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    • 1. 发明授权
    • Optical scheme for holographic imaging of complex diffractive elements in materials
    • 材料中复杂衍射元素的全息成像光学方案
    • US06297894B1
    • 2001-10-02
    • US09385999
    • 1999-08-30
    • R. J. Dwayne MillerGregory D. Goodno
    • R. J. Dwayne MillerGregory D. Goodno
    • G03H104
    • G03H1/0248G02B5/1857G02B5/32G02B6/02133G02B6/124G02B2006/12107G03H2210/12G03H2210/20
    • This invention discloses optical system and method for writing a refractive index pattern in a light transmissive or light absorbing sample. A light source for providing a short pulse laser beam in the femtosecond range having a low power per unit area is coupled to provide the short pulse beam to a diffractive optical element. A curved mirror collects light transmitted through or reflected from the diffractive optical element preserves an image relating to characteristics of the diffractive optical element encoded within the collected light, and directs the collected light in wavelength independent manner while preserving the image of the diffractive optical element encoded within the collected light. A rod lens demagnifies the image within the light received from the curved mirror so as to increase its power per unit area when directed to the light transmissive or absorbing sample to be permanently impressed therein.
    • 本发明公开了一种在透光或光吸收样品中写入折射率图案的光学系统和方法。 用于在具有每单位面积的低功率的飞秒范围内提供短脉冲激光束的光源被耦合以向衍射光学元件提供短脉冲光束。 收集透射通过衍射光学元件或从衍射光学元件反射的光的曲面镜保留与所收集的光中编码的衍射光学元件的特性有关的图像,并且以波长独立的方式引导收集的光,同时保持被编码的衍射光学元件的图像 在收集的光下。 棒状透镜在从弯曲镜接收的光中对图像进行缩小,以便当指向透光或吸收样品以在其中永久地印刷时增加其每单位面积的功率。
    • 3. 发明授权
    • Electro-optic device for optical signal processing at high repetition
rates
    • 用于以高重复率进行光信号处理的电光装置
    • US5075795A
    • 1991-12-24
    • US513525
    • 1990-04-19
    • R. J. Dwayne MillerPierre Basseras
    • R. J. Dwayne MillerPierre Basseras
    • G02F1/03G02F1/11
    • G02F1/0305G02F1/11G02F2201/505
    • An electro-optic device, which processes by modulating, switching or gating, a light beam in response to an electrical signal utilizes an electro-optic crystal through which the beam to be processed passes. An electric field is generated by pulses which modulate the crystal's index of refraction and also causes piezoelectric ringing in the crystal. Acoustic energy absorbing material is coupled to the crystal for absorbing the piezoelectrically generated acoustic waves propagating perpendicularly to the applied electric field direction which has been found to be the dominant acoustic mode affecting the birefringence of the crystal and causing the ringing. The field is applied in short pulses (of the order of 10 nsec or less) thereby reducing lower frequencies in the acoustic energy spectrum thereby facilitating the absorption of the ringing energy. The modulation or gating of the optical beam may be carried out at high repetition rates which have heretofore limited the use of electro-optic devices to repetition rates of approximately 1 KHz or less.
    • 通过响应于电信号调制,切换或选通光束进行处理的电光装置利用电光晶体,待处理的光束穿过该光电晶体。 通过调制晶体折射率的脉冲产生电场,并在晶体中产生压电振荡。 声能吸收材料耦合到晶体,用于吸收垂直于所施加的电场方向传播的压电产生的声波,已经被发现是影响晶体的双折射并引起振铃的主要声学模式。 该场以短脉冲(约为10nsec或更小)施加,从而降低声能谱中的较低频率,从而便于吸收能量。 光束的调制或门控可以以高重复率进行,其以前限制了电光器件对大约1KHz或更小的重复率的使用。
    • 6. 发明授权
    • Soft ablative desorption method and system
    • 软烧蚀解吸方法和系统
    • US08110794B2
    • 2012-02-07
    • US12656536
    • 2010-02-02
    • R. J. Dwayne Miller
    • R. J. Dwayne Miller
    • H01J49/04H01J49/16G01N1/28
    • G01N1/405H01J49/0463Y10T436/25Y10T436/25125
    • Methods and systems are provided for the soft desorption of analyte from a sample, in which an optical beam absorbed within an irradiate zone of the sample causes vibrational excitations of a component within the sample. The optical beam, providing sufficient energy to superheat the component, is provided for a time interval that is less than the time duration required for the loss of energy out of the irradiated zone due to thermal diffusion and acoustic expansion. The superheated component thus drives ablation within the irradiated zone, resulting in the soft desorption of analyte without ionization and fragmentation. The ejected ablation plume may be directed towards the inlet of a mass analysis device for detection of the desorbed analyte, which is preferably ionized by a linear resonant photo-ionization step.
