Thermal lens measurements in a Nd:GdVO4 self-Raman laser

Wang, Zhichao; Du, Chenlin; Ruan, Shuangchen; Zhang, Li

doi:10.1016/j.optlastec.2010.01.003

Cited by 8 publications

(5 citation statements)

References 7 publications

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“…The thermal focal length of self-Raman crystal laser could be calculated by � == _ 1 +_ 1 (8) f fR h Combining the (6), (7) and (8), the expression for the thermal focal length of self-Raman laser is f = �[p,; ( As l -1) + 7J a p;n f exp( -a z) 2 dZ ] -1 (9) dn/d T OJ sI AL o (OJ o + 8p!z-zo! )…”

Section: Thermal Effects In Self-raman Crystal Lasermentioning

confidence: 99%

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Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Zhu

Qing-li

Zhang

et al. 2011

Proceedings of 2011 International Conference on Electronics and Optoelectronics

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Ahstract-Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser have been studied. The experiment of the pump beam waist position affect on the resonator stability was carried out. The results show that the resonator stability was sensitive to the pump beam waist position for the LD end-pump solid-state laser. Thermal focal length formulas for end-pump fundamental and self Raman crystal laser were given out, in which both far-field half-angle and position of the pump beam waist in the active medium were considered.

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Section: Thermal Effects In Self-raman Crystal Lasermentioning

confidence: 99%

“…Reference [2][3][4] published theories that modeled the thermal lens in solid-state lasers. Reference [5][6][7][8] measured the focal length of the thermal lens using several methods. In 2002, a method for measure the thermal focal length was reported by song et al based on the cavity stability method [9].…”

Section: Introductionmentioning

confidence: 99%

Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Zhu

Qing-li

Zhang

et al. 2011

Proceedings of 2011 International Conference on Electronics and Optoelectronics

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“…These systems are simple and versatile, and by choosing different laser and Raman crystals, a range of output wavelengths can be obtained for potential applications in the areas of medicine, biomedicine, and remote sensing. Systems which are particularly useful are self-Raman compact lasers based on Nd-doped laser crystals that provide the first Stokes line in the near infrared region between 1100 and 1200 nm [1][2][3][4][5][6][7]. Combined with frequency doubling, these laser sources generate radiation at wavelengths in the yellow-orange spectral region.…”

Section: Introductionmentioning

confidence: 99%

“…Diode-pumped, Q-switched self-Raman lasers have been successfully demonstrated in earlier works [6][7][8][9][10]. However, for the time resolved investigation of fast physical phenomena, often the nanosecond or subnanosecond pulses of Q-switched lasers is not sufficient.…”

Section: Introductionmentioning

confidence: 99%

Compact Q-switched and mode-locked Nd³⁺:YVO₄/Cr⁴⁺:YAG self-Raman laser

Peng

Zheng

et al. 2012

Appl. Opt.

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Compact passively Q-switched and mode-locked Nd(3+):YVO(4)/Cr(4+):YAG self-Raman laser with high mode-locked repetition rate was demonstrated. The picosecond first Stokes at 1176 nm was successfully obtained. At the maximum incident pump power, the average output power was 95 mW with the mode-locked pulse repetition rate of 940 MHz. Yellow laser output of 588.2 nm was also realized by the use of LiB(3)O(5) frequency doubling crystal.

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“…Nela podemos observar a análise semi-quantitativa (uma vez que foi estipulado o valor de ) realizada em nosso estudo do efeito de lente térmica. O perfil apresentando nos resultados possui o mesmo comportamento, já descrito em na literatura para materiais com condutividade térmica positiva[4,9], que mostra uma relação inversamente proporcional do comprimento focal com aumento da potência de bombeio.No gráfico, o ponto a 738 mW foi retirado do ajuste linear uma vez que este foge da relação do comprimento focal e potência de bombeio. O motivo para esta não-linearidade dos pontos deve-se ao fato de termos ultrapassado o limiar de ruptura da amostra, gerando trincas.…”

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Interferometria speckle com lasers de diodo multimodo para análise de materiais e dispositivos

Silva¹

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In this work we will develop a new method focused on the caracterization of thermal lenses effect in photonic materials used as active media in lasers design. This method is based on electronic speckle pattern interferometry (ESPI) using two multimode diode lasers tuned to different frequencies. Adjusting this difference we can achieve an appropriate resolution to measure the variability generated within the curvature radius of the wavefront due to thermal lens effect. For our experiments we chose a vitreous sample of calcium aluminate doped with 4% erbium and incident pump powers ranging to 1.76mW. The diode lasers were tuned to have a contour interval of around 120m. With addition in power absorbed by the sample, we observed a decrease in the curvature radius incident on the camera due to increased power of the thermal lens generated. Through a paraxial of the wavefront, an approach was made to obtain the values of the lenses for each configuration, with focal lengths ranging from 131.39 mm to 42.76 mm.

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Thermal lens measurements in a Nd:GdVO4 self-Raman laser

Cited by 8 publications

References 7 publications

Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Compact Q-switched and mode-locked Nd³⁺:YVO₄/Cr⁴⁺:YAG self-Raman laser

Interferometria speckle com lasers de diodo multimodo para análise de materiais e dispositivos

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Thermal lens measurements in a Nd:GdVO4 self-Raman laser

Cited by 8 publications

References 7 publications

Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Thermal lens effects in the LD end-pump fundamental and self-Raman crystal laser

Compact Q-switched and mode-locked Nd3+:YVO4/Cr4+:YAG self-Raman laser

Interferometria speckle com lasers de diodo multimodo para análise de materiais e dispositivos

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Compact Q-switched and mode-locked Nd³⁺:YVO₄/Cr⁴⁺:YAG self-Raman laser