公开(公告)号：US20100128278A1

公开(公告)日：2010-05-27

申请号：US12551308

申请日：2009-08-31

Applicant: Leslie L. Deck ,  Peter De Groot ,  Mark Davidson ,  Jan Liesener ,  Xavier Colonna De Lega

Inventor： Leslie L. Deck ,  Peter De Groot ,  Mark Davidson ,  Jan Liesener ,  Xavier Colonna De Lega

IPC: G01B9/02

CPC classification number: G01B9/0209 ,  G01B9/02007 ,  G01B9/0201 ,  G01B9/02027 ,  G01B9/02039 ,  G01B9/02057 ,  G01B9/02068 ,  G01B9/02077 ,  G01B11/2441 ,  G01B2290/45 ,  G01B2290/70 ,  Y10T29/49002

Abstract: Apparatus include a microscope including an objective and a stage for positioning a test object relative to the objective, the stage being moveable with respect to the objective, and a sensor system, that includes a sensor light source, an interferometric sensor configured to receive light from the sensor light source, to introduce an optical path difference (OPD) between a first portion and a second portion of the light, the OPD being related to a distance between the objective lens and the stage, and to combine the first and second portions of the light to provide output light, a detector configured to detect the output light from the interferometric sensor, a fiber waveguide configured to direct light between the sensor light source, the interferometric sensor and the detector, a tunable optical cavity in a path of the light from the sensor light source and the interferometric sensor, and an electronic controller in communication with the detector, the electronic controller being configured to determine information related to the OPD based on the detected output light.

Abstract translation: 装置包括显微镜，其包括物镜和用于相对于物镜定位测试对象的台，该台可相对于物镜移动;以及传感器系统，其包括传感器光源，被配置为从 所述传感器光源在所述光的第一部分和所述第二部分之间引入光程差（OPD），所述OPD与所述物镜与所述台之间的距离有关，并且将所述第一和第二部分 提供输出光的光，被配置为检测来自干涉测量传感器的输出光的检测器，配置成在传感器光源，干涉测量传感器和检测器之间引导光的光纤波导，在光的路径中的可调光学腔 来自传感器光源和干涉测量传感器以及与检测器通信的电子控制器，该电子控制器是共同的 根据检测到的输出光确定与OPD相关的信息。

公开(公告)号：US07710040B2

公开(公告)日：2010-05-04

申请号：US11418080

申请日：2006-05-05

Applicant: Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Andres Trucco

Inventor： Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Andres Trucco

IPC: H01J25/10

CPC classification number: H01J25/00

Abstract: An array of ultra-small structures of between ones of nanometers to hundreds of micrometers in size that can be energized to produce at least two different frequencies of out put energy or data, with the ultra small structures being formed on a single conductive layer on a substrate. The array can include one row of different ultra small structures, multiple rows of ultra small structures, with each row containing identical structures, or multiple rows of a variety of structures that can produce all spectrums of energy or combinations thereof, including visible light.

Abstract translation: 一组尺寸为纳米至数百微米之间的超小型结构阵列，可以被激励以产生至少两个不同频率的放出能量或数据，其中超小结构形成在单个导电层上 基质。 该阵列可以包括一排不同的超小结构，多行超小结构，每行包含相同的结构，或者可以产生能量的所有能量或其组合（包括可见光）的各种各样的结构的行。

公开(公告)号：US20100011258A1

公开(公告)日：2010-01-14

申请号：US12172188

申请日：2008-07-11

Applicant: Erwin Hom ,  Jonathan Thatcher ,  Mark Davidson

Inventor： Erwin Hom ,  Jonathan Thatcher ,  Mark Davidson

IPC: G06F11/07 ,  G06F17/30 ,  G06F9/46 ,  G06F11/00

CPC classification number: G06F16/217

Abstract: An administrator can specify a script sequence including one or more system scripts and database scripts. A graphical user interface is provided to allow the administrator to specify an execution order of individual scripts in the script sequence and a timeout interval for when the script sequence will complete. Once the script sequence is specified, the script sequence can be run without further intervention by the administrator.

