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    • 1. 发明授权
    • Nuclear magnetic resonance apparatus
    • 核磁共振装置
    • US06489769B2
    • 2002-12-03
    • US09888526
    • 2001-06-26
    • Takashi NakamuraJun UzawaTetsuo OkaYoshitaka ItoYousuke YanagiMasaaki YoshikawaRyohei YabunoUichiro Mizutani
    • Takashi NakamuraJun UzawaTetsuo OkaYoshitaka ItoYousuke YanagiMasaaki YoshikawaRyohei YabunoUichiro Mizutani
    • G01V300
    • G01R33/3815
    • A nuclear magnetic resonance apparatus including: a cup-shaped high-temperature superconductor 20 having a hollow cylindrical shape or portion cooled to not more than a superconducting transition temperature in a vacuum insulating container 22; and a detection coil 12 for detecting an NMR signal of a material 11 to be measured inserted into the hollow cylindrical portion 20a of the high-temperature superconductor. The high-temperature superconductor is magnetized in an axial direction, a static magnetic field is thereby generated in the hollow cylindrical portion in a cylinder axial direction, and the NMR signal of a material is detected by the detection coil and the existing spectrometer. A strong static magnetic field comparable to a conventional superconducting magnet is formed without using a refrigerant (liquid helium) essential for operating the conventional superconducting magnet, and a strength distribution of the static magnetic field is homogeneous.
    • 一种核磁共振装置,包括:在真空绝热容器22中具有中空圆筒形状或冷却至不超过超导转变温度的部分的杯状高温超导体20; 以及检测线圈12,用于检测被插入到高温超导体的中空圆筒部20a中的待测材料11的NMR信号。 高温超导体在轴向上被磁化,因此在中空圆柱形部分中在气缸轴向方向上产生静态磁场,并且通过检测线圈和现有的光谱仪检测材料的NMR信号。 形成与传统超导磁体相当的强静态磁场,而不使用用于操作常规超导磁体所必需的制冷剂(液氦),并且静磁场的强度分布是均匀的。
    • 5. 发明授权
    • Magnetic device
    • 磁性装置
    • US06847278B2
    • 2005-01-25
    • US10097005
    • 2002-03-14
    • Yoshitaka ItoMasaaki YoshikawaYousuke YanagiTetsuo Oka
    • Yoshitaka ItoMasaaki YoshikawaYousuke YanagiTetsuo Oka
    • F25B9/00H01F6/00H01F6/04H01F5/00
    • H01F6/00
    • A magnetic device which is highly durable, reliable, and safe without being damaged when a magnetic filed is applied. The magnetic device includes a cooling device having a cold head refrigerated by an effect of a cryogenic refrigerator, a magnetic field generation device configured to apply a non-stationary magnetic field on a magnetic body, and a cold head extension portion configured to thermally connect the magnetic body and the cold head. The cold head extension portion includes at least two members, one a low resistance member and the other a high resistance member having different resistivities. With this device, the eddy current generated in the cold head extension portion and the electromagnetic force produced in the cold head by the cold head extension portion are reduced.
    • 一种磁性装置,其耐久性,可靠性和安全性,而不会在施加磁场时被损坏。 该磁性装置包括一冷却装置,该冷却装置具有通过低温冰箱的作用而冷藏的冷头,被配置为将磁场上施加非固定磁场的磁场产生装置和冷头扩展部, 磁体和冷头。 冷头延伸部分包括至少两个构件,一个是低阻力构件,另一个是具有不同电阻率的高阻力构件。 利用该装置,冷头延伸部产生的涡电流和由冷头延伸部在冷头中产生的电磁力减小。
    • 6. 发明授权
    • Superconducting magnet apparatus and method for magnetizing superconductor
    • 超导磁体装置及超导体磁化方法
    • US07026901B2
    • 2006-04-11
    • US10066680
    • 2002-02-06
    • Yousuke YanagiTetsuo OkaYoshitaka ItohMasaaki Yoshikawa
    • Yousuke YanagiTetsuo OkaYoshitaka ItohMasaaki Yoshikawa
    • H01F7/00
    • H01F13/00F25B9/14F25D19/006H01F6/008
    • A cold head is disposed in an insulating container and cooled by a refrigerator. A superconductor is disposed in the insulating container, contacting the cold head, and is cooled to its superconduction transition temperature or lower by heat conduction. A magnetizing coil is disposed outside the insulating container for applying a magnetic field to the superconductor. Control is performed so that a magnetic field determined considering the magnetic field to be captured by the superconductor is applied. A pulsed magnetic field is applied to the superconductor a plurality of times. Each pulsed magnetic field is applied when the temperature of the superconductor is a predetermined temperature or lower. A maximum pulsed magnetic field is applied at least once in an initial or intermediate stage of the repeated application of pulsed magnetic fields. After that, a pulsed magnetic field equal to or less than the maximum pulsed magnetic field is applied. Pulsed magnetic fields are repeatedly applied while the temperature of the superconductor is lowered. A pulsed magnetic field is applied when the temperature T0 of a central portion of the superconductor is the superconduction transition temperature or lower and the temperature of a peripheral portion is higher than T0. The temperature of the entire superconductor is brought close to T0 to apply another pulsed magnetic field. The magnetizing coil faces at least one of two opposite sides of the superconductor to apply pulsed magnetic fields to the superconductor in its magnetization direction.
