公开(公告)号：US07986113B2

公开(公告)日：2011-07-26

申请号：US11418096

申请日：2006-05-05

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: H05B35/00

CPC classification number: H01J25/00

Abstract: We describe an ultra-small resonant structure that produces electromagnetic radiation (e.g., visible light) at selected frequencies that can also be used or formed in conjunction with passive optical structures. The resonant structure can be produced from any conducting material (e.g., metal such as silver or gold). The passive optical structures can be formed from glass, polymer, dielectrics, or any other material sufficiently transparent using conventional patterning, etching and deposition techniques. The passive optical structures can be formed directly on the ultra-small resonant structures, or alternatively on an intermediate structure, or the passive optical structures can be formed in combination with other passive optical structures. The size and dimension of the passive optical structures can be identical with underlying structures, they can merely extend outwardly beyond an exterior shape of the underlying structure, or the passive optical structures can span across a plurality of the underlying structures, including in each instance embodiments with and without the intermediate structures.

Abstract translation: 我们描述了一种超小型谐振结构，其产生可以选择的频率的电磁辐射（例如可见光），其也可以与无源光学结构结合使用或形成。 共振结构可以由任何导电材料（例如金属如银或金）制成。 无源光学结构可以由玻璃，聚合物，电介质或使用常规图案化，蚀刻和沉积技术足够透明的任何其它材料形成。 无源光学结构可以直接形成在超小型谐振结构上，或者在中间结构上形成，或者无源光学结构可以与其它无源光学结构组合形成。 无源光学结构的尺寸和尺寸可以与下面的结构相同，它们只能向外延伸超过下面的结构的外部形状，或者被动光学结构可跨越多个下面的结构，包括在每个实例中 有和没有中间结构。

公开(公告)号：US20110112979A1

公开(公告)日：2011-05-12

申请号：US13007036

申请日：2011-01-14

Applicant: Jim Holsen ,  Duane Anderson ,  Juan Perez ,  Mark Davidson

Inventor： Jim Holsen ,  Duane Anderson ,  Juan Perez ,  Mark Davidson

IPC: G06Q10/00

CPC classification number: G06Q10/08 ,  G06Q10/08355

Abstract: The present invention is directed to systems and methods to generate a manifest of work that is to be performed by a driver. Specifically, systems and methods are described in the context of a package delivery system to generate a manifest of deliveries and pickups to be performed by a driver and to download the generated manifest to a portable computing device used by the driver to service the route.

Abstract translation: 本发明涉及用于生成由驾驶员执行的工作清单的系统和方法。 具体来说，系统和方法在包递送系统的上下文中进行描述，以生成要由驾驶员执行的递送和拾取清单，并将生成的清单下载到由驾驶员使用的便携式计算设备来服务该路线。

公开(公告)号：US20110040793A1

公开(公告)日：2011-02-17

申请号：US12539911

申请日：2009-08-12

Applicant: Mark Davidson ,  Viswanadh Addala ,  Jonathan Thatcher ,  Kevin Nathanson

Inventor： Mark Davidson ,  Viswanadh Addala ,  Jonathan Thatcher ,  Kevin Nathanson

IPC: G06F17/30

CPC classification number: G06F16/21

Abstract: Methods, program products, and systems for managing database access privileges using administration groups are described. Administrative functions for managing a database server and administrative functions for managing collections of databases can be separated. Groups of databases can be created on the database server. Tasks for adding and managing multiple databases can be delegated from a server administrator to one or more group administrators who can manage one or more groups of databases. The groups of databases can be stored in various home folders, each home folder corresponding to a group. Management rights on the databases can be determined by the home folders in which the databases are located.

Abstract translation: 描述了使用管理组管理数据库访问权限的方法，程序产品和系统。 用于管理数据库服务器的管理功能和用于管理数据库集合的管理功能可以分开。 可以在数据库服务器上创建数据库组。 用于添加和管理多个数据库的任务可以从服务器管理员委派给可管理一个或多个数据库组的一个或多个组管理员。 数据库组可以存储在各种主文件夹中，每个主文件夹对应一个组。 数据库的管理权限可以由数据库所在的主文件夹确定。

公开(公告)号：US20100277066A1

公开(公告)日：2010-11-04

申请号：US12636154

申请日：2009-12-11

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: H01J23/02

CPC classification number: H05H15/00

Abstract: An electronic transmitter or receiver employing electromagnetic radiation as a coded signal carrier is described. In the transmitter, the electromagnetic radiation is emitted from ultra-small resonant structures when an electron beam passes proximate the structures. In the receiver, the electron beam passes near ultra-small resonant structures and is altered in path or velocity by the effect of the electromagnetic radiation on structures. The electron beam is accelerated within a series of spiral-shaped anodes to an appropriate current density without the use of a high power supply. Instead, a sequence of low power levels is supplied to the sequence of anodes in the electron beam path. The electron beam is thereby accelerated to a desired current density appropriate for the transmitter or receiver application without the need for a high-level power source.