Abstract translation: 管理员可以指定包括一个或多个系统脚本和数据库脚本的脚本序列。 提供了图形用户界面，以允许管理员在脚本序列中指定单个脚本的执行顺序以及脚本序列何时完成的超时间隔。 一旦指定了脚本序列，脚本序列就可以在没有管理员进一步干预的情况下运行。

公开(公告)号：US07586097B2

公开(公告)日：2009-09-08

申请号：US11325534

申请日：2006-01-05

Applicant: Jonathan Gorrell ,  Mark Davidson ,  Michael E Maines

Inventor： Jonathan Gorrell ,  Mark Davidson ,  Michael E Maines

IPC: G09G1/00

CPC classification number: H01J27/022 ,  G21K1/06 ,  G21K5/04 ,  H01J25/00 ,  H01J29/70 ,  H01J31/00

Abstract: When using micro-resonant structures, it is possible to use the same source of charged particles to cause multiple resonant structures to emit electromagnetic radiation. This reduces the number of sources that are required for multi-element configurations, such as displays with plural rows (or columns) of pixels. In one such embodiment, at least one deflector is placed in between first and second resonant structures. After the beam passes by at least a portion of the first resonant structure, it is directed to a path such that it can be directed towards the second resonant structure. The amount of deflection needed to direct the beam toward the second resonant structure is based on the amount of deflection, if any, that the beam underwent as it passed by the first resonant structure. This process can be repeated in series as necessary to produce a set of resonant structures in series.

Abstract translation: 当使用微谐振结构时，可以使用相同的带电粒子源来引起多个谐振结构发射电磁辐射。 这减少了多元素配置所需的源数，例如具有多行（或多列）像素的显示。 在一个这样的实施例中，至少一个偏转器被放置在第一和第二谐振结构之间。 在光束通过第一谐振结构的至少一部分之后，它被引向路径，使得其可以被引向第二共振结构。 将光束引向第二谐振结构所需的偏转量基于当光束经过第一谐振结构时经过的偏转量（如果有的话）。 该过程可以根据需要串联重复以产生一组串联的共振结构。

公开(公告)号：US07560716B2

公开(公告)日：2009-07-14

申请号：US11525151

申请日：2006-09-22

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: G21G4/00 ,  G01J1/00 ,  H01H7/00 ,  H01H2/00

CPC classification number: H01S3/0903 ,  H01J25/00

Abstract: A beam of charged particles (e.g., an electron beam) from a charged particle source can be selectively applied to a pair of electrodes. For example, the charged particles can be electrons that are directed toward a first electrode when the charge difference between the electrodes is in one state and directed toward the second electrode when the charge difference between the electrodes is in another state. The electrodes are configured so that the beam of charged particles oscillates between the first and second electrodes.

Abstract translation: 来自带电粒子源的带电粒子束（例如，电子束）可以选择性地施加到一对电极。 例如，当电极之间的电荷差处于另一状态时，当电极之间的电荷差处于一个状态并且指向第二电极时，带电粒子可以是指向第一电极的电子。 电极被配置成使得带电粒子束在第一和第二电极之间振荡。

公开(公告)号：US07558490B2

公开(公告)日：2009-07-07

申请号：US11400280

申请日：2006-04-10

Applicant: Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Lev Gasparov

Inventor： Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Lev Gasparov

IPC: H04B10/06 ,  H04B10/02

CPC classification number: G21K1/087 ,  H01J25/00

Abstract: An electronic receiver for decoding data encoded into light is described. The light is received at an ultra-small resonant structure. The resonant structure generates an electric field in response to the incident light. An electron beam passing near the resonant structure is altered on at least one characteristic as a result of the electric field. Data is encoded into the light by a characteristic that is seen in the electric field during resonance and therefore in the electron beam as it passes the electric field. Alterations in the electron beam are thus correlated to data values encoded into the light.

Abstract translation: 描述了用于解码编码为光的数据的电子接收器。 光以超小的谐振结构被接收。 谐振结构响应于入射光而产生电场。 通过谐振结构附近的电子束由于电场而在至少一个特性上改变。 数据通过在谐振期间在电场中看到的特性并因此在电子束通过电场时在电子束中被编码成光。 因此，电子束中的变化与编码为光的数据值相关。

公开(公告)号：US07557647B2

公开(公告)日：2009-07-07

申请号：US11418088

申请日：2006-05-05

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: H03D9/00

CPC classification number: H03D9/02 ,  H01J25/00

Abstract: An electronic receiver for decoding data encoded into electromagnetic radiation (e.g., light) is described. The light is received at an ultra-small resonant structure. The resonant structure generates an electric field in response to the incident light and light received from a local oscillator. An electron beam passing near the resonant structure is altered on at least one characteristic as a result of the electric field. Data is encoded into the light by a characteristic that is seen in the electric field during resonance and therefore in the electron beam as it passes the electric field. Alterations in the electron beam are thus correlated to data values encoded into the light.

