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Igor N. Ogorodnikov Victor Yu. Yakovlev Lyudmila I. Isaenko 《Radiation measurements》2004,38(4-6):659-662
The paper presents the results of a study of the radiation-induced processes and defects in nonlinear optical crystals Li2B4O7 (LTB), LiB3O5 (LBO), CsLiB6O10, KB5O8·4H2O, β-BaB2O4. It was revealed that a pulsed electron beam irradiation at 290 K forms the radiation-induced pairs of the ‘vacancy—interstitial atom’ defects in the cation sublattice of these crystals. This gives rise to a creation of metastable electronic (interstitial atom) and hole (small-radius polaron near the cation vacancy) centers in high concentrations. Optical hole-transitions from the local level of the trapped hole centers to the valence band states are responsible for the transient optical absorptions (TOA) of borates in the visible and UV spectral ranges. A sublattice of the weakly bound mobile lithium cations in LTB and LBO favors a spatial separation of the radiation-induced pair defects ‘hole polaron near Li-vacancy—mobile interstitial Li0 atom’. Their decay rated by the electron–hole nonradiative tunnel recombination determines a peculiar feature of the TOA decay kinetics in LTB and LBO. 相似文献
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Hiromitsu Kiriyama Shinichi Matsuoka Fumihiko Nakano Koichi Yamakawa 《Optical Review》2000,7(4):281-283
The ability of CsLiB6O10 (CLBO) crystals for high power second-harmonic generation (SHG) of a 1064-nm Nd:YAG laser in a quadrature arrangement was experimentally demonstrated. A 532-nm second harmonic output pulse energy of 2.25 J was obtained with 3.21 J of an input 1064-nm fundamental pulse energy at a repetition rate of 10 Hz, corresponding to a power conversion efficiency in excess of 70%. 相似文献
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深紫外和频晶体CLBO产生193 nm激光的频率变换 总被引:1,自引:0,他引:1
简述了深紫外和频晶体CLBO的光学特性。根据相位匹配角公式、非线性有效系数公式、走离角公式和允许角公式,详细计算了CLBO晶体和频产生193 nm激光时的相位匹配角、非线性有效系数、和频时谐波走离角、允许角的具体数值。根据这些数值,并考虑产业化的要求,对目前几种和频方式进行了比较,最终选定波长为λ1=2 100 nm的o光和波长为λ2=213 nm的e光作为基频光进行和频的匹配方式。此方式相位匹配角为51.6°,具有大的非线性有效系数0.97,小的走离角3.7°,大的允许角1.9×10-6 rad·mm,是非常理想的产生193 nm激光的匹配方式。 相似文献
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CsLiB6O10晶体光学参变振荡器的光学特性 总被引:3,自引:0,他引:3
根据三波耦合过程中的能量和动量守恒、晶体的塞耳迈耶尔色散方程,通过数值模拟计算了213nm作CLBO光学参变振荡抽运源时,分别得到了在Ⅰ类和Ⅱ类相位匹配时参量光调谐范围为237~289nm、807~2793nm和404~2800nm。获得了在Ⅰ类匹配时的单谐振或双谐振腔的CLBO光学参变振荡转换效率都大于同等条件下的BBO光学参变振荡,Ⅱ类匹配时,CLBO晶体的转换效率略小于BBO晶体,但是CLBO光学参变振荡转换效率的最大值较BBO光学参变振荡出现于更短的紫外波段。从理论上证明了CLBO晶体是优质的深紫外透光波段非线性光学晶体。 相似文献
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We at present, can use a few nonlinear crystals such as LiB3O5 (LBO), CsLiB6O10 (CLBO), KBe2BO3F2 (KBBF) in deep ultraviolet (DUV) below 200 nm. Since the properties of these crystals have not been theoretically investigated in deep ultraviolet, we have performed the calculations of the frequency doubling, sum frequency phase matching and effective nonlinear coefficients of LBO, CLBO and KBBF crystals in DUV waveband. We have also investigated the possibility of DUV output generation in these crystals. 相似文献
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本文介绍了深紫外非线性光学晶体CLBO的光学特性,推导出了CLBO晶体和频时的相位匹配角、有效非线性系数、走离角、允许角宽度和允许温度范围的公式,并进行了详细计算.根据计算结果可知,CLBO晶体和频可以实现深紫外激光的有效输出,并且具有大的有效非线性系数、小的走离角、大的允许角宽度和允许温度范围.由此设计了1064 nm近红外激光和238.7 nm 紫外激光通过CLBO晶体和频产生195 nm深紫外激光的系统方案,并在实验中实现了平均功率217 μW、重复频率10 Hz的195 nm 激光的稳定运转. 相似文献
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本文用差示扫描量热法(DSC)测定了非线性光学晶体BBO、LBO和CLBO的恒压比热容,计算了在220~420K温度范围内每间隔10K的焓差值和熵差值.有关误差分析表明,该测试方法是有效的,并可用于其它晶体的恒压比热容的测量. 相似文献
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