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
    • 3. 发明授权
    • Silicon carbide single crystal and single crystal wafer
    • 碳化硅单晶和单晶晶片
    • US07799305B2
    • 2010-09-21
    • US11629377
    • 2005-06-15
    • Mitsuru SawamuraTatsuo FujimotoNoboru OhtaniMasashi Nakabayashi
    • Mitsuru SawamuraTatsuo FujimotoNoboru OhtaniMasashi Nakabayashi
    • C30B29/36
    • C30B23/00C30B29/36
    • The present invention provides a semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more, and a semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more and vacancy pairs (bivacancies), and an semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more and containing a crystal region where a position average lifetime becomes a lifetime longer than 155 ps in measurement of position lifetime at a liquid nitrogen boiling point temperature (77K) or less, and wafer obtained therefrom.According to the present invention, by having vacancy clusters including vacancy pairs, the electrical conductivity can be reduced even when the nitrogen concentration is higher than the boron concentration and, in addition, a semi-insulating SiC single crystal resistant to change of the electrical conductivity even with heat treatment can be obtained.
    • 本发明提供一种半绝缘性碳化硅单晶,其特征在于,室温下的电阻率为1×10 5Ω·cm以上,半绝缘性碳化硅单晶的特征在​​于,在室温下具有电阻率 1×10 5Ω·cm·cm以上以及空位对(bivacancies)和半绝缘性碳化硅单晶,其特征在于,室温下的电阻率为1×10 5Ω·cm以上,并且含有晶体区域, 平均寿命在液氮沸点温度(77K)以下的位置寿命的测定以及从其获得的晶片的寿命长于155ps。 根据本发明,通过具有包括空位对的空位簇,即使当氮浓度高于硼浓度时也可以降低电导率,另外还可以降低电导率的变化的半绝缘SiC单晶 甚至可以获得热处理。
    • 5. 发明申请
    • Silicon Carbide Single Crystal And Single Crystal Wafer
    • 碳化硅单晶和单晶硅片
    • US20080038531A1
    • 2008-02-14
    • US11629377
    • 2005-06-15
    • Mitsuru SawamuraTatsuo FujimotoNoboru OhtaniMasashi Nakabayashi
    • Mitsuru SawamuraTatsuo FujimotoNoboru OhtaniMasashi Nakabayashi
    • C04B35/52
    • C30B23/00C30B29/36
    • The present invention provides a semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more, and a semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more and vacancy pairs (bivacancies), and an semi-insulating silicon carbide single crystal characterized by having an electrical resistivity at room temperature of 1×105 Ωcm or more and containing a crystal region where a position average lifetime becomes a lifetime longer than 155 ps in measurement of position lifetime at a liquid nitrogen boiling point temperature (77K) or less, and wafer obtained therefrom. According to the present invention, by having vacancy clusters including vacancy pairs, the electrical conductivity can be reduced even when the nitrogen concentration is higher than the boron concentration and, in addition, a semi-insulating SiC single crystal resistant to change of the electrical conductivity even with heat treatment can be obtained.
    • 本发明提供一种半绝缘碳化硅单晶,其特征在于在室温下具有1×10 5Ω或更大的电阻率,以及半绝缘碳化硅单晶,其特征在于具有电阻率 在室温下为1×10 5Ωm以上,空位对(双峰)和半绝缘碳化硅单晶,其特征在于室温下的电阻率为1×10 5 / >以上,并且在液氮沸点温度(77K)以下的位置寿命的测定以及从其获得的晶片的含有位置平均寿命长于155ps的寿命的晶体区域。 根据本发明,通过具有包括空位对的空位簇,即使当氮浓度高于硼浓度时也可以降低电导率,另外还可以降低电导率的变化的半绝缘SiC单晶 甚至可以获得热处理。
    • 9. 发明申请
    • Superconducting magnet, process for producing the same and its magnetizing method
    • 超导磁体,其制造方法及其磁化方法
    • US20050083058A1
    • 2005-04-21
    • US10506206
    • 2003-12-12
    • Ikuo ItohHiroaki OtsukaMitsuru Sawamura
    • Ikuo ItohHiroaki OtsukaMitsuru Sawamura
    • H01F6/00H01F7/02H01F13/00H01F41/02G01V3/00
    • H01F13/003H01F6/00H01F7/02H01F41/0253
    • A superconductive magnet comprised of a bulk member or sheet member of a type II superconductive material, wherein a distribution of the magnetic flux density component vertical to the surface directly above the surface of the bulk member or sheet member (a) has a maximum value at a center of said bulk member or sheet member and is about zero at its side edge, and (b) has at least one minimal value point between said center and side edge. A superconductor is cooled to not more than a critical temperature after applying a magnetic field Hex1 [A/m] near the magnetic field generation system in the normal conductive state, then the applied magnetic field is reduced to zero, then a magnetic field is applied until the applied magnetic field becomes −Hex2 [A/m] in the opposite direction to the trapped magnetic flux to make the trapped magnetic flux density Bin0 [T], then the applied magnetic field is again returned to zero, where Hex1>0 and Hex2>0.
    • 一种由II型超导材料的主体部件或片状部件组成的超导磁体,其中垂直于大块部件或片状部件(a)表面正上方的表面的磁通密度分量的分布在 所述主体部件或片部件的中心在其侧边缘处约为零,并且(b)在所述中心和侧边之间具有至少一个最小值点。 在正常导通状态下在磁场产生系统附近施加磁场Hex1 [A / m]后,将超导体冷却至临界温度,然后施加的磁场减小到零,然后施加磁场 直到所施加的磁场与被捕获的磁通量相反的方向变为-Hex2 [A / m],以使被捕获的磁通密度Bin0 [T],则所施加的磁场再次返回到零,其中Hex1> 0和 Hex2> 0。