Abstract translation: 描述了用于对编码成电磁辐射（例如，光）的数据进行解码的电子接收机。 光以超小的谐振结构被接收。 谐振结构响应于从本地振荡器接收的入射光和光产生电场。 通过谐振结构附近的电子束由于电场而在至少一个特性上改变。 数据通过在谐振期间在电场中看到的特性并因此在电子束通过电场时在电子束中被编码成光。 因此，电子束中的变化与编码为光的数据值相关。

公开(公告)号：US07554083B2

公开(公告)日：2009-06-30

申请号：US11418244

申请日：2006-05-05

Applicant: Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Lev Gasparov

Inventor： Jonathan Gorrell ,  Mark Davidson ,  Jean Tokarz ,  Lev Gasparov

IPC: H01J3/26 ,  H04B10/06

CPC classification number: G02B6/1226 ,  B82Y20/00 ,  G02B6/4202

Abstract: A device includes an integrated circuit (IC) and at least one ultra-small resonant structure and a detection mechanism are formed on said IC. At least the ultra-small resonant structure portion of the device is vacuum packaged. The ultra-small resonant structure includes a plasmon detector having a transmission line. The detector mechanism includes a generator mechanism constructed and adapted to generate a beam of charged particles along a path adjacent to the transmission line; and a detector microcircuit disposed along said path, at a location after said beam has gone past said line, wherein the generator mechanism and the detector microcircuit are disposed adjacent transmission line and wherein a beam of charged particles from the generator mechanism to the detector microcircuit electrically couples a plasmon wave traveling along the metal transmission line to the microcircuit. The detector mechanism may be electrically connected to the underlying IC.

Abstract translation: 一种器件包括集成电路（IC），并且至少一个超小型谐振结构和检测机构形成在所述IC上。 至少装置的超小型谐振结构部分被真空包装。 超小型谐振结构包括具有传输线的等离子体检测器。 检测器机构包括一个发生器机构，其被构造和适于沿着与传输线相邻的路径产生带电粒子束; 以及沿着所述路径设置在所述光束已经经过所述线之后的位置处的检测器微电路，其中所述发生器机构和所述检测器微电路邻近传输线设置，并且其中从发生器机构到所述检测器微电路的带电粒子束电 将沿着金属传输线行进的等离子体波耦合到微电路。 检测器机构可以电连接到底层IC。

公开(公告)号：US07361916B2

公开(公告)日：2008-04-22

申请号：US11302471

申请日：2005-12-14

Applicant: Jonathan Gorrell ,  Mark Davidson ,  Michael E. Maines

Inventor： Jonathan Gorrell ,  Mark Davidson ,  Michael E. Maines

IPC: G01K1/08 ,  A61N5/06

CPC classification number: H01S3/09 ,  B82Y20/00 ,  H01L21/32136 ,  H01L21/32139 ,  H01S3/0903 ,  Y10S977/949 ,  Y10S977/95 ,  Y10S977/954

Abstract: A coupled nano-resonating structure includes a plurality of a nano-resonating substructures constructed and adapted to couple energy from a beam of charged particles into said nano-resonating structure and to transmit the coupled energy outside said nano-resonating structure. The nano-resonant substructures may have various shapes and may include parallel rows of structures. The rows may be symmetric or asymmetric, tilted, and/or staggered.

Abstract translation: 耦合的纳米谐振结构包括多个纳米谐振子结构，其构造并适于将来自带电粒子束的能量耦合到所述纳米谐振结构中并将耦合的能量传输到所述纳米谐振结构外部。 纳米谐振子结构可以具有各种形状，并且可以包括平行的结构行。 行可以是对称的或不对称的，倾斜的和/或交错的。

公开(公告)号：US20080069509A1

公开(公告)日：2008-03-20

申请号：US11522929

申请日：2006-09-19

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: G02B6/10 ,  G02B6/12 ,  G02B6/00

CPC classification number: G02B6/12004 ,  G02B6/43

Abstract: A device includes a transparent conductor formed on a substrate. Electromagnetic radiation (EMR) (such as may be received from an on-chip, ultra-small resonant structure or from an off-chip light source) is directed into the transparent conductive layer. One or more circuits are formed on the transparent conductive layer and are operatively connected thereto to receive at least a portion of the EMR traveling in the transparent conductor. The EMR may be light and may encode a data signal such as a clock signal.