会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 9. 发明申请
    • MECHANICALLY TUNABLE ELASTOMERIC OPTOFLUIDIC DISTRIBUTED FEEDBACK DYE LASERS
    • 机械柔性弹性光滑分布式反馈染料激光
    • WO2008105914A3
    • 2008-12-18
    • PCT/US2007075668
    • 2007-08-10
    • CALIFORNIA INST OF TECHNLI ZHENYUPSALTIS DEMETRISCHERER AXELZHANG ZHAOYU
    • LI ZHENYUPSALTIS DEMETRISCHERER AXELZHANG ZHAOYU
    • H01S3/213H01S3/094
    • H01S3/022H01S3/08036H01S3/1053H01S3/213
    • The invention relates to a microfluidic dye laser (100) including a pump light source configured to provide light (107) having a pump light wavelength. The microfluidic dye laser (100) also includes an elastomer substantially optically transparent at the pump light wavelength (107) and at a microfluidic dye laser wavelength. A microfluidic channel (102) configured to accept a iluidic dye is defined in the elastomer. An optical grating (108) is formed in a single mode 3D waveguide in the microfluidic channel (102) in order to provide a single mode microfluidic dye laser light as output in response to illumination with light from the pump light source (107). In another aspect, the invention features a method of tuning a wavelength of a microfluidic dye laser light by mechanically deforming the eiastomeric laser chip to change the grating period in the optical cavity.
    • 本发明涉及一种微流体染料激光器(100),其包括被配置为提供具有泵浦光波长的光(107)的泵浦光源。 微流体染料激光器(100)还包括在泵浦光波长(107)处以微流体染料激光波长基本上光学透明的弹性体。 在弹性体中限定了构造成接受液体染料的微流体通道(102)。 在微流体通道(102)中的单模3D波导中形成光栅(108),以便响应于来自泵浦光源(107)的光的照明,提供单模微流体染料激光作为输出。 在另一方面,本发明的特征在于一种通过机械地使所述激光激光芯片变形以改变光腔中的光栅周期来调谐微流体染料激光的波长的方法。
    • 10. 发明申请
    • METHOD OF NONLINEAR HARMONIC HOLOGRAPHY
    • 非线性谐波全息法的方法
    • WO2008127432A3
    • 2008-12-11
    • PCT/US2007085409
    • 2007-11-21
    • CALIFORNIA INST OF TECHNPU YEPSALTIS DEMETRI
    • PU YEPSALTIS DEMETRI
    • G03H1/00
    • G01N21/636B82Y20/00G01N21/453G01N21/658G01N2021/653G02B5/32G03H1/0465G03H2001/0447G03H2210/62G03H2210/63G03H2222/33G03H2223/26G03H2240/56
    • A harmonic holography (H2) technique and system that combines holography and nonlinear optics that enables holographic recording of 3D images with femtosecond framing time are provided. The H2 technique records holograms with second harmonic (SH) signals scattered off specialized nanocrystals that are functionalized to label specific protein or other biomolecules in a living organism. The capability of generating second harmonic radiations is specific to materials with noncentrosymmetric crystalline structures only, and ?® vanishes for all other types of materials. Therefore, a sharp contrast is formed when particles of noncentrosymmetric structures are dispersed in a medium of other species, pumped at a fundamental frequency, and imaged at the second harmonic frequency. The new scheme described herein provides a sound basis for a new type of contrast microscopy with enormous potential in molecular biomedical imaging.
    • 提供了一种组合全息和非线性光学的谐波全息(H2)技术和系统,可以实现3D图像与飞秒成帧时间的全息记录。 H2技术记录具有二次谐波(SH)信号的全息图,散射专门的纳米晶体,其被功能化以标记生物体中的特定蛋白质或其他生物分子。 产生二次谐波辐射的能力仅限于具有非中心对称结晶结构的材料,而对于所有其他类型的材料,?®消失。 因此,当非中心对称结构的颗粒分散在其他物质的介质中,以基频泵浦并且以二次谐波频率成像时,形成明显的对比。 本文描述的新方案为分子生物医学成像中具有巨大潜力的新型对比显微镜提供了良好的基础。