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In the paper, the demonstration of a high-power LD-pumped Yb, Na:CaF2 femtosecond laser is presented, which the cavity is optimized concerning the numerical simulation for the thermal lens effect. With a 2% output coupler, a continuous-wave mode-locked pulse train with a pulsewidth of 190 fs, the average output power of 503 mW, the center wavelength at 1034 nm and a repetition frequency of 82.4 MHz is obtained under the absorbed pump power of 7.8 W. If other forms of output are recorded, such as the reflection of the crystal surface, the total output power is 905 mW.
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Keywords:
- Yb /
- Na:CaF2 crystal /
- Laser diode-pump /
- femtosecond laser
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[2] Wang P, Dawes J, Dekker P, Piper J 2000 Opt. Comm. 174 467
[3] Brunner F, Spühler G, Ausder J A, Krainer L, Morier-Genoud F, Paschotta R, Lichtenstein N, Weiss S, Harder C, Lagatsky A 2000 Opt. Lett. 25 1119
[4] Jacquemet M, Jacquemet C, Janel N, Druon F, Balembois F, Georges P, Petit J, Viana B, Vivien D, Ferrand B 2004 Appl. Phys. B 80 171
[5] Kisel V, Troshin A, Shcherbitsky V, Kuleshov N, Matrosov V, Matrosova T, Kupchenko M, Brunner F, Paschotta R, Morier-Genoud F 2005 Opt. Lett. 30 1150
[6] Xue Y, Wang C, Liu Q, Li Y, Chai L, Yan C, Zhao G, Su L, Xu X, Xu J 2006 IEEE J. Quantum Electronics 42 517
[7] Yang Q H, Xu J, Su L B, Zhang H W 2006 Acta Phys. Sin. 55 2657 (in Chinese) [杨秋红,徐军,苏良碧,张红伟 2006 55 2657]
[8] Xue Y H, Wang Q Y, Chai L, Liu Q W, Zhao G J, Su L B, Xu X D, Xu J 2006 Acta Phys. Sin. 55 456 (in Chinese) [薛迎红,王清月,柴路,刘庆文,赵广军,苏良碧,徐晓东,徐军 2006 55 456]
[9] Wan Y, Han W J, Liu J H, Xia L H, Xavier M, Valentin P, Zhang H J, Wang J Y 2009 Acta Phys. Sin. 58 278 (in Chinese) [万勇, 韩文娟,刘均海,夏临华, Xavier M, Valentin P, 张怀金,王继扬 2009 58 278]
[10] Siebold M, Bock S, Schramm U, Xu B, Doualan J, Camy P, Moncorg é R 2009 Appl. Phys. B 97 327
[11] Coluccelli N, Galzerano G, Tonelli M, Laporta P, Svelto O 2008 Opt. Lett. 33 1141
[12] Coluccelli N, Galzerano G, Bonelli L, DiLieto A, Tonelli M, Laporta P 2008 Opt. Express 16 2922
[13] Petit V, Doualan J, Camy P, Ménard V, Moncorgé R 2004 Appl. Phys. B 78 681
[14] Lucca A, Jacquemet M, Druon F, Balembois F, Georges P, Camy P, Doualan J, Moncorgé R 2004 Opt. Lett. 29 1879
[15] Boudeile J, Didierjean J, Camy P, Doualan J, Benayad A, Ménard V, Moncorgé R, Druon F, Balembois F, Georges P 2008 Opt. Express 16 10098
[16] Ricaud S, Papadopoulos D, Camy P, Doualan J, Moncorgé R, Courjaud A, Mottay E, Georges P, Druon F 2010 Opt. Lett. 35 3757
[17] Friebel F, Druon F, Boudeile J, Papadopoulos D, Hanna M, Georges P, Camy P, Doualan J, Benayad A, Moncorgé R 2009 Opt. Lett. 34 1474
[18] Siebold M, Hornung M, Bock S, Hein J, Kaluza M, Wemans J, Uecker R 2007 Appl. Phys. B 89 543
[19] Siebold M, Hornung M, Boedefeld R, Podleska S, Klingebiel S, Wandt C, Krausz F, Karsch S, Uecker R, Jochmann A 2008 Opt. Lett. 33 2770
[20] Su L, Xu J, Li H, Wen L, Yang W, Zhao Z, Si J, Dong Y, Zhou G 2005 J. Cryst. Growth 277 264
[21] Su L, Xu J, Li H, Wen L, Zhu Y, Zhao Z, Dong Y, Zhou G, Si J 2005 Chem. Phys. Lett. 406 254
[22] Chai L, Yan S, Xue Y H, Liu Q W, Wang Q Y, Su L B, Xu X D , Zhao G J, Xu J 2007 Acta Phys. Sin. 56 3553 (in Chinese) [柴路,颜石,薛迎红,刘庆文,王清月,苏良碧,徐晓东,赵广军,徐军 2007 56 3553]
[23] Su L, Xu J, Xue Y, Wang C, Chai L, Xu X, Zhao G 2005 Opt. Express 13 5635
[24] Chai L, GeWQ, Yan J, HuML,Wang Q Y, Su L B, Li H J, Zheng L H, Xu J 2009 Chin. J. Laser 36 1700 (in Chinese) [柴路, 葛文琦, 闫杰, 胡明列,王清月, 苏良碧, 李红军, 郑丽和, 徐军 2009 中国激光 36 1700]
