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1.发明授权
公开(公告)号:US6087670A
公开(公告)日:2000-07-11
申请号:US365835
申请日:1999-08-03
申请人: Kazuo Hiramoto , Masumi Umezawa , Koji Matsuda
发明人: Kazuo Hiramoto , Masumi Umezawa , Koji Matsuda
CPC分类号: H05H13/04 , H05H7/10 , A61N2005/1087
摘要: A synchrotron type accelerator including a deflecting electromagnet arranged on a circulating orbit of a charged particle beam, four-pole divergence electromagnets and four-pole convergence electromagnets arranged on said circulating orbit. A high frequency applying unit arranged on the circulating orbit for applying a high frequency electromagnetic field to the charged particle beam circulating and for increasing an amplitude of betatron oscillation of the particle beam to a level above a stability limit of resonance. A first deflector for beam ejection arranged on the circulating orbit for deflecting the charged particle beam excited above the stability limit of the resonance by the high frequency applying unit and a second deflector for beam ejection arranged on the circulating orbit used in pairs with the first deflector for beam ejection for introducing the charged particle beam deflected by the first deflector for beam ejection into an ejected beam transporting system. The deflecting electromagnet and the second deflector for beam ejection are arranged in this order at downstream with respect to the first deflector for beam ejection, and the four-pole divergence electromagnets are arranged at downstream with respect to the first deflector for beam ejection and upstream with respect to the deflecting electromagnet and at downstream with respect to the deflecting electromagnet and upstream with respect to the second deflector for beam ejection.
摘要翻译: 包括设置在带电粒子束的循环轨道上的偏转电磁体的同步加速器型加速器,设置在所述循环轨道上的四极发散电磁体和四极收敛电磁体。 布置在循环轨道上的高频施加单元,用于将高频电磁场施加到带电粒子束循环,并将粒子束的贝塔振荡幅度提高到高于谐振稳定极限的水平。 用于射流喷射的第一偏转器,布置在循环轨道上,用于偏转由高频施加单元激发的高于谐振稳定极限的带电粒子束,以及布置在与第一偏转器成对使用的循环轨道上的用于射束的第二偏转器 用于射出用于引入由第一偏转器偏转的带电粒子束,用于射束射出到射出的束传输系统中。 用于射束的偏转电磁体和第二偏转器相对于第一偏转器在下游依次布置以用于射束,并且四极分支电磁体相对于第一偏转器布置在下游,用于射出射流,并且在上游具有 相对于偏转电磁体并且在相对于偏转电磁体的下游以及相对于第二偏转器的上游,用于射束。
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公开(公告)号:US07755305B2
公开(公告)日:2010-07-13
申请号:US12129145
申请日:2008-05-29
申请人: Masumi Umezawa , Kazuo Hiramoto , Koji Matsuda
发明人: Masumi Umezawa , Kazuo Hiramoto , Koji Matsuda
CPC分类号: A61N5/10 , A61N2005/1074 , A61N2005/1087 , G21K1/043 , H05H7/10
摘要: A charged particle beam extraction system and method capable of shortening the irradiation time and increasing the number of patients treatable per unit time. The charged particle beam extraction system comprises a synchrotron for cyclically performing patterned operation including four steps of introducing, accelerating, extracting and decelerating an ion beam, an on/off switch for opening or closing connection between an RF knockout electrode and an RF power supply for applying RF power to the RF knockout electrode, and a timing controller for controlling on/off-timing of the on/off switch such that when extraction of the ion beam is stopped at least once during the extraction step of the synchrotron, an amount of the ion beam extracted from the synchrotron in one cycle is held substantially at a setting value.
摘要翻译: 一种带电粒子束提取系统和方法,其能够缩短照射时间并增加每单位时间可治疗的患者数量。 带电粒子束提取系统包括用于循环执行图案化操作的同步加速器,其包括引入,加速,提取和减速离子束的四个步骤,用于打开或关闭RF击穿电极和RF电源之间的连接的开/关开关, 将RF功率施加到RF击穿电极,以及定时控制器,用于控制开/关开关的接通/断开定时,使得当在同步加速器的提取步骤期间离子束的提取停止至少一次时, 在一个周期内从同步加速器提取的离子束基本保持在设定值。
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公开(公告)号:US20090283702A1
公开(公告)日:2009-11-19
申请号:US12129145
申请日:2008-05-29
申请人: Masumi Umezawa , Kazuo Hiramoto , Koji Matsuda
发明人: Masumi Umezawa , Kazuo Hiramoto , Koji Matsuda
IPC分类号: A61N5/00
CPC分类号: A61N5/10 , A61N2005/1074 , A61N2005/1087 , G21K1/043 , H05H7/10
摘要: A charged particle beam extraction system and method capable of shortening the irradiation time and increasing the number of patients treatable per unit time. The charged particle beam extraction system comprises a synchrotron for cyclically performing patterned operation including four steps of introducing, accelerating, extracting and decelerating an ion beam, an on/off switch for opening or closing connection between an RF knockout electrode and an RF power supply for applying RF power to the RF knockout electrode, and a timing controller for controlling on/off-timing of the on/off switch such that when extraction of the ion beam is stopped at least once during the extraction step of the synchrotron, an amount of the ion beam extracted from the synchrotron in one cycle is held substantially at a setting value.
