Abstract

A lamp pumped CW Nd:YAG laser is presented in this paper for the requirement of industrial application. The main factors, which affect output power and beam quality of high power solid-state laser module, are theoretically analyzed. Total electro-optics efficiency of lamp pumped Nd:YAG crystal as high as 4.0% is obtained, and output power is higher than 647 W with beam parameter product 22 mm·mrad.

© 2005 Chinese Optics Letters

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2002 (1)

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

1992 (2)

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

M. Kumkar, B. Wedel, and K. Richter, Optics & Laser Technol. 24, 67 (1992).

1988 (1)

K. P. Driedger, R. M. Ifflander, and H. Weber, IEEE J. Quantum Electron. 24, 665 (1988).

1980 (1)

Austin, L.

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

Carter, W. H.

Driedger, K. P.

K. P. Driedger, R. M. Ifflander, and H. Weber, IEEE J. Quantum Electron. 24, 665 (1988).

Fleischer, J.

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

Greve, P.

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

Huang, M. S.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Ifflander, R. M.

K. P. Driedger, R. M. Ifflander, and H. Weber, IEEE J. Quantum Electron. 24, 665 (1988).

Kumkar, M.

M. Kumkar, B. Wedel, and K. Richter, Optics & Laser Technol. 24, 67 (1992).

Lei, H.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Li, Q.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Richter, K.

M. Kumkar, B. Wedel, and K. Richter, Optics & Laser Technol. 24, 67 (1992).

Wang, Z. Y.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Weber, H.

K. P. Driedger, R. M. Ifflander, and H. Weber, IEEE J. Quantum Electron. 24, 665 (1988).

Wedel, B.

M. Kumkar, B. Wedel, and K. Richter, Optics & Laser Technol. 24, 67 (1992).

Wright, D.

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

Yu, Z. S.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Zuo, T. C.

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

Appl. Opt. (1)

Chin. J. Lasers (1)

Q. Li, H. Lei, M. S. Huang, Z. S. Yu, Z. Y. Wang, and T. C. Zuo, Chin. J. Lasers 29, 257 (2002).

IEEE J. Quantum Electron. (1)

K. P. Driedger, R. M. Ifflander, and H. Weber, IEEE J. Quantum Electron. 24, 665 (1988).

Opt. & Quantum Electron. (1)

D. Wright, P. Greve, J. Fleischer, and L. Austin, Opt. & Quantum Electron. 24, 993 (1992).

Optics & Laser Technol. (1)

M. Kumkar, B. Wedel, and K. Richter, Optics & Laser Technol. 24, 67 (1992).

Other (1)

W. Koechner, Solid-State Laser Engineering (Springer-Verlag, New York, Heidelberg, 1995).

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