    • 将冷头设置在绝热容器中并用冰箱冷却。 超导体设置在绝热容器中,与冷头接触,并通过热传导而冷却至其超导转变温度或更低。 磁化线圈设置在绝缘容器的外部,用于向超导体施加磁场。 执行控制,使得考虑要由超导体捕获的磁场确定的磁场被施加。 将脉冲磁场多次施加到超导体。 当超导体的温度为预定温度或更低时,施加每个脉冲磁场。 在重复施加脉冲磁场的初始阶段或中间阶段,最大脉冲磁场施加至少一次。 之后,施加等于或小于最大脉冲磁场的脉冲磁场。 当超导体的温度降低时,脉冲磁场被重复施加。 当超导体的中心部分的温度T 0 <0>超导转变温度以下且周边部分的温度高于T 0 0 。 整个超导体的温度接近T 0 0以施加另一个脉冲磁场。 磁化线圈面向超导体的两个相对侧中的至少一个,以在其磁化方向上向超导体施加脉冲磁场。
    • 8. 发明授权
    • Superconducting magnet apparatus and method for magnetizing superconductor
    • 超导磁体装置及超导体磁化方法
    • US06441710B1
    • 2002-08-27
    • US09586956
    • 2000-06-05
    • Yousuke YanagiTetsuo OkaYoshitaka ItohMasaaki Yoshikawa
    • Yousuke YanagiTetsuo OkaYoshitaka ItohMasaaki Yoshikawa
    • H01F2724
    • H01F13/00F25B9/14F25D19/006H01F6/008
    • A cold head is disposed in an insulating container and cooled by a refrigerator. A superconductor is disposed in the insulating container, contacting the cold head, and is cooled to its superconduction transition temperature or lower by heat conduction. A magnetizing coil is disposed outside the insulating container for applying a magnetic field to the superconductor. Control is performed so that a magnetic field determined considering the magnetic field to be captured by the superconductor is applied. A pulsed magnetic field is applied to the superconductor a plurality of times. Each pulsed magnetic field is applied when the temperature of the superconductor is a predetermined temperature or lower. A maximum pulsed magnetic field is applied at least once in an initial or intermediate stage of the repeated application of pulsed magnetic fields. After that, a pulsed magnetic field equal to or less than the maximum pulsed magnetic field is applied. Pulsed magnetic fields are repeatedly applied while the temperature of the superconductor is lowered. A pulsed magnetic field is applied when the temperature To of a central portion of the superconductor is the superconduction transition temperature or lower and the temperature of a peripheral portion is higher than T0. The temperature of the entire superconductor is brought close to T0 to apply another pulsed magnetic field. The magnetizing coil faces at least one of two opposite sides of the superconductor to apply pulsed magnetic fields to the superconductor in its magnetization direction.
    • 将冷头设置在绝热容器中并用冰箱冷却。 超导体设置在绝热容器中,与冷头接触,并通过热传导而冷却至其超导转变温度或更低。 磁化线圈设置在绝缘容器的外部,用于向超导体施加磁场。 执行控制,使得考虑要由超导体捕获的磁场确定的磁场被施加。 将脉冲磁场多次施加到超导体。 当超导体的温度为预定温度或更低时,施加每个脉冲磁场。 在重复施加脉冲磁场的初始阶段或中间阶段,最大脉冲磁场施加至少一次。 之后,施加等于或小于最大脉冲磁场的脉冲磁场。 当超导体的温度降低时,脉冲磁场被重复施加。 当超导体的中心部分的温度To为超导转变温度或更低,周边部分的温度高于T0时,施加脉冲磁场。 整个超导体的温度接近于T0,以施加另一个脉冲磁场。 磁化线圈面向超导体的两个相对侧中的至少一个,以在其磁化方向上向超导体施加脉冲磁场。