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    • 2. 发明申请
    • ION ACCELERATION SYSTEM FOR HADRONTHERAPY
    • 离子加速系统
    • WO2006081847A1
    • 2006-08-10
    • PCT/EP2005/011566
    • 2005-10-28
    • FONDAZIONE PER ADROTERAPIA ONCOLOGICA - TERA
    • AMALDI, UgoCRESCENTI, MassimoZENNARO, Riccardo
    • H05H9/04H05H13/00
    • H05H13/00G21K5/04H05H9/04
    • System for ion acceleration for medical purposes comprising a conventional or superconducting cyclotron, a radiofrequency linear accelerator (Linac), a Medium Energy Beam Transport line (MEBT) connected, at the low energy side, to the exit of the cyclotron, and at the other side, to the entrance of the linear radiofrequency accelerator, as well as a High Energy Beam Transport line (HEBT) connected at high energy side to the radiofrequency linear accelerator exit and at the other end, to a system for the dose distribution to the patient. The high frequency of operation of the Linac allows for a reduced consumption and a remarkable compactness facilitating its installation in hospital structures. The use of a modular LINAC allows varying in active way the energy and the current of the therapeutic beam, having a small emittance and a time structure adapted to the dose distribution based on the technique known as the "spot scanning".
    • 用于医疗用途的用于离子加速的系统包括常规或超导回旋加速器,在低能量侧连接到回旋加速器的出口的射频线性加速器(Linac),中等能量束输送线(MEBT)以及另一个 侧向线性射频加速器的入口以及在高能量侧连接到射频线性加速器出口的另一端的高能束输送线(HEBT)连接到用于剂量分配给患者的系统 。 线性面包线的高频率运行允许减少消耗和显着的紧凑性,便于其在医院结构中的安装。 使用模块化的LINAC允许主动地改变基于被称为“点扫描”的技术的具有适合于剂量分布的小的发射率和时间结构的治疗束的能量和电流。
    • 3. 发明申请
    • LINAC FOR ION BEAM ACCELERATION
    • LINAC用于离子束加速
    • WO2004054331A1
    • 2004-06-24
    • PCT/EP2003/006254
    • 2003-06-13
    • FONDAZIONE PER ADROTERAPIA ONCOLOGICA - TERA
    • AMALDI, UgoCRESCENTI, MassimoZENNARO, Riccardo
    • H05H9/04
    • H05H9/00H05H7/22
    • A drift tube (15) linear accelerator (linac) (4) that can be used for the acceleration of low energy ion beams is disclosed. The particles enter the linac (4) at low energy and are accelerated and focused along a straight line in a plurality of resonant accelerating structures (8) interposed by coupling structures (9) up to the desired energy, for instance for therapeutic needs. In the accelerating structures (8), excited by an H-type resonant electromagnetic field, a plurality of accelerating gaps (20) is provided between said drift tubes (15), said drift tubes being supported by stems, for instance alternatively horizontally (16) and vertically (17) disposed. A basic module (7) is disclosed, composed of two accelerating structures (8) and an interposed coupling structure (9), or if necessary a modified coupling structure (9A) connected to a RF power generator (11), being linked if necessary to a vacuum system (13 ) and equipped if necessary with one or more quadrupoles (18). Said basic module (7) can be expanded to get modules (7A) that present an odd number n of coupling structures (9, 9A) which still if necessary are equipped with one or more quadrupoles (18), and an even number N = n + 1 of accelerating structures (8). The proposed linac (4) contains one or more modules (7, 7A) and allows obtaining a large accelerating gradient and a very compact structure.
    • 公开了一种可用于加速低能量离子束的漂移管(15)直线加速器(直线加速器)(4)。 颗粒以低能量进入直线加速器(4),并且在多个谐振加速结构(8)中沿着直线加速聚焦,所述多个谐振加速结构(8)插入通过耦合结构(9)达到期望的能量,例如用于治疗需要。 在由H型共振电磁场激发的加速结构(8)中,在所述漂移管(15)之间设置有多个加速间隙(20),所述漂移管由杆支撑,例如水平地(16 )和垂直(17)。 公开了由两个加速结构(8)和插入的耦合结构(9)组成的基本模块(7),或者如果需要,连接到RF发电机(11)的修改的耦合结构(9A),如果需要则链接 到真空系统(13)并且如果必要的话配备一个或多个四极杆(18)。 所述基本模块(7)可以被扩展以获得呈现奇数N个耦合结构(9,9A)的模块(7A),其仍然需要配备有一个或多个四极(18),偶数N = n + 1加速结构(8)。 所提出的直线加速器(4)包含一个或多个模块(7,7A),并且允许获得大的加速梯度和非常紧凑的结构。