会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Beam current meter
    • 光束电流表
    • US07435970B2
    • 2008-10-14
    • US10558419
    • 2004-05-28
    • Tamaki WatanabeTakeshi KatayamaMasayuki KaseTokihiro IkedaShin-ichi WatanabeTakeo Kawaguchi
    • Tamaki WatanabeTakeshi KatayamaMasayuki KaseTokihiro IkedaShin-ichi WatanabeTakeo Kawaguchi
    • G01R33/02H01L39/00H01F6/06
    • H01J37/243
    • It is possible to simplify the cooling mechanism of a superconductor, significantly reduce the cost, simplify the measurement work, and reduce the time required for measurement. A beam current meter includes: a cylindrical super conductor beam current sensor arranged in a vacuum vessel in such a manner that the beam incoming into the vacuum vessel is guided to pass through a bore of the vacuum vessel and a bridge portion is formed at the outer diameter, a SQUID arranged at the bridge portion of the beam current sensor; a cylindrical superconductor magnetic shield arranged so as to surround the external diameter side of the beam current sensor in such a manner that the SQUID is positioned between the beam current sensor and the magnetic shield, so that a beam is guided to pass through the bore of the beam current sensor, thereby measuring the beam the beam current of the beam. The beam current meter uses a freezing device as cooling means for cooling the beam current sensor, the SQUID, and the magnetic shield.
    • 可以简化超导体的冷却机制,显着降低成本,简化测量工作,缩短测量所需的时间。 光束电流计包括:布置在真空容器中的圆柱形超导体束电流传感器,使得入射到真空容器中的光束被引导以通过真空容器的孔,并且桥接部分形成在外部 直径,布置在束电流传感器的桥接部分处的SQUID; 圆柱形超导体磁屏蔽,以使得SQUID位于束电流传感器和磁屏蔽之间的方式布置成围绕光束电流传感器的外径侧,使得光束被引导以穿过光束电流传感器的孔 光束电流传感器,从而测量光束的光束电流。 光束电流计使用冷冻装置作为用于冷却束电流传感器,SQUID和磁屏蔽的冷却装置。
    • 7. 发明申请
    • Beam current meter
    • 光束电流表
    • US20070069722A1
    • 2007-03-29
    • US10558419
    • 2004-05-28
    • Tamaki WatanabeTakeshi KatayamaMasayuki KaseTokihiro IkedaShin-ichi WatanabeTakeo Kawaguchi
    • Tamaki WatanabeTakeshi KatayamaMasayuki KaseTokihiro IkedaShin-ichi WatanabeTakeo Kawaguchi
    • H01F6/06G01R33/02H01L39/00G01N27/00
    • H01J37/243
    • It is possible to simplify the cooling mechanism of a superconductor, significantly reduce the cost, simplify the measurement work, and reduce the time required for measurement. A beam current meter includes: a cylindrical super conductor beam current sensor arranged in a vacuum vessel in such a manner that the beam incoming into the vacuum vessel is guided to pass through a bore of the vacuum vessel and a bridge portion is formed at the outer diameter, a SQUID arranged at the bridge portion of the beam current sensor; a cylindrical superconductor magnetic shield arranged so as to surround the external diameter side of the beam current sensor in such a manner that the SQUID is positioned between the beam current sensor and the magnetic shield, so that a beam is guided to pass through the bore of the beam current sensor, thereby measuring the beam the beam current of the beam. The beam current meter uses a freezing device as cooling means for cooling the beam current sensor, the SQUID, and the magnetic shield.
    • 可以简化超导体的冷却机制,显着降低成本,简化测量工作,缩短测量所需的时间。 光束电流计包括:布置在真空容器中的圆柱形超导体束电流传感器,使得入射到真空容器中的光束被引导以通过真空容器的孔,并且桥接部分形成在外部 直径,布置在束电流传感器的桥接部分处的SQUID; 圆柱形超导体磁屏蔽,以使得SQUID位于束电流传感器和磁屏蔽之间的方式布置成围绕光束电流传感器的外径侧,使得光束被引导以穿过光束电流传感器的孔 光束电流传感器,从而测量光束的光束电流。 光束电流计使用冷冻装置作为用于冷却束电流传感器,SQUID和磁屏蔽的冷却装置。