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    • 4. 发明授权
    • Apparatus and method for focusing hard X-rays
    • 用于聚焦硬X射线的装置和方法
    • US5210779A
    • 1993-05-11
    • US736153
    • 1991-07-26
    • Victor ValiDavid B. ChangAlbert F. Lawrence
    • Victor ValiDavid B. ChangAlbert F. Lawrence
    • G03F7/20G21K1/06H01L21/027
    • G21K1/06G03F7/70158G03F7/70316G21K2201/062
    • A dislocation-free, composite-substance crystal having a lattice constant which decreases over the length of the crystal (38) convergently focuses beams of hard X-rays or gamma rays (11). A single-substance, dislocation-free crystal (34) collimates diffuse beams of hard X-rays or gamma rays and projects the collimated radiation (11') to the focusing crystal (38). A mask (36) is interposed between the collimating crystal (34) and the focusing crystal (38) causing the collimated radiation (11'') to carry an image of the mask (36). The focusing crystal (38) produces a convergent hard X-ray beam or gamma ray beam (11''') to focus a reduced image of the mask (36) upon the photosensitive layer (41) of a wafer (39). An example of a dislocation-free crystal having a lattice constant which decreases over its length (38) is a dislocation-free silicon-germanium crystal (20) wherein the proportion of germanium to silicon varies over the length of the crystal.
    • 具有在晶体(38)的长度上减小的晶格常数的无位错复合材料晶体会聚地聚焦硬X射线或γ射线(11)的光束。 单体无位错晶体(34)准直了硬X射线或伽马射线的漫射束,并将准直辐射(11')投影到聚焦晶体(38)。 在准直晶体(34)和聚焦晶体(38)之间插入有使准直辐射(11“)携带掩模(36)的图像的掩模(36)。 聚焦晶体(38)产生会聚的硬X射线束或伽马射线束(11“),以将掩模(36)的还原图像聚焦在晶片(39)的感光层(41)上。 具有在其长度上减小的晶格常数(38)的无位错晶体的实例是无位错硅 - 锗晶体(20),其中锗与硅的比例在晶体长度上变化。
    • 5. 发明申请
    • System and method for switching using coordinated phase shifters
    • 使用协调移相器切换的系统和方法
    • US20080219246A1
    • 2008-09-11
    • US11715432
    • 2007-03-08
    • Mansoor K. SiddiquiAlbert F. LawrenceKai E. JohnsonLance B. Sjogren
    • Mansoor K. SiddiquiAlbert F. LawrenceKai E. JohnsonLance B. Sjogren
    • H04L12/50
    • H01P1/10
    • A switching circuit (100) is provided, comprising: a signal coupler (110) configured to receive first and second input signals and provide first and second coupled signals; a first phase shifter (130) configured to shift a first phase of the first coupled signal by zero degrees or ninety degrees based on a first control signal to generate a first shifted signal; a second phase shifter (135) configured to shift a second phase of the second coupled signal by zero degrees or ninety degrees based on a second control signal to generate a second shifted signal; and a combiner (150) configured to combine the first and second shifted signals. The first coupled signal includes an in-phase copy of the first input signal and a ninety-degree-shifted copy of the second input signal; and the second coupled signal includes an in-phase copy of the second input signal and a ninety-degree-shifted copy of the first input signal.
    • 提供了一种开关电路(100),包括:信号耦合器(110),被配置为接收第一和第二输入信号并提供第一和第二耦合信号; 第一移相器(130),被配置为基于第一控制信号将第一耦合信号的第一相位移位零度或九十度,以产生第一移位信号; 第二移相器(135),被配置为基于第二控制信号将所述第二耦合信号的第二相位移位零度或九十度,以产生第二移位信号; 以及被配置为组合第一和第二移位信号的组合器(150)。 第一耦合信号包括第一输入信号的同相复制和第二输入信号的九十位移复制; 并且第二耦合信号包括第二输入信号的同相拷贝和第一输入信号的九十位移复制。
    • 6. 发明授权
    • Optical random access memory
    • 光学随机存取存储器
    • US5228001A
    • 1993-07-13
    • US644500
    • 1991-01-23
    • Robert R. BirgeAlbert F. Lawrence
    • Robert R. BirgeAlbert F. Lawrence
    • G11B7/0045G11C13/04
    • G11B7/00455G11C13/04
    • An electro optical random access memory uses a film of bacteriorhodopsin or similar photochromic substance which can change between two light absorbing states in response to light of each of two wavelengths. In one embodiment combined red and green laser beams are steered in two orthogonal directions to memory locations on the film. The relative amounts of the light of the two wavelength reflected from memory cell is sensed and discriminated to indicate "1" or "0". A crowbar circuit holds one or the other of the two laser beams on to compensate for degradation that occurs in a read cycle. In another embodiment a single wavelength is employed for read and write operations, but at a much greater strength for the write operation.
    • 电光学随机存取存储器使用细菌视紫红质或类似光致变色物质的膜,其可以响应于两个波长中的每一个的光而在两种光吸收状态之间变化。 在一个实施例中,组合的红色和绿色激光束在两个正交方向上转向到胶片上的记忆位置。 从存储单元反射的两个波长的光的相对量被感测和鉴别以表示“1”或“0”。 撬棒电路保持两个激光束中的一个或另一个以补偿在读周期中发生的劣化。 在另一个实施例中,单个波长用于读取和写入操作,但是对于写入操作来说具有非常大的强度。
    • 7. 发明授权
    • Inspection equipment using small-angle topography in determining an
object's internal structure and composition
    • US06054712A
    • 2000-04-25
    • US012771
    • 1998-01-23
    • Oleg V. KomardinAlbert F. LawrencePavel I. Lazarev
    • Oleg V. KomardinAlbert F. LawrencePavel I. Lazarev
    • A61B6/00A61B6/02G01N23/04
    • G01V5/0016A61B6/4291A61B6/483A61B6/502G01V5/0025
    • Devices for X-ray topography determine structures and compositions of objects. In accordance with an embodiment of the invention, a scanning system forms images using small angle scattering. A spatial filter selects radiation an object scatters at small angles and blocks other radiation. A coordinate-sensitive detector behind the filter records the scattered radiation. An object image is constructed based on the small-angle scattering information and the compositions of regions of the object are determined from scattering curves for the regions. One embodiment of the invention includes a source of penetrating radiation, a detector system for radiation transmitted through an analyzed object, a detector system for radiation the object scatters at small angles, and a unit for moving the object during scanning. A three-dimensional absorption factor distribution is determined for the object by X-raying the object at different angles. Small-angle scattering curves are obtained for separate volume elements of the object. The scattering curve for a volume element is compared to a data base of scattering curves for known substances to identify the composition of the element. A three-dimensional image of the object's internal structure has the substances composing the object identified. A unit shaping the radiation flux to the object can be two separate sets of collimators. One set forms fan beams for scanning the object and forming an image based on radiation absorption. The other set of collimators forms beams for imaging based on small-angle scattering and includes a series of multislit collimators. The collimators' axes are at different angles with the object motion direction. Each multislit collimator forms flat weakly diverging fan-shaped beams. Two-dimensional coordinate-sensitive detectors with a spatial filter positioned before each of the detectors record the scattered radiation.