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    • 2. 发明申请
    • METHOD OF ETCHING MATERIALS WITH ELECTRON BEAM AND LASER ENERGY
    • 用电子束和激光能量蚀刻材料的方法
    • US20100200546A1
    • 2010-08-12
    • US12704167
    • 2010-02-11
    • Lyudmila Zaykova-FeldmanHerschel M. MarchmanThomas M. Moore
    • Lyudmila Zaykova-FeldmanHerschel M. MarchmanThomas M. Moore
    • B44C1/22
    • H01L21/67069G03F1/72G03F1/74H01L21/32135
    • We disclose a method of electron-beam induced of etching the surface of a specimen in a charged-particle beam instrument, where the charged-particle beam instrument has first and second laser beams, an electron beam, and a gas-injection system for applying etchant gas to the surface. Etching is accomplished by applying a photolytic pulse from the first laser to the surface; applying a pyrolytic pulse from the second laser to the surface; and, applying an etchant gas to the surface at least during the pyrolytic pulse. Two or more alternating pyrolytic laser pulses and photolytic laser pulses may be applied to the surface. The stage supporting the specimen may be tilted relative to the axis of the electron beam before applying the electron beam to the surface of the specimen. The electron beam is applied to the surface of the specimen during the time the etchant gas is present at the surface.
    • 我们公开了一种在带电粒子束仪器中蚀刻样品表面的电子束的方法,其中带电粒子束仪器具有第一和第二激光束,电子束和用于施加的气体注入系统 蚀刻气体到表面。 通过将第一激光器的光解脉冲施加到表面来实现蚀刻; 将来自第二激光器的热解脉冲施加到表面; 以及至少在热解脉冲期间将蚀刻剂气体施加到表面。 可以将两个或更多个交替的热解激光脉冲和光解激光脉冲施加到表面。 在将电子束施加到试样的表面之前,支撑试样的载物台可相对于电子束的轴线倾斜。 在蚀刻剂气体存在于表面的时间内,电子束被施加到样品的表面。
    • 3. 发明授权
    • Single-channel optical processing system for energetic-beam microscopes
    • 用于能量束显微镜的单通道光学处理系统
    • US07961397B2
    • 2011-06-14
    • US12201447
    • 2008-08-29
    • Herschel M. MarchmanThomas M. MooreRocky Kruger
    • Herschel M. MarchmanThomas M. MooreRocky Kruger
    • G02B27/10
    • H01J37/226H01J37/3045H01J2237/2482H01J2237/317H01J2237/31749
    • A single-channel optical processing system for an energetic-beam instrument has separate sources for processing radiation and illumination radiation. The processing radiation and the illumination radiation are combined in a single optical path and directed to a sample surface inside the energetic-beam instrument through a self-focusing rod lens. The self-focusing rod lens thus has a working distance from the sample surface that will not interfere with typical arrangements of ion beams and electron beams in such instruments. A combination of polarizers and beam splitters allows separation of the combined incident radiation and the combined radiation reflected from the sample surface and returned through the same optical channel, so that the reflected radiation may be directed to an optical detector, such as a camera or spectrometer. In other embodiments, additional illumination of the sample surface is provided at an angle to the central axis of the self-focusing rod lens.
