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    • 1. 发明授权
    • Reflective optical element
    • 反光光学元件
    • US06665120B2
    • 2003-12-16
    • US09394320
    • 1999-09-13
    • Hideyuki HatakeyamaMasanobu Ohgane
    • Hideyuki HatakeyamaMasanobu Ohgane
    • G02B110
    • G02B5/0866G02B5/0858Y10T428/3154
    • The present invention provides a reflective optical element being excellent in reflectivity and transmittance having a metallic thin film being excellent in durability and abrasion resistance wherein, in the reflective optical element in which light impinges in the transparent substrate and projects out after repeating reflection on the back plane, the reflection plane is formed by laminating the transparent substrate, metallic thin film and amorphous fluorocarbon resin in this order while forming a layer of the amorphous fluorocarbon resin on the incident and projection planes simultaneously with forming the layer on the outermost layer to allow durability and abrasion resistance to be improved with the amorphous fluorocarbon resin on the reflection plane, silver being deposited on the metallic layer by electroless plating in depositing the films while the amorphous fluorocarbon resin being preferably deposited by a wet film-deposition method such as a dip-coating method.
    • 本发明提供一种具有优异的反射率和透射率的反射光学元件,其具有耐久性和耐磨性优异的金属薄膜,其中在反射光学元件中,其中光照射在透明基板中并在背面反复反射之后突出出来 在反射面上依次层叠透明基板,金属薄膜和无定形碳氟树脂,同时在入射面和投影面上同时形成非晶氟碳树脂层,同时在最外层形成层,从而使耐久性 并且通过反射平面上的无定形氟碳树脂改善耐磨性,在沉积薄膜的同时通过无电解电镀将银沉积在金属层上,而非晶氟碳树脂优选通过湿式薄膜沉积方法如浸渍 - 涂布方法。
    • 4. 发明申请
    • METHOD AND APPARATUS FOR ENCRYPTED AUTHENTICATION
    • 加密认证的方法和装置
    • US20090177885A1
    • 2009-07-09
    • US12270478
    • 2008-11-13
    • Akihiro KubotaHideyuki Hatakeyama
    • Akihiro KubotaHideyuki Hatakeyama
    • H04L9/00
    • H04L63/061G06F21/606H04L63/08H04N7/1675H04N21/4135H04N21/4367
    • A sink device including a first data processing unit and a second data processing unit authenticates the processing units, when turned on, to generate first authentication keys having the same data. When a data request is issued from the sink device to the source device, device authentication is made between the source device and the first data processing unit to generate second authentication keys having the same data. The source device encrypts an exchange key using the second authentication key, and sends the encrypted exchange key to the first data processing unit. The first data processing unit decrypts the encrypted exchange key using the second authentication key, encrypts the decrypted exchange key using the first authentication key, and sends the encrypted exchange key to the second data processing unit. The second data processing unit decrypts the encrypted exchange key using the first authentication key to obtain an exchange key.
    • 包括第一数据处理单元和第二数据处理单元的宿设备在打开时认证处理单元,以产生具有相同数据的第一认证密钥。 当从宿设备向源设备发送数据请求时,在源设备和第一数据处理单元之间进行设备认证,以生成具有相同数据的第二认证密钥。 源设备使用第二认证密钥加密交换密钥,并将加密的交换密钥发送到第一数据处理单元。 第一数据处理单元使用第二认证密钥对加密的交换密钥进行解密,使用第一认证密钥加密解密的交换密钥,并将加密的交换密钥发送到第二数据处理单元。 第二数据处理单元使用第一认证密钥对加密的交换密钥进行解密以获得交换密钥。