “Systems modeling for a laser-driven IFE power plant using direct conversion,” J. Phys.: Conf. Ser.112(3), 032036 (2008). [CrossRef]

Nat. Phys.

M. Dunne, “A high-power laser fusion facility for Europe,” Nat. Phys.2(1), 2–5 (2006). [CrossRef]

Opt. Mater. Express

M. Azrakantsyan, D. Albach, N. Ananyan, V. Gevorgyan, and J.-C. Chanteloup, “Yb3+:YAG crystal growth with controlled doping distribution,” Opt. Mater. Express2(1), 20–30 (2012). [CrossRef]

Other

Kh. S. Bagdasarov and L. A. Goryainov, “Teplo- i massoperenos pri vyrashchivanii monokristallov napravlennoi kristallizatsiei” (M.: Fizmatlit, 2007).
W. Koechner, Solid-State Laser Engineering (Springer, 1999).
Kh. S. Bagdasarov, “Vysokotemperaturnaya kristallizatsiya iz rasplava” (M.: Fizmatlit, 2004).
J.-C. Chanteloup, D. Albach, G. Bourdet, P. Hollander, and B. Vincent, “Impact of variable doped gain medium on HiPER multiple kJ / ~10Hz diode pumped beam lines design,” in Advanced Solid State Photonics Topical Meeting and Tabletop Exhibit (ASSP), Denver, Colorado, USA (1–4 Feb. 2009).
J-C. Chanteloup, D. Albach, A. Lucianetti, T. Novo and B. Vincent, “6.6 J / 2 Hz Yb:YAG diode-pumped laser chain activation,” in Advanced Solid-State Photonics (ASSP), Istanbul, Turkey, (13–16 Feb. 2011).

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