    • 用于能量束仪器的单通道光学处理系统具有用于处理辐射和照射辐射的单独源。 处理辐射和照射辐射在单个光学路径中组合并通过自聚焦棒透镜指向能量束仪器内部的样品表面。 因此,自聚焦棒透镜具有与样品表面的工作距离,其不会干扰这些仪器中的离子束和电子束的典型布置。 偏振器和分束器的组合允许组合的入射辐射和从样品表面反射的组合辐射分离并通过相同的光学通道返回,使得反射的辐射可以被引导到诸如相机或光谱仪的光学检测器 。 在其他实施例中,样品表面的附加照明以与自聚焦棒透镜的中心轴成一定角度设置。
    • 4. 发明申请
    • SINGLE-CHANNEL OPTICAL PROCESSING SYSTEM FOR ENERGETIC-BEAM MICROSCOPES
    • 用于能量束显微镜的单通道光学处理系统
    • US20100051802A1
    • 2010-03-04
    • US12201447
    • 2008-08-29
    • Herschel M. MarchmanThomas M. MooreRocky Kruger
    • Herschel M. MarchmanThomas M. MooreRocky Kruger
    • G01N23/00
    • H01J37/226H01J37/3045H01J2237/2482H01J2237/317H01J2237/31749
    • A single-channel optical processing system for an energetic-beam instrument has separate sources for processing radiation and illumination radiation. The processing radiation and the illumination radiation are combined in a single optical path and directed to a sample surface inside the energetic-beam instrument through a self-focusing rod lens. The self-focusing rod lens thus has a working distance from the sample surface that will not interfere with typical arrangements of ion beams and electron beams in such instruments. A combination of polarizers and beam splitters allows separation of the combined incident radiation and the combined radiation reflected from the sample surface and returned through the same optical channel, so that the reflected radiation may be directed to an optical detector, such as a camera or spectrometer. In other embodiments, additional illumination of the sample surface is provided at an angle to the central axis of the self-focusing rod lens.
    • 用于能量束仪器的单通道光学处理系统具有用于处理辐射和照射辐射的单独源。 处理辐射和照射辐射在单个光学路径中组合并通过自聚焦棒透镜指向能量束仪器内部的样品表面。 因此,自聚焦棒透镜具有与样品表面的工作距离,其不会干扰这些仪器中的离子束和电子束的典型布置。 偏振器和分束器的组合允许组合的入射辐射和从样品表面反射的组合辐射分离并通过相同的光学通道返回,使得反射的辐射可以被引导到诸如相机或光谱仪的光学检测器 。 在其他实施例中,样品表面的附加照明以与自聚焦棒透镜的中心轴成一定角度设置。
    • 5. 发明授权
    • Apparatus and method for automated stress testing of flip-chip packages
    • 倒装芯片封装自动应力测试的装置和方法
    • US07446542B2
    • 2008-11-04
    • US11367562
    • 2006-03-03
    • Lyudmila Zaykova-FeldmanThomas M. Moore
    • Lyudmila Zaykova-FeldmanThomas M. Moore
    • G01R31/302G01R31/28
    • G01R31/2881G01M7/08G01N3/00G01N3/307G01N3/313G01N2203/0044G01N2203/005G01N2203/0057G01N2203/0296G01N2203/0676G01R31/2868H01L21/67011
    • An apparatus for testing flip-chip packages has a programmed computer, a test-engine stage for applying an impact to at least one package under test, and a monitoring stage. The test-engine stage causes an impact on the package on the side opposite its ball-grid array. The test-engine stage has actuators connected to the test-engine stage and the computer, for moving and aligning the test-engine stage. The monitoring stage has a digital camera connected to the computer for transmitting digital images from the ball-grid array side of the package to the computer. A microscope is preferably connected to the digital camera. A sample stage located between the test-engine stage and the monitoring stage holds the package under test. The sample stage has an acoustic transducer capable of being removably connected to the package under test. The acoustic transducer is connected to the computer for transmitting signals from the acoustic transducer to the computer.
    • 用于测试倒装芯片封装的装置具有编程的计算机,用于对至少一个待测试包进行冲击的测试引擎阶段和监视阶段。 测试引擎级在与球栅阵列相反的一侧对包装产生影响。 测试发动机级具有连接到测试发动机级和计算机的致动器,用于移动和对准测试引擎级。 监控级具有连接到计算机的数字照相机,用于将数字图像从包装的球栅阵列侧传输到计算机。 显微镜优选地连接到数码相机。 位于测试引擎级和监控级之间的样品台保持被测试的包装。 样品台具有能够可拆卸地连接到被测试包装的声学换能器。 声学换能器连接到计算机,用于将信号从声学传感器传输到计算机。