摘要翻译: 一种带电粒子束提取系统和方法,其能够缩短照射时间并增加每单位时间可治疗的患者数量。 带电粒子束提取系统包括用于循环执行图案化操作的同步加速器,其包括引入,加速,提取和减速离子束的四个步骤,用于打开或关闭RF击穿电极和RF电源之间的连接的开/关开关, 将RF功率施加到RF击穿电极,以及定时控制器,用于控制开/关开关的接通/断开定时,使得当在同步加速器的提取步骤期间离子束的提取停止至少一次时, 在一个周期内从同步加速器提取的离子束基本保持在设定值。
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4.发明授权
公开(公告)号:US6008499A
公开(公告)日:1999-12-28
申请号:US984520
申请日:1997-12-03
申请人: Kazuo Hiramoto , Masumi Umezawa , Koji Matsuda
发明人: Kazuo Hiramoto , Masumi Umezawa , Koji Matsuda
CPC分类号: H05H13/04 , H05H7/10 , A61N2005/1087
摘要: An object of the present invention is to provide a small synchrotron type accelerator and a medical treatment system employing the same. In order to attain this object, according to the present invention, a synchrotron type accelerator includes: a deflecting electromagnet which is arranged on a circulating orbit of a charged particle beam; a first deflector for beam ejection by which the charged particle beam turning along the circulating orbit is deflected; and a second deflector for beam ejection which is used in pairs with the first deflector for beam ejection and by which the charged particle beam which has been deflected by the first deflector for beam ejection is introduced into an ejected beam transporting system, wherein both the deflecting electromagnet and the second deflector for beam ejection are arranged in this order downstream with respect to the first deflector for beam ejection.
摘要翻译: 本发明的目的是提供一种小同步加速器型加速器和采用该加速器的医疗处理系统。 为了实现该目的,根据本发明,同步加速器型加速器包括:设置在带电粒子束的循环轨道上的偏转电磁体; 用于射束的第一偏转器,带电粒子束沿着循环轨道转动通过该偏转器偏转; 以及用于射束的第二偏转器,其与用于射束的第一偏转器成对使用,并且已经被第一偏转器偏转以用于射束的带电粒子束被引入到射出的束传输系统中,其中两个偏转 电磁体和用于射出射束的第二偏转器相对于用于射出射束的第一偏转器以这个顺序排列。
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公开(公告)号:US20050099145A1
公开(公告)日:2005-05-12
申请号:US10981505
申请日:2004-11-05
申请人: Hideaki Nishiuchi , Katsuhisa Ike , Masumi Umezawa , Koji Matsuda
发明人: Hideaki Nishiuchi , Katsuhisa Ike , Masumi Umezawa , Koji Matsuda
CPC分类号: H05H13/04 , A61N2005/1087 , H05H7/06 , H05H2007/008
摘要: A particle therapy system capable of confirming energy of an accelerated charged particle beam before the charged particle beam is irradiated to an irradiation target. A beam position monitor is disposed in a synchrotron, and a cavity voltage monitor is associated with an RF cavity for acceleration. An ion beam orbiting within the synchrotron is accelerated with application of an RF voltage applied to the RF cavity and is extracted from the synchrotron with application of an RF voltage applied to an RF knockout electrode. Based on a cavity voltage signal detected by the cavity voltage monitor, a frequency counter measures the frequency of the RF voltage applied to the RF cavity. Based on a voltage detected by the beam position monitor, a beam signal processing unit measures the position of a beam orbit. Based on the frequency of the RF voltage and the position of the beam orbit, the energy judgment processing unit determines whether energy of the ion beam after the end of the acceleration is normal or abnormal.
