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    • 3. 发明授权
    • High repetition rate visible optical parametric oscillator
    • 高重复率可见光参量振荡器
    • US07298545B2
    • 2007-11-20
    • US11318234
    • 2005-12-23
    • Andrew H. KungShining ZhuShih-Yu TuZhida Gao
    • Andrew H. KungShining ZhuShih-Yu TuZhida Gao
    • G02F1/35G02F2/02
    • G02F1/39G02F1/3558G02F2202/20G02F2203/05
    • A tunable coherent light source includes a pump laser for generating a pump beam and an optical parametric oscillator including a crystal exhibiting an output curve for a pump beam of a defined wavelength, the output curve defining wavelengths of signal and idler outputs based on periodically poled grating periods of the crystal. The crystal has a plurality of segments associated with a plurality of grating periods of the output curve, each segment of the plurality of segments having a different crystal structure. At least one of the plurality of segments comprises a crystal structure combining at least two of the grating periods A heating device heats the crystal to an elevated operating temperature and is adjustable for adjusting the output wavelengths of each of the segments.
    • 可调谐相干光源包括用于产生泵浦光束的泵浦激光器和包括具有用于定义波长的泵浦光束的输出曲线的晶体的光学参数振荡器,该输出曲线基于周期性极化光栅来定义信号波形和惰轮输出 水晶时期。 晶体具有与输出曲线的多个光栅周期相关联的多个段,多个段中的每个段具有不同的晶体结构。 多个区段中的至少一个包括结合至少两个光栅周期的晶体结构。加热装置将晶体加热到升高的工作温度,并且可调节以调节每个段的输出波长。
    • 4. 发明授权
    • Design of optical superlattice to realize third-harmonic generation and multi-wavelength laser output and its application in the all-solid state laser
    • US06714569B2
    • 2004-03-30
    • US10038518
    • 2002-01-03
    • Shining ZhuJingliang HeYongyuan ZhuHuitian WangGuozheng RuoChao ZhangYiqiang QinNaiben Ming
    • Shining ZhuJingliang HeYongyuan ZhuHuitian WangGuozheng RuoChao ZhangYiqiang QinNaiben Ming
    • H11S310
    • B82Y20/00G02F1/017G02F1/37H01S3/08H01S3/1601
    • The design of a special type of optical superlattice and its application in the all-solid state laser is involved in this invention. Nd ions doped laser crystal in common use can radiate three relatively intense spectral lines when excited: the first wavelength is around 900 nm; the second wavelength is around 1064 nm; the third wavelength is around 1300 nm, whose accurate wavelength are depended on their host crystal (for example, to Nd:YAG, they are 946 nm, 1064 nm and 1319 nm, respectively). On the other hand, for LiNbO3 (LN), LiTaO3 (LT), KTP and other ferroelectric crystals, the positive and negative 180° ferroelectric domains in these crystals can be arranged orderly according to certain sequence via crystal growth, electric field poling, and other state-of-the-art domain reversion technique, forming superlattice that is applicable to quasi-phase-matching (QPM) laser frequency conversion. This invention aims at the design of optical superlattice that can realize third-harmonic generation and coupled parametric process for such three emitting lines of Nd doped crystals and its application in the all-solid state laser. Such a superlattice, which can provide two or more effective reciprocal vectors, can participate in two or more QPM optical parametric processes. Different optical parametric processes in this kind of superlattice can couple each other via cascade effect. Therefore this type of superlattice can be used as an especial frequency-conversion crystal to acquire high-order harmonic generation of laser; in addition, it can realize the simultaneous output of multicolor laser or make the output of laser tunable by quasi-phase-matched frequency down-conversion. For instance, it is applicable to the frequency-conversion devices of all-solid state blue or ultraviolet laser, red-blue or green-ultraviolet dual color laser, and red-green-blue three fundamental colors laser, and can also be used as the source of entangled photon pair in the quantum telecommunication. The scheme can be extended to other active ions (such as Er, Yb, Tm, Sm etc.) doped laser crystal comprised in an all solid-state laser system.