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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
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。
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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
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。
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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
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.
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公开(公告)号:US20070272876A1
公开(公告)日:2007-11-29
申请号:US11441219
申请日:2006-05-26
Applicant: Jonathan Gorrell , Mark Davidson , Jean Tokarz , Lev Gasparov
Inventor: Jonathan Gorrell , Mark Davidson , Jean Tokarz , Lev Gasparov
IPC: G01K1/08
Abstract: A multi-frequency receiver for receiving plural frequencies of electromagnetic radiation (e.g., light) using a beam of charged particles shared between plural resonant structures. The direction of the beam of charged particles is selectively controlled by at least one deflector. The beam of charged particles passing near the resonant structure is altered on at least one characteristic as a result the presence of the electric field induced on the corresponding resonant structure. Alterations in the beam of charged particles are thus correlated to data values encoded by the electromagnetic radiation.
Abstract translation: 一种多频接收器,用于使用在多个谐振结构之间共享的带电粒子束来接收多个电磁辐射频率(例如光)。 带电粒子束的方向由至少一个偏转器选择性地控制。 通过谐振结构附近的带电粒子束在至少一个特性上被改变,结果是在相应的谐振结构上感应出的电场的存在。 因此,带电粒子束中的变化与由电磁辐射编码的数据值相关。
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公开(公告)号:US20070264030A1
公开(公告)日:2007-11-15
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)激发的谐振结构来产生至少一个频率(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。
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Patent Agency Ranking
公开(公告)号:US20070259641A1
公开(公告)日:2007-11-08
申请号:US11418118
申请日:2006-05-05
Applicant: Jonathan Gorrell , Mark Davidson
Inventor: Jonathan Gorrell , Mark Davidson
CPC classification number: H04B10/671 , H01J25/00
Abstract: An electronic receiver array 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: 描述了用于对编码为电磁辐射(例如,光)的数据进行解码的电子接收器阵列。 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。
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公开(公告)号:US20070259488A1
公开(公告)日:2007-11-08
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: H01L21/338
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。
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公开(公告)号:US20070258720A1
公开(公告)日:2007-11-08
申请号:US11418365
申请日:2006-05-05
Applicant: Jonathan Gorrell , Mark Davidson
Inventor: Jonathan Gorrell , Mark Davidson
IPC: H04B10/00
CPC classification number: H04B10/803 , H04B10/801
Abstract: A system includes a plurality of chips, at least one of said chips having transmission circuitry constructed and adapted to emit a signal in the form of electro-magnetic radiation (EMR), said transmission circuitry including one or more nano-resonant structures that emit said EMR when exposed to a beam of charged particles, and at least some of said chips having receiver circuitry constructed and adapted to receive an EMR signal. A connector is constructed and adapted to receive emitted EMR from said at least one of said chips having transmission circuitry and further constructed and adapted to provide data in said EMR emitted by said at least one of said chips to receiver circuitry of at least some others of said plurality of chips.
Abstract translation: 一种系统包括多个芯片,所述芯片中的至少一个具有被构造并适于发出电磁辐射(EMR)形式的信号的传输电路,所述传输电路包括一个或多个发射所述 EMR当暴露于带电粒子束时,并且至少一些所述芯片具有构造并适于接收EMR信号的接收器电路。 连接器被构造并适于从具有传输电路的所述至少一个所述芯片接收发射的EMR,并进一步构造并适于将由所述至少一个所述芯片发射的所述EMR中的数据提供给至少一些 所述多个芯片。
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公开(公告)号:US20070258146A1
公开(公告)日:2007-11-08
申请号:US11418087
申请日:2006-05-05
Applicant: Jonathan Gorrell , Mark Davidson
Inventor: Jonathan Gorrell , Mark Davidson
IPC: G02B27/00
CPC classification number: G02B5/28 , B82Y20/00 , Y10S977/95
Abstract: A filter for use with an array of ultra-small resonant structures that are producing encoded EMR wherein the filter is designed to either reflect encoded EMR beams or to permit certain frequencies to pass there through so that the encoded EMR beam and its encoded data can be transmitted out of the device and to another receiver where the data can be used.
Abstract translation: 一种与产生编码EMR的超小型谐振结构阵列一起使用的滤波器,其中滤波器被设计为反映编码的EMR波束或允许某些频率在那里通过,使得编码的EMR波束及其编码数据可以是 发送出设备,并传送到可以使用数据的另一个接收机。
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公开(公告)号:US20070257739A1
公开(公告)日:2007-11-08
申请号:US11418098
申请日:2006-05-05
Applicant: Jonathan Gorrell , Mark Davidson , Michael Maines
Inventor: Jonathan Gorrell , Mark Davidson , Michael Maines
IPC: H01S1/06
Abstract: A focal plane array electromagnetic radiation detector includes an array of micro-electromagnetic resonant detector cells. Each micro-electromagnetic resonant detector cell may include an ultra-small resonant structure for receiving an electromagnetic wave and adapted to angularly modulate a charged particle beam in response to receiving an electromagnetic wave. Each micro-electromagnetic detector cell may include a detector portion that measures the angular modulation of the charged particle beam. The ultra-small resonant structure is designed to angularly modulate the charged particle beam according to a characteristic of the received electromagnetic wave.
Abstract translation: 焦平面阵列电磁辐射检测器包括微电磁谐振检测器单元阵列。 每个微电磁谐振检测器单元可以包括用于接收电磁波并适于响应于接收电磁波角度地调制带电粒子束的超小型谐振结构。 每个微电磁检测器单元可以包括测量带电粒子束的角度调制的检测器部分。 超小谐振结构被设计成根据接收的电磁波的特性对带电粒子束进行角度调制。
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