Abstract translation: 描述了采用电磁辐射作为编码信号载体的电子发射器或接收器。 在发射机中，当电子束通过结构附近时，电磁辐射从超小型谐振结构发射。 在接收机中，电子束通过附近的超小型谐振结构，并且通过电磁辐射对结构的影响而在路径或速度上改变。 电子束在一系列螺旋状阳极内被加速到适当的电流密度，而不需要使用高功率电源。 相反，一系列低功率电平被提供给电子束路径中的阳极序列。 电子束因此被加速到适合于发射机或接收机应用的期望的电流密度，而不需要高级电源。

公开(公告)号：US20100128276A1

公开(公告)日：2010-05-27

申请号：US12541325

申请日：2009-08-14

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

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

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: Interferometry system are disclosed that include a detector sub-system including a monitor detector, interferometer optics for combining test light from a test object with primary reference light from a first reference interface and secondary reference light from a second reference interface to form a monitor interference pattern on a monitor detector, wherein the first and second reference interfaces are mechanically fixed with respect to each other and the test light, a scanning stage configured to scan an optical path difference (OPD) between the test light and the primary and secondary reference light to the monitor detector while the detector sub-system records the monitor interference pattern for each of a series of OPD increments, and an electronic processor electronically coupled to the detector sub-system and the scanning stage, the electronic processor being configured to determine information about the OPD increments based on the detected monitor interference pattern.

Abstract translation: 公开了一种干涉测量系统，其包括检测器子系统，该检测器子系统包括监视器检测器，用于将来自测试对象的测试光与来自第一参考接口的主要参考光组合的来自第二参考接口的第二参考光组合的干涉仪光学元件，以形成监视器干涉图案 在监视器检测器上，其中所述第一参考接口和所述第二参考接口相对于彼此和所述测试光机械地固定;扫描台，被配置为扫描所述测试光和所述主参考光与所述次参考光之间的光程差（OPD） 监视器检测器，同时检测器子系统记录用于一系列OPD增量中的每一个的监视器干涉图案，以及电子处理器，电子耦合到检测器子系统和扫描级，电子处理器被配置为确定关于 OPD根据检测到的监视器干扰模式递增。

公开(公告)号：US07646991B2

公开(公告)日：2010-01-12

申请号：US11410924

申请日：2006-04-26

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: H04B10/12

CPC classification number: H01J25/00

Abstract: An optical transmitter produces electromagnetic radiation (e.g., light) of at least one frequency (e.g., at a particular color frequency) by utilizing a resonant structure that is excited by the presence a beam of charged particles (e.g., a beam of electrons) where the electromagnetic radiation is transmitted along a communications medium (e.g., a fiber optic cable). In at least one embodiment, the frequency of the electromagnetic radiation is higher than that of the microwave spectrum.

Abstract translation: 光学发射器通过利用由存在带电粒子束（例如，电子束）激发的谐振结构产生至少一个频率（例如，在特定颜色频率）的电磁辐射（例如，光），其中 电磁辐射沿着通信介质（例如，光纤电缆）传输。 在至少一个实施例中，电磁辐射的频率高于微波频谱的频率。

公开(公告)号：US07579609B2

公开(公告)日：2009-08-25

申请号：US11410905

申请日：2006-04-26

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

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

IPC: H01S3/09

CPC classification number: G02B6/42 ,  B82Y20/00 ,  H01J25/00 ,  H01S3/08 ,  H01S3/0959 ,  Y10S977/932 ,  Y10S977/949 ,  Y10S977/95

Abstract: A waveguide conduit is constructed and adapted to capture the light emitted by the at least one nano-resonant structure. The nano-resonant structure emits light in response to excitation by a beam of charged particles, The source of charged particles may be an ion gun, a thermionic filament, a tungsten filament, a cathode, a field-emission cathode, a planar vacuum triode, an electron-impact ionizer, a laser ionizer, a chemical ionizer, a thermal ionizer, or an ion-impact ionizer.

