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Patent Agency Ranking
公开(公告)号:WO2015034721A1
公开(公告)日:2015-03-12
申请号:PCT/US2014/052906
申请日:2014-08-27
Applicant: NORTHROP GRUMMAN SYSTEMS CORPORATION
Inventor: PARK, Jae I.
CPC classification number: B81B3/0029 , B81B3/0021 , B81B7/0093 , B81B2201/0292 , B81B2201/047 , B82Y20/00 , G02B6/00 , G02B6/1225 , G02B6/1228
Abstract: An optical-microwave-quantum transducer can include a tapered optical fiber (10) configured to transmit and receive optical signals. The optical-microwave-quantum transducer can also include a cantilever (12) that can include an optical cavity (16, 18) that includes a nanophotonic crystal (14). The optical cavity can be configured to provide mechanical excitation in response to electromagnetic excitation induced by photons emitted from the tapered optical fiber. The cantilever can also include a mechanical coupler (26) that is configured to induce electrical modulation onto a superconducting cavity (6) in response to the mechanical excitation. The mechanical coupler can also be configured to provide mechanical excitation in response to electromagnetic excitation induced by photons from the superconducting cavity. The optical cavity can further be configured to provide electromagnetic excitation that induces optical modulation on the tapered optical fiber in response to the mechanical excitation.
Abstract translation: 光学微波量子换能器可以包括被配置为发送和接收光信号的锥形光纤(10)。 光学微波量子换能器还可以包括可包括包括纳米光子晶体(14)的光学腔(16,18)的悬臂(12)。 光腔可以被配置为响应于从锥形光纤发射的光子引起的电磁激发而提供机械激励。 悬臂还可以包括机械耦合器(26),其被配置为响应于机械激励而在超导腔(6)上感应电调制。 机械耦合器还可以被配置为响应于来自超导腔的光子引起的电磁激励而提供机械激励。 光腔可以进一步配置成提供响应于机械激励而在锥形光纤上引起光调制的电磁激励。
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公开(公告)号:WO2015108615A1
公开(公告)日:2015-07-23
申请号:PCT/US2014/065946
申请日:2014-11-17
Applicant: NORTHROP GRUMMAN SYSTEMS CORPORATION
Inventor: PARK, Jae I.
CPC classification number: B82Y20/00 , B82Y10/00 , B82Y99/00 , G02B5/00 , G02B6/1225 , G02B6/4295 , G02B26/00 , H01L31/00 , H01L33/00
Abstract: An optical-microwave-quantum transducer can include a first nanophotonic slab and a second nanophotonic slab. Each of the first and second nanophotonic slabs can include an optical region and a superconducting region. The first nanophotonic slab can include a pair of torsional beams anchored to a substrate to allow relative rotation between the first and second nanophotonic slabs about an axis of rotation. The optical-microwave-quantum transducer can include a gap between the optical region of the first and second nanophotonic slabs that forms an optical cavity in response to an optical signal, wherein the optical cavity can induce mechanical oscillation of the first nanophotonic slab about the axis of rotation. The mechanical oscillation can induce electrical modulation on a superconducting cavity coupled to the superconducting regions of the first and second nanophotonic slabs.
Abstract translation: 光学微波量子换能器可以包括第一纳米光子板和第二纳米光子板。 第一和第二纳米光子板中的每一个可以包括光学区域和超导区域。 第一纳米光子板可以包括锚定到基底的一对扭转梁,以允许围绕旋转轴线的第一和第二纳米光子板之间的相对旋转。 光 - 微波量子换能器可以包括响应于光信号而形成光腔的第一和第二纳米光子板的光学区域之间的间隙,其中光腔可引起第一纳米光子板绕轴的机械振荡 的旋转。 机械振荡可以在耦合到第一和第二纳米光子板的超导区域的超导腔上引起电调制。
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公开(公告)号:EP3094998B1
公开(公告)日:2019-04-24
申请号:EP14814719.2
申请日:2014-11-17
Applicant: Northrop Grumman Systems Corporation
Inventor: PARK, Jae I.
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公开(公告)号:EP3042227A1
公开(公告)日:2016-07-13
申请号:EP14771989.2
申请日:2014-08-27
Applicant: Northrop Grumman Systems Corporation
Inventor: PARK, Jae I.
CPC classification number: B81B3/0029 , B81B3/0021 , B81B7/0093 , B81B2201/0292 , B81B2201/047 , B82Y20/00 , G02B6/00 , G02B6/1225 , G02B6/1228
Abstract: An optical-microwave-quantum transducer can include a tapered optical fiber configured to transmit and receive optical signals. The optical-microwave-quantum transducer can also include a cantilever that can include an optical cavity that includes a nanophotonic crystal. The optical cavity can be configured to provide mechanical excitation in response to electromagnetic excitation induced by photons emitted from the tapered optical fiber. The cantilever can also include a mechanical coupler that is configured to induce electrical modulation onto a superconducting cavity in response to the mechanical excitation. The mechanical coupler can also be configured to provide mechanical excitation in response to electromagnetic excitation induced by photons from the superconducting cavity. The optical cavity can further be configured to provide electromagnetic excitation that induces optical modulation on the tapered optical fiber in response to the mechanical excitation.
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公开(公告)号:EP3094998A1
公开(公告)日:2016-11-23
申请号:EP14814719.2
申请日:2014-11-17
Applicant: Northrop Grumman Systems Corporation
Inventor: PARK, Jae I.
CPC classification number: B82Y20/00 , B82Y10/00 , B82Y99/00 , G02B5/00 , G02B6/1225 , G02B6/4295 , G02B26/00 , H01L31/00 , H01L33/00
Abstract: An optical-microwave-quantum transducer can include a first nanophotonic slab and a second nanophotonic slab. Each of the first and second nanophotonic slabs can include an optical region and a superconducting region. The first nanophotonic slab can include a pair of torsional beams anchored to a substrate to allow relative rotation between the first and second nanophotonic slabs about an axis of rotation. The optical-microwave-quantum transducer can include a gap between the optical region of the first and second nanophotonic slabs that forms an optical cavity in response to an optical signal, wherein the optical cavity can induce mechanical oscillation of the first nanophotonic slab about the axis of rotation. The mechanical oscillation can induce electrical modulation on a superconducting cavity coupled to the superconducting regions of the first and second nanophotonic slabs.
Abstract translation: 光微波量子换能器可以包括第一纳米光子板和第二纳米光子板。 第一和第二纳米光子板中的每一个可以包括光学区域和超导区域。 第一纳米光子板可以包括一对锚定到基底的扭转梁,以允许第一纳米光子板和第二纳米光子板之间围绕旋转轴线相对旋转。 光微波量子换能器可以包括响应于光信号形成光腔的第一和第二纳米光子板的光学区域之间的间隙,其中光腔可以引起第一纳米光子板绕轴线的机械振荡 的旋转。 机械振荡可以在耦合到第一和第二纳米光子板的超导区域的超导腔体上引起电调制。
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