摘要翻译: 一种粒子治疗系统,其能够在将带电粒子束照射到照射目标之前确认加速带电粒子束的能量。 光束位置监视器设置在同步加速器中,并且腔体电压监视器与RF腔相关联以用于加速。 通过施加施加到RF空腔的RF电压来加速在同步加速器内运行的离子束,并且通过施加施加到RF击穿电极的RF电压从同步加速器中提取离子束。 基于由腔体电压监测器检测到的腔体电压信号,频率计数器测量施加到RF空腔的RF电压的频率。 基于由光束位置监视器检测的电压,光束信号处理单元测量光束轨道的位置。 基于RF电压的频率和光束轨道的位置,能量判断处理单元判定加速结束后的离子束的能量是正常还是异常。
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公开(公告)号:US07439528B2
公开(公告)日:2008-10-21
申请号:US10981505
申请日:2004-11-05
申请人: Hideaki Nishiuchi , Katsuhisa Ike , Masumi Umezawa , Koji Matsuda
发明人: Hideaki Nishiuchi , Katsuhisa Ike , Masumi Umezawa , Koji Matsuda
IPC分类号: A61N5/00
CPC分类号: H05H13/04 , A61N2005/1087 , H05H7/06 , H05H2007/008
摘要: A particle therapy system capable of confirming energy of an accelerated charged particle beam before the charged particle beam is irradiated to an irradiation target. A beam position monitor is disposed in a synchrotron, and a cavity voltage monitor is associated with an RF cavity for acceleration. An ion beam orbiting within the synchrotron is accelerated with application of an RF voltage applied to the RF cavity and is extracted from the synchrotron with application of an RF voltage applied to an RF knockout electrode. Based on a cavity voltage signal detected by the cavity voltage monitor, a frequency counter measures the frequency of the RF voltage applied to the RF cavity. Based on a voltage detected by the beam position monitor, a beam signal processing unit measures the position of a beam orbit. Based on the frequency of the RF voltage and the position of the beam orbit, the energy judgment processing unit determines whether energy of the ion beam after the end of the acceleration is normal or abnormal.
摘要翻译: 一种粒子治疗系统,其能够在将带电粒子束照射到照射目标之前确认加速带电粒子束的能量。 光束位置监视器设置在同步加速器中,并且腔体电压监视器与RF腔相关联以用于加速。 通过施加施加到RF空腔的RF电压来加速在同步加速器内运行的离子束,并且通过施加施加到RF击穿电极的RF电压从同步加速器中提取离子束。 基于由腔体电压监测器检测到的腔体电压信号,频率计数器测量施加到RF空腔的RF电压的频率。 基于由光束位置监视器检测的电压,光束信号处理单元测量光束轨道的位置。 基于RF电压的频率和光束轨道的位置,能量判断处理单元判定加速结束后的离子束的能量是正常还是异常。
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公开(公告)号:US20060076515A1
公开(公告)日:2006-04-13
申请号:US11239073
申请日:2005-09-30
申请人: Koji Matsuda , Kazuo Hiramoto , Kunio Moriyama
发明人: Koji Matsuda , Kazuo Hiramoto , Kunio Moriyama
IPC分类号: G21K5/10
CPC分类号: A61N5/1048 , A61N5/1043 , A61N5/1079 , A61N2005/1074 , A61N2005/1087
摘要: To ensure irradiation accuracy and safety, even when an irradiation device employing a different irradiation method is used, disclosed is herein a charged particle beam irradiation apparatus that irradiates an irradiation target with charged particle beams includes: a charged particle beam generator for generating the charged particle beams; a passive scattering irradiation device and a scanning irradiation device, both for irradiating the irradiation target with the charged particle beams; a beam transport system for transporting the charged particles beam extracted from the charged particle beam generator, to selected one of the two irradiation devices; and a central controller that modifies operating parameters on the charged particle beam generator, according to the irradiation method adopted for the selected irradiation device.