    • 提供了用于从样品软分解分析物的方法和系统,其中吸收在样品的照射区域内的光束引起样品内部件的振动激发。 提供足够的能量以使部件过热的光束的时间间隔小于由于热扩散和声扩展而导致辐射区域的能量损失所需的持续时间。 因此,过热部件驱动辐射区域内的烧蚀,导致分析物的软解吸附物质不会电离和破碎。 喷射的消融羽流可以被引导到质量分析装置的入口,用于检测解吸附的分析物,其优选通过线性共振光电离步骤离子化。
    • 7. 发明授权
    • Laser selective cutting by impulsive heat deposition in the IR wavelength range for direct-drive ablation
    • 激光选择性切割通过脉冲热沉积在红外波长范围进行直接驱动消融
    • US08029501B2
    • 2011-10-04
    • US11321057
    • 2005-12-30
    • R. J. Dwayne Miller
    • R. J. Dwayne Miller
    • A61B18/18
    • A61B18/20A61C1/0046B23K26/0624B23K26/36
    • The present invention provides a method of laser processing of materials, specifically laser induced ablation processes for laser removal of material particularly important in medical and dental applications in which the laser removal of material should be done in such a way as to not damage any of the surrounding soft or hard biomaterial. The ablation process is achieved by impulsive heat deposition (IHD) by direct and specific excitation of short lived vibrations or phonons of the material in such a way as to not generate highly reactive and damaging ions through multiphoton absorption. The heat deposition and ensuing ablation process under prescribed time and wavelength conditions for laser irradiation is achieved faster than heat transfer to surrounding tissue by either acoustic or thermal expansion or thermal diffusion that otherwise would lead to excess heat related damage. The result is that all the deposited laser energy is optimally channelled into the ablation process in which the inertially confined stresses from both photomechanical expansion forces and thermally driven phase transitions and associated volume changes constructively interfere to drive the most efficient ablation process possible with minimal damage to surrounding areas by either ionizing radiation or heat effects. By choosing a specific range of wavelengths, spatial and temporal shaping of infrared laser pulses, the energy can be optimally deposited in a manner that further increases the efficiency of the ablation process with respect to minimizing collateral damage.
    • 本发明提供一种激光处理材料的方法,特别是用于激光去除在医疗和牙科应用中特别重要的材料的激光去除技术的方法,其中激光去除材料应以不损坏任何材料的方式进行 周围的软或硬生物材料。 通过冲击热沉积(IHD)通过直接和特异性激发材料的短暂振动或声子来实现消融过程,以便通过多光子吸收不产生高反应性和有害的离子。 在规定的时间和波长条件下,用于激光照射的热沉积和随后的消融过程比通过声学或热膨胀或热扩散的热传递到周围组织的速度快,否则将导致过度的热相关损伤。 结果是,所有沉积的激光能量被最佳地引导到消融过程中,其中来自光机械膨胀力和热驱动相变和相关联体积变化的惯性约束应力构造地干涉以驱动最有效的消融过程,同时以最小的损伤 通过电离辐射或热效应的周围区域。 通过选择特定范围的波长,红外激光脉冲的空间和时间成形,可以以进一步提高消融过程效率以减少附带损伤的方式来最佳地沉积能量。