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    • 3. 发明授权
    • Secret key distribution method and secret key distribution system
    • 秘密密钥分发方法和秘密密钥分发系统
    • US07492903B2
    • 2009-02-17
    • US10975444
    • 2004-10-29
    • Kouichi IchimuraNoritsugu ShiokawaMikio FujiiKentaro ToriiKenji Ohkuma
    • Kouichi IchimuraNoritsugu ShiokawaMikio FujiiKentaro ToriiKenji Ohkuma
    • H04K1/08
    • H04L9/0855
    • In the method of the present invention, one of each pair of photons connected through entanglement is distributed to a transmitting station, relay stations and a receiving station. After the photons reach secure sites, such as the relay stations, a base for detecting photons is determined between adjacent sites, and then photons are detected in each site, which makes it possible to obtain a secret key used for secure information transmission between relay stations using bases coincide with each other every time. Also, in the present invention, a high-quality random number sequence serving as a secret key is automatically generated in a physical manner every time by detecting a superposition state of an entanglement and procedures corresponding to those in which a secret key itself is transmitted in a form of a quantum cryptogram are performed.
    • 在本发明的方法中,通过纠缠连接的每对光子中的一个被分配到发送站,中继站和接收站。 在光子到达诸如中继站的安全站点之后,在相邻站点之间确定用于检测光子的基站,然后在每个站点中检测到光子,这使得可以获得用于中继站之间的安全信息传输的秘密密钥 每次使用基地相互重合。 此外,在本发明中,作为秘密密钥的高质量随机数序列,每次通过检测纠错的叠加状态和对应于其中发送秘密密钥的过程的过程自动生成, 执行量子密码的形式。
    • 5. 发明授权
    • Data transfer method, communication system and storage medium
    • 数据传输方式,通信系统和存储介质
    • US6038321A
    • 2000-03-14
    • US794233
    • 1997-01-30
    • Masamichi TorigaiMikio Fujii
    • Masamichi TorigaiMikio Fujii
    • H04L9/26G06F21/24G09C1/00H04H20/76H04H60/15H04H60/23H04L9/32H04L29/06H04L9/00
    • H04L63/0457H04H20/76H04H60/15H04H60/23H04L63/083H04L9/3271H04L2209/12H04L2209/60
    • In a communication system, a transmitter device encrypts variable-length data having a data length corresponding to a kind of information to be transferred or a communication capacity, using a natural random number, to produce a variable-length random number sequence. Then, the transmitter device performs an exclusive OR operation per bit between the variable-length random number sequence and the information to produce transfer information, and transmits the transfer information to a receiver device. The transmitter device further transmits the variable-length data and the natural random number in an encrypted manner to the receiver device. The receiver device reproduces the variable-length data and the natural random number transmitted in the encrypted manner, and then encrypts the variable-length data using the natural random number to produce a variable-length random number sequence which is identical with the foregoing variable-length random number sequence produced at the transmitter device. Then, the receiver device performs an exclusive OR operation per bit between the thus produced variable-length random number sequence and the received transfer information to reproduce the original information.
    • 在通信系统中,发送装置使用自然随机数对具有与要传送的信息的种类或通信容量对应的数据长度的可变长度数据进行加密,生成可变长度的随机数序列。 然后,发送装置在可变长度随机数序列与信息之间进行每比特的异或运算以产生传送信息,并将传送信息发送到接收装置。 发送装置进一步以可加密的方式将可变长度数据和自然随机数发送给接收装置。 接收机装置再现以加密方式发送的可变长度数据和自然随机数,然后使用自然随机数对可变长度数据进行加密,以产生与上述可变长度数据相同的可变长度随机数序列, 在发射机设备产生的长度随机数序列。 然后,接收机装置在如此产生的可变长度随机数序列与接收到的传送信息之间每比特执行异或运算,以再现原始信息。
    • 7. 发明授权
    • Method and apparatus for generating phase-correlation
    • 用于产生相位相关的方法和装置
    • US07092417B2
    • 2006-08-15
    • US10752532
    • 2004-01-08
    • Mikio Fujii
    • Mikio Fujii
    • H01S3/13
    • H01S3/10H01S3/10076H01S3/1303H01S3/2383
    • According to each embodiment of the present invention, a phase-correlation can be generated between respective laser fields produced by a plurality of independent lasers. Specifically, based on a structure that first and second laser fields each having a mixed quantum state represented by a single-mode Glauber coherent state that a phase is completely indeterminate are mixed with each other and a quantum continuous measurement is performed by causing absorbers to individually cross two output quantum states, the phase-correlation can be generated between the first and second laser fields when absorption by the absorbers massively occurs in one of the two quantum states as a result of the quantum continuous measurement.
    • 根据本发明的每个实施例,可以在由多个独立激光器产生的各个激光场之间产生相位相关。 具体而言,基于以相位完全不确定的单模Glauber相干状态表示的具有混合量子态的第一激光场和第二激光场彼此混合的结构,并且通过使吸收体分别进行量子连续测量 通过交叉两个输出量子态,当吸收体的吸收作为量子连续测量的结果在两个量子态之一中大量发生时,可以在第一和第二激光场之间产生相位相关。
    • 8. 发明授权
    • Aqueous solution of conophylline and/or conophyllidine
    • 茶碱和/或叶绿素碱的水溶液
    • US08178135B2
    • 2012-05-15
    • US12281940
    • 2007-03-05
    • Kazuo UmezawaMikio Fujii
    • Kazuo UmezawaMikio Fujii
    • A61K36/00
    • A61K36/24A23L33/105A61K31/475C07D491/22
    • PROBLEMS TO BE SOLVED BY THE INVENTIONTo provide aqueous solutions of conophylline and/or conophyllidine; methods for purifying conophylline and/or conophyllidine from the aqueous solutions; methods for producing the aqueous solutions, water-soluble compositions containing conophylline and/or a conophyllidine useful for food compositions or pharmaceutical compositions or methods for preparing the same; as well as food compositions or pharmaceutical compositions containing the water-soluble compositions.MEANS OF SOLVING THE PROBLEMSIt has been found that conophylline and/or conophyllidine can be efficiently extracted from a plant producing conophylline and/or conophyllidine with an acidic aqueous solution having a pH equal to or less than 4. The extract thus obtained, i.e., aqueous solution of conophylline, and/or conophyllidine is useful for production of, for instance, food compositions, pharmaceutical compositions, etc.
    • 本发明要解决的问题提供茶碱和/或叶绿素碱的水溶液; 从水溶液中纯化茶碱和/或叶绿素的方法; 制备水溶液的方法,含有可用于食品组合物或药物组合物的茶碱和/或叶绿素的水溶性组合物或其制备方法; 以及含有水溶性组合物的食品组合物或药物组合物。 解决问题的手段已经发现,可以用pH等于或小于4的酸性水溶液从产生茶碱和/或叶绿素的植物中有效地提取茶碱和/或叶肉氨酸。由此得到的提取物, 茶碱水溶液和/或叶绿素碱可用于生产例如食品组合物,药物组合物等。