共查询到20条相似文献,搜索用时 500 毫秒
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研制出国内第一台用LD泵浦的NYAB自倍频激光器和双波长激光器。采用直接耦合方式进行端面泵浦。自倍频激光器产生0.531μm的绿色激光,基横模运转,阈值泵浦功率为14.31mW,输出功率达2.2mW,斜效率达2.1%。双波长激光器同时产生0.531μm的绿色激光和1.062μm的近红外激光,基横模运转,阈值泵涌功率力14.81mW,输出功率达9.2mW,斜效率达7%。 相似文献
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报道了利用最大输出功率为500mW的LD 纵向泵浦Cr∶ LiSAF/ LBO、利用平凹腔结构
获得430nm 连续蓝紫光激光输出的实验研究。Cr∶ LiSAF 激光晶体厚度为1. 01mm、掺杂浓度为2. 2 %。在LD 泵浦功率为320mW时,基频光860nm 的最大输出功率为3mW。此时,采用LBO 倍频晶体Ⅰ类临界相位匹配进行腔内倍频获得倍频光430nm 的最大输出功率为0. 54mW ,激光阈为101mW ,斜效率为0. 14 %。 相似文献
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LD 泵浦全固体连续蓝紫光激光器的实验研究 总被引:1,自引:0,他引:1
报道了利用最大输出功率为500mW的LD纵向泵浦Cr:LiSAF/LBO、利用平凹腔结构获得430nm连续蓝紫光激光输出的实验研究。Cr:LiSAF激光晶体厚度为1.01mm、掺杂浓度为2.2%。在LD泵浦功率为320mW时,基频光860nm的最大输出功率为53mW。此时,采用LBO倍频晶体Ⅰ类临界相位匹配进行腔内倍频获得倍频光430nm的最大输出功率为0.54mW,激光阈为101mW,斜效率为0.14%。 相似文献
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研制成LD泵浦的YLF激光器得到连续1.047μm近红外激光,阈值泵浦功率是19mW,输出功率达5.2mW,斜效率为5.1%;研制成YLF-MgO:LN腔内倍频激光器,得到连续0.524μm绿色倍频光输出,阈值泵浦功率为34mW,输出功率为0.46mW,斜效率为0.5%。对Nd:YLF晶体的受激态吸收和因其产生的荧光进行了观察研究,指出其可能的应用。本文简要报导实验方法和实验结果。 相似文献
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本文报道了利用最大输出功率为650mW的全固态Nd:YVO4/LB0671nm红光激光器作为泵浦源,纵向泵浦Cr:LiSAF,利用LBO腔内倍频,获得430nm的连续蓝光输出的实验研究,并解释了当泵浦功率继续增大时,输出功率下降的原因。在泵浦功率为560mW时,获得了最大输出功率为9mW的430nm蓝光输出,激光的阈值为230mW。 相似文献
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从征 《激光与光电子学进展》1989,26(2):45
美国A-B激光公司宣布,二极管泵浦的Nd:YAG激光器已有现成产品,功率为2 mW和5 mW,绿光(532 nm)输出,由红外Nd:YAG激光内腔倍频产生。激光器额定功率稳定度为2小时±3%,在10 Hz~1 GHz频率范围均方根噪声为2%。 相似文献
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Gubin M.A. Kireev A.N. Koval'chuk E.V. Tyurikov D.A. Depatie D. 《Photonics Technology Letters, IEEE》1995,7(7):745-747
CW operation of a RbCl:Li-FA(II) laser has been obtained under pumping by a red laser diode. Pump power at threshold is 90 mW. Single frequency operation of the color center laser has been achieved. The intensity noise generated by two pump sources (laser diode and Kr-ion laser) is compared 相似文献
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采用Ar~+离子激光器作为泵浦源实现了NdPP晶体的1.051微米和1.32微米的室温连续运转;采用准半共心腔获得低阈值运转.最低阈值吸收功率1毫瓦,最大输出功率达2毫瓦.由激光特性研究得到的受激发射截面σ_(1.051μ)=1.1×10~(19)厘米~2,σ_(1.32μ)=2.2×10~(-20)厘米~2.还研究了激光弛豫振荡现象,给出弛豫振荡频率与泵浦功率超阈值比的关系曲线;计算了不同输出功率时阈值泵浦功率密度与晶体长度的关系曲线. 相似文献
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Webjorn J. Siala S. Nam D.W. Waarts R.G. Lang R.J. 《Quantum Electronics, IEEE Journal of》1997,33(10):1673-1686
This paper reviews nonlinear quasi-phase-matching (QPM) waveguides and laser diodes with application to conversion of infrared laser diode wavelengths to the visible. The discussion of nonlinear QPM waveguides includes Ti-diffusion poled and E-field poled LiNbO3 and KTP waveguides. Up to 25 mW of blue output power has been demonstrated for 120-mW infrared power injected into a nonlinear waveguide. Semiconductor laser sources suitable for frequency doubling are discussed, including distributed Bragg reflection (DBR) lasers operating at up to 200 mW output power, master oscillator power amplifiers with over 1 W output power, and wavelength-tunable flared semiconductor lasers with over 0.5 W output. A compact blue laser with 1-4 mW output power at 425-nm wavelength has been demonstrated based on a DBR laser frequency doubled in a nonlinear waveguide 相似文献
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The transient frequency shift of a quasi-continuous single-mode frequency-doubled diode-pumped Nd:YAG ring laser has been measured using a confocal spherical Fabry-Perot. At a rate of 50 Hz, a quasi-linear shift of 5.4 MHz at the fundamental 1.06-μm wavelength has been measured during the 150-μs laser pulse duration. The doubled frequency, which is obtained by an intracavity LBO crystal, shows also a similar but doubled linear shift. This observed frequency shift is interpreted as due to thermal effects in the rod and fits well a modeling of the pulsed laser diode pumping. Introducing intracavity compensation, a piezoceramic transducer mounted cavity mirror, has limited the observed shift to less than ±1 MHz. Such a quasi-continuous Nd:YAG single-mode and frequency stabilized device should be a very suitable single-mode laser source to pump optical parametric oscillator systems 相似文献
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