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    • 5. 发明申请
    • Optical-based, self-authenticating quantum random number generators
    • 基于光的,自认证的量子随机数发生器
    • US20070260658A1
    • 2007-11-08
    • US11407513
    • 2006-04-20
    • Marco FiorentinoWilliam MunroRaymond BeausoleilSean SpillaneCharles Santori
    • Marco FiorentinoWilliam MunroRaymond BeausoleilSean SpillaneCharles Santori
    • G06F7/58G06F1/02
    • G06F7/588B82Y10/00G06N99/002H04L9/0662H04L9/32
    • Various embodiments of the present invention are directed optical-based quantum random number generators. In one embodiment, a quantum random number generator includes an input state generator that generates a first optical quantum system and a second optical quantum system in an entangled state, a detector that measures the state of the first optical quantum system and the state of the second optical quantum system, and a system control that evaluates a result obtained from measuring the state of the first optical quantum system and state of the second optical quantum system to determine whether or not to append a number associated with the result to the sequence of random numbers. The quantum random number generator also include state controllers, located between the input state generator and the detector, that are operationally controlled by the system control to maintain the entangled state, based on results obtained from previous measurements performed on the first and second optical quantum systems.
    • 本发明的各种实施例是针对基于光学的量子随机数发生器。 在一个实施例中,量子随机数发生器包括产生处于纠缠状态的第一光量子系统和第二光量子系统的输入状态发生器,测量第一光量子系统的状态的检测器和第二光量子系统的状态 光学量子系统和评估从第一光学量子系统的状态和第二光学量子系统的状态得到的结果的系统控制,以确定是否将与结果相关联的数字附加到随机数序列 。 量子随机数生成器还包括位于输入状态发生器和检测器之间的状态控制器,其基于从先前在第一和第二光学量子系统上执行的测量获得的结果,由系统控制来操作地控制以维持纠缠状态 。
    • 6. 发明授权
    • Method for connecting multicore fibers to optical devices
    • 将多芯光纤连接到光学设备的方法
    • US07845860B2
    • 2010-12-07
    • US12254490
    • 2008-10-20
    • Marco FiorentinoRaymond BeausoleilDuncan Stewart
    • Marco FiorentinoRaymond BeausoleilDuncan Stewart
    • G02B6/36G02B6/12
    • G02B6/43G02B6/02042G02B6/4249
    • A method for connecting a photonic crystal fiber having a plurality of cores connected to an optical device. An end of the photonic crystal fiber may be placed on a surface of an optical device having a plurality of coupling pads. A first core of the end of the photonic crystal fiber may be positioned over a first coupling pad on the optical device to enable a threshold amount of a coherent beam of light to propagate through the first core and first coupling pad. A second core of the end of the photonic crystal fiber is aligned to a second coupling pad on the optical device to enable a threshold amount of another coherent beam of light to propagate through the second core and second coupling pad. The end of the photonic crystal fiber may be adhered to the surface of the optical device while the position of the first and the second cores relative to the first and the second coupling pads, respectively, is maintained.
    • 一种用于连接具有连接到光学装置的多个芯的光子晶体光纤的方法。 光子晶体光纤的端部可以放置在具有多个耦合焊盘的光学器件的表面上。 光子晶体光纤的端部的第一核心可以位于光学器件上的第一耦合焊盘上方,以使阈值量的相干光束能够传播通过第一芯体和第一耦合焊盘。 光子晶体光纤的端部的第二核心与光学器件上的第二耦合焊盘对准,以使另一相干光束的阈值能够传播通过第二芯片和第二耦合焊盘。 光子晶体光纤的端部可以粘附到光学器件的表面,同时保持第一和第二芯部相对于第一和第二耦合焊盘的位置。