摘要翻译: 为了确保照射精度和安全性,即使使用采用不同的照射方式的照射装置,在此公开了一种带电粒子束照射被照射靶的带电粒子束照射装置,包括:带电粒子束发生器,用于产生带电粒子 梁; 被动散射照射装置和扫描照射装置,用于向照射目标照射带电粒子束; 用于将从带电粒子束发生器提取的带电粒子束传送到两个照射装置中的一个的光束传输系统; 以及根据所选择的照射装置采用的照射方法修改带电粒子束发生器的工作参数的中央控制器。
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8.发明授权Charged particle beam irradiation system and charged particle beam extraction method 有权带电粒子束照射系统和带电粒子束提取方法公开(公告)号:US07825388B2
公开(公告)日:2010-11-02
申请号:US11678300
申请日:2007-02-23
申请人: Hideaki Nihongi , Koji Matsuda , Kazuo Hiramoto , Hiroshi Akiyama
发明人: Hideaki Nihongi , Koji Matsuda , Kazuo Hiramoto , Hiroshi Akiyama
IPC分类号: H05H9/00
CPC分类号: G21K1/10 , A61N5/1048 , A61N5/1065 , A61N2005/1087 , A61N2005/1095 , A61N2005/1096 , H05H7/10
摘要: A charged particle beam irradiation system and a charged particle beam extraction method which can prevent erroneous irradiation of a charged particle beam in the direction of advance of the charged particle beam. The system and method are featured in stopping supply of an ion beam to one or more of a plurality of angle zones in each of which a target dose is attained, the angle zones being formed by dividing an RMW in a rotating direction thereof, and in allowing the supply of the ion beam to one or more other angle zones in each of which a target dose is not yet attained. The invention can easily adjust beam doses at various positions in an affected part of the patient body in the direction of advance of the ion beam, and can greatly reduce the probability of erroneous irradiation that the beam dose becomes excessive or deficient at the various positions within the affected part of the patient body in the direction of advance of the ion beam.
摘要翻译: 带电粒子束照射系统和带电粒子束提取方法,其可以防止带电粒子束沿着带电粒子束的前进方向的错误照射。 该系统和方法的特征在于停止向多个角区域中的一个或多个角度区域供应目标剂量,其中角度区域通过沿其旋转方向分割RMW而形成,并且在 允许将离子束供应到一个或多个其他角度区域,其中每个角度区域中尚未获得目标剂量。 本发明可以容易地在离子束前进方向上调整患者身体的受影响部位的各个位置处的光束剂量,并且可以大大降低光束剂量在各种位置内过度或不足的错误照射的可能性 患者身体的受影响部分在离子束前进方向。
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公开(公告)号:US06316776B1
公开(公告)日:2001-11-13
申请号:US09388437
申请日:1999-09-02
IPC分类号: H05H900
CPC分类号: A61N5/1042 , A61N5/1049 , A61N2005/1087 , A61N2005/1095
摘要: A method of irradiation with a charged particle beam and an irradiation apparatus wherein the charged particle beam supplied from an accelerator and extracted from the irradiation apparatus. The irradiation apparatus includes an electromagnet for scanning with the charged particle beam. The method includes the steps of stopping the extraction of the charged particle beam from the irradiation apparatus, changing an irradiation point of the charged particle beam by controlling the electromagnet under a condition when the extraction is stopped, and resuming the extraction of the charged particle beam from the irradiation apparatus after changing the irradiation point.
摘要翻译: 一种带电粒子束照射的方法和照射装置,其中从加速器提供并从照射装置中提取的带电粒子束。 照射装置包括用于用带电粒子束扫描的电磁体。 该方法包括以下步骤:停止从照射装置提取带电粒子束,通过在提取停止的条件下控制电磁体来改变带电粒子束的照射点,并恢复提取带电粒子束 改变照射点后从照射装置。
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10.发明申请公开(公告)号:US20100171047A1
公开(公告)日:2010-07-08
申请号:US12729662
申请日:2010-03-23
申请人: Koji Matsuda , Kazuo Hiramoto , Kunio Moriyama
发明人: Koji Matsuda , Kazuo Hiramoto , Kunio Moriyama
CPC分类号: A61N5/1048 , A61N5/1043 , A61N5/1079 , A61N2005/1074 , A61N2005/1087
摘要: To ensure irradiation accuracy and safety, even when an irradiation device employing a different irradiation method is used, disclosed is herein a charged particle beam irradiation apparatus that irradiates an irradiation target with charged particle beams includes:a charged particle beam generator for generating the charged particle beams; a passive scattering irradiation device and a scanning irradiation device, both for irradiating the irradiation target with the charged particle beams; a beam transport system for transporting the charged particles beam extracted from the charged particle beam generator, to selected one of the two irradiation devices; and a central controller that modifies operating parameters on the charged particle beam generator, according to the irradiation method adopted for the selected irradiation device.
摘要翻译: 为了确保照射精度和安全性,即使使用采用不同的照射方式的照射装置,在此公开了一种带电粒子束照射被照射靶的带电粒子束照射装置,包括:带电粒子束发生器,用于产生带电粒子 梁; 被动散射照射装置和扫描照射装置,用于向照射目标照射带电粒子束; 用于将从带电粒子束发生器提取的带电粒子束传送到两个照射装置中的一个的光束传输系统; 以及根据所选择的照射装置采用的照射方法修改带电粒子束发生器的工作参数的中央控制器。
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