Abstract translation: 波导导管被构造并适于捕获由至少一个纳米谐振结构发射的光。 纳米谐振结构响应于带电粒子束的激发而发光。带电粒子的源可以是离子枪，热离子丝，钨丝，阴极，场致发射阴极，平面真空三极管 电子碰撞离子发生器，激光离子发生器，化学离子发生器，热离子发生器或离子冲击离子发生器。

公开(公告)号：US07573045B2

公开(公告)日：2009-08-11

申请号：US11798554

申请日：2007-05-15

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

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

IPC: H01J3/30

CPC classification number: G02B6/1226 ,  B82Y20/00 ,  H01J25/00

Abstract: Nanoantennas are formed on a substrate (e.g., silicon) and generate light via interactions with a charged particle beam, where the frequency of the generated light is based in large part on the periodicity of the “fingers” that make up the nanoantennas. Each finger has typical dimensions of less than 100 nm on the shorter side and typically less than 500 nm on the longer, but the size of the optimal longer side is determined by the electron velocity. The charged particle may be an electron beam or any other source of charged particles. By utilizing fine-line lithography on the surface of the substrate, the nanoantennas can be formed without the need for complicated silicon devices.

Abstract translation: 纳米天线形成在基底（例如硅）上，并且通过与带电粒子束的相互作用产生光，其中所产生的光的频率大部分基于构成纳米天线的“手指”的周期性。 每个手指在较短的侧面具有小于100nm的典型尺寸，并且通常在较长的时间上通常小于500nm，但是最佳长边的尺寸由电子速度确定。 带电粒子可以是电子束或任何其他带电粒子源。 通过在基板的表面上利用细线光刻，可以形成纳米天线，而不需要复杂的硅器件。

公开(公告)号：US20090149736A1

公开(公告)日：2009-06-11

申请号：US12265785

申请日：2008-11-06

Applicant: Frank M. Skidmore ,  Mark Davidson

Inventor： Frank M. Skidmore ,  Mark Davidson

IPC: A61B5/055

CPC classification number: A61B5/04009 ,  A61B5/04008 ,  A61B5/11 ,  A61B5/6814 ,  A61B2562/02 ,  A61B2562/046 ,  G01R33/0354

Abstract: Devices disclosed according to various embodiments use one or more arrays of atomic magnetometers to directly detection of relaxation of magnetic field induced subatomic precession within a target specimen. The disclosed devices and methods relate to application of utilization of a magnetic sensor with unique properties requiring changes in design, allowing new functions, and requiring alternative analysis methodologies. Various embodiments are also directed to methods for obtaining and processing magnetic signals. These methods may take advantage of the unique spatial arrangement of the atomic magnetometers and the capacity sensors to be used in either a scalar or a vector mode. Various embodiments have advantages over current techniques utilized for imaging of anatomical and non-anatomical structures. Such advantages may include, for example: development of a wearable, portable array, lower power consumption, potential wafer-level fabrication, the potential for development of a more rapid signal, decreased need for development of strong magnetic fields, and lower cost allowing wider availability.

Abstract translation: 根据各种实施例公开的装置使用一个或多个原子磁力计阵列来直接检测靶标样品内磁场诱导的亚原子进动的弛豫。 所公开的设备和方法涉及具有需要设计变化，允许新功能以及需要备选分析方法的独特性质的磁传感器的应用。 各种实施例还涉及用于获得和处理磁信号的方法。 这些方法可以利用原子磁力计和容量传感器在标量或向量模式中使用的独特的空间排列。 各种实施例具有优于目前用于解剖和非解剖结构成像的技术的优点。 这样的优点可以包括例如：可穿戴便携式阵列的开发，更低的功耗，潜在的晶圆级制造，开发更快速的信号的可能性，减少对强磁场开发的需求，并且降低成本，允许更宽 可用性。

公开(公告)号：US07492868B2

公开(公告)日：2009-02-17

申请号：US11411131

申请日：2006-04-26

Applicant: Jonathan Gorrell ,  Mark Davidson

Inventor： Jonathan Gorrell ,  Mark Davidson

IPC: G21G4/04 ,  H01J23/18 ,  H05H7/22

CPC classification number: H05G2/00 ,  H01J25/00

Abstract: A charged particle beam including charged particles (e.g., electrons) is generated from a charged particle source (e.g., a cathode or scanning electron beam). As the beam is projected, it passes between plural alternating electric fields. The attraction of the charged particles to their oppositely charged fields accelerates the charged particles, thereby increasing their velocities in the corresponding (positive or negative) direction. The charged particles therefore follow an oscillating trajectory. When the electric fields are selected to produce oscillating trajectories having the same (or nearly the same) as a multiple of the frequency of the emitted x-rays, the resulting photons can be made to constructively interfere with each other to produce a coherent x-ray source.

Abstract translation: 从带电粒子源（例如阴极或扫描电子束）产生包括带电粒子（例如电子）的带电粒子束。 当光束投射时，它通过多个交变电场。 带电粒子对其带电荷的场的吸引力加速了带电粒子，从而在相应的（正或负）方向上增加了它们的速度。 带电粒子因此遵循振荡轨迹。 当选择电场以产生具有与发射的x射线的频率的倍数相同（或几乎相同）的振荡轨迹时，可以使得到的光子相互干涉以产生相干的x射线， 射线源。