[25] Pugžlys A, Andriukaitis G, Baltuška A, Su L, Xu J, Li H, Li R, Lai W, Phua P, Marcinkevičius A, Fermann M E, Giniunas L, Danielius R, Ališauskas S 2009 Opt. Lett. 34 2075
[26] Keller U, Weingarten K J, Kärtner F X, Kopf D, Braun B, Jung I D, Fluck R, Hönninger C, Matuschek N, Aus der Au J 1996 IEEE J. Sel. Topics Quantum Electron 2 435
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[1] Hönninger C, Paschotta R, Graf M, Morier-Genoud F, Zhang G, Moser M, Biswal S, Nees J, Braun A, Mourou G 1999 Appl. Phys. B 69 3
[2] Wang P, Dawes J, Dekker P, Piper J 2000 Opt. Comm. 174 467
[3] Brunner F, Spühler G, Ausder J A, Krainer L, Morier-Genoud F, Paschotta R, Lichtenstein N, Weiss S, Harder C, Lagatsky A 2000 Opt. Lett. 25 1119
[4] Jacquemet M, Jacquemet C, Janel N, Druon F, Balembois F, Georges P, Petit J, Viana B, Vivien D, Ferrand B 2004 Appl. Phys. B 80 171
[5] Kisel V, Troshin A, Shcherbitsky V, Kuleshov N, Matrosov V, Matrosova T, Kupchenko M, Brunner F, Paschotta R, Morier-Genoud F 2005 Opt. Lett. 30 1150
[6] Xue Y, Wang C, Liu Q, Li Y, Chai L, Yan C, Zhao G, Su L, Xu X, Xu J 2006 IEEE J. Quantum Electronics 42 517
[7] Yang Q H, Xu J, Su L B, Zhang H W 2006 Acta Phys. Sin. 55 2657 (in Chinese) [杨秋红,徐军,苏良碧,张红伟 2006 55 2657]
[8] Xue Y H, Wang Q Y, Chai L, Liu Q W, Zhao G J, Su L B, Xu X D, Xu J 2006 Acta Phys. Sin. 55 456 (in Chinese) [薛迎红,王清月,柴路,刘庆文,赵广军,苏良碧,徐晓东,徐军 2006 55 456]
[9] Wan Y, Han W J, Liu J H, Xia L H, Xavier M, Valentin P, Zhang H J, Wang J Y 2009 Acta Phys. Sin. 58 278 (in Chinese) [万勇, 韩文娟,刘均海,夏临华, Xavier M, Valentin P, 张怀金,王继扬 2009 58 278]
[10] Siebold M, Bock S, Schramm U, Xu B, Doualan J, Camy P, Moncorg é R 2009 Appl. Phys. B 97 327
[11] Coluccelli N, Galzerano G, Tonelli M, Laporta P, Svelto O 2008 Opt. Lett. 33 1141
[12] Coluccelli N, Galzerano G, Bonelli L, DiLieto A, Tonelli M, Laporta P 2008 Opt. Express 16 2922
[13] Petit V, Doualan J, Camy P, Ménard V, Moncorgé R 2004 Appl. Phys. B 78 681
[14] Lucca A, Jacquemet M, Druon F, Balembois F, Georges P, Camy P, Doualan J, Moncorgé R 2004 Opt. Lett. 29 1879
[15] Boudeile J, Didierjean J, Camy P, Doualan J, Benayad A, Ménard V, Moncorgé R, Druon F, Balembois F, Georges P 2008 Opt. Express 16 10098
[16] Ricaud S, Papadopoulos D, Camy P, Doualan J, Moncorgé R, Courjaud A, Mottay E, Georges P, Druon F 2010 Opt. Lett. 35 3757
[17] Friebel F, Druon F, Boudeile J, Papadopoulos D, Hanna M, Georges P, Camy P, Doualan J, Benayad A, Moncorgé R 2009 Opt. Lett. 34 1474
[18] Siebold M, Hornung M, Bock S, Hein J, Kaluza M, Wemans J, Uecker R 2007 Appl. Phys. B 89 543
[19] Siebold M, Hornung M, Boedefeld R, Podleska S, Klingebiel S, Wandt C, Krausz F, Karsch S, Uecker R, Jochmann A 2008 Opt. Lett. 33 2770
[20] Su L, Xu J, Li H, Wen L, Yang W, Zhao Z, Si J, Dong Y, Zhou G 2005 J. Cryst. Growth 277 264
[21] Su L, Xu J, Li H, Wen L, Zhu Y, Zhao Z, Dong Y, Zhou G, Si J 2005 Chem. Phys. Lett. 406 254
[22] Chai L, Yan S, Xue Y H, Liu Q W, Wang Q Y, Su L B, Xu X D , Zhao G J, Xu J 2007 Acta Phys. Sin. 56 3553 (in Chinese) [柴路,颜石,薛迎红,刘庆文,王清月,苏良碧,徐晓东,赵广军,徐军 2007 56 3553]
[23] Su L, Xu J, Xue Y, Wang C, Chai L, Xu X, Zhao G 2005 Opt. Express 13 5635
[24] Chai L, GeWQ, Yan J, HuML,Wang Q Y, Su L B, Li H J, Zheng L H, Xu J 2009 Chin. J. Laser 36 1700 (in Chinese) [柴路, 葛文琦, 闫杰, 胡明列,王清月, 苏良碧, 李红军, 郑丽和, 徐军 2009 中国激光 36 1700]
[25] Pugžlys A, Andriukaitis G, Baltuška A, Su L, Xu J, Li H, Li R, Lai W, Phua P, Marcinkevičius A, Fermann M E, Giniunas L, Danielius R, Ališauskas S 2009 Opt. Lett. 34 2075
[26] Keller U, Weingarten K J, Kärtner F X, Kopf D, Braun B, Jung I D, Fluck R, Hönninger C, Matuschek N, Aus der Au J 1996 IEEE J. Sel. Topics Quantum Electron 2 435
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