序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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201 | Particle accelerator having electromechanical motor and method of operating and manufacturing the same | JP2011278145 | 2011-12-20 | JP2012134146A | 2012-07-12 | TOMAS ERIKSSON; BERT HOLMGREN |
PROBLEM TO BE SOLVED: To provide a particle accelerator having a moveable mechanical device located within an acceleration chamber.SOLUTION: A particle accelerator (102) includes an electrical field system (106) and a magnetic field system (108) that are configured to direct charged particles along a desired path within an acceleration chamber (206). The particle accelerator also includes mechanical devices (280, 282) that are located within the acceleration chamber. The mechanical devices are configured to be selectively moved to different positions within the acceleration chamber. The particle accelerator also includes electromechanical (EM) motors (290, 292) having a connector component (456) and piezoelectric elements (512) that are operatively coupled to the connector component. The connector component is operatively attached to the mechanical device. The EM motors drive the connector component when the piezoelectric elements are activated, thereby moving the mechanical devices. | ||||||
202 | Of the ion source arrangement and a method and apparatus for regulating | JP2005176120 | 2005-06-16 | JP4917277B2 | 2012-04-18 | ヤン−オロフ・バーグストロム; ヨナス・オヴ・ノーリング |
203 | Charge exchange device | JP2009104606 | 2009-04-23 | JP4756285B2 | 2011-08-24 | 毅 斎藤; 和知 末永; 雅考 長谷川; 澄男 飯島 |
A charge exchange member having a new function is provided, which solves problems of fragility of a diamond thin film and a low electron density of a CNTS that are challenges of a charge exchange foil. The present invention relates to a charge exchange device comprising a diamond thin film 11 and a non-woven carbon nanotube sheet 12, in which the diamond thin film 11 is deposited on the non-woven carbon nanotube sheet 12. | ||||||
204 | Particle beam accelerator | JP2004095534 | 2004-03-29 | JP4714884B2 | 2011-06-29 | 岩 三浦; 稔宏 太田; 亨 猪股; 藤原 守; 秀博 飯田 |
205 | Power unit | JP2006272858 | 2006-10-04 | JP4697460B2 | 2011-06-08 | 貴史 中川; 弘行 大須賀; 敏之 尾崎; 太一郎 民田; 郁朗 菅 |
206 | High voltage insulation equipment and ion acceleration device equipped with the high-voltage isolation device | JP2010524501 | 2008-09-12 | JP2010539373A | 2010-12-16 | コルンフェルト ギュンター; コッホ ノルベルト; ハーマン ハンス−ペーター |
The invention relates to an ion accelerator arrangement comprising an electrostatic acceleration field between a cathode to which a frame potential is applied and an anode to which a high-voltage potential is applied. The ion accelerator arrangement further comprises a gas supply system into which a gas-permeable, open porous insulator member is introduced. Also described is a high-voltage insulator arrangement that comprises such an insulator member and is suitable, inter alia, for such an ion accelerator arrangement and for the corona-resistant insulation of other components to which a high voltage is applied. | ||||||
207 | Charge exchange device | JP2009104606 | 2009-04-23 | JP2010257664A | 2010-11-11 | HASEGAWA MASATAKA; SAITO TAKESHI; SUENAGA KAZUTOMO; IIJIMA SUMIO |
<P>PROBLEM TO BE SOLVED: To provide a charge exchange member having a novel function, which solves problems of fragility of a diamond thin film and a low electron density of a CNTS that are challenges of a charge exchange foil. <P>SOLUTION: The charge exchange device includes a diamond thin film and a non-woven carbon nanotube sheet, in which the diamond thin film is deposited on the non-woven carbon nanotube sheet. The diamond thin film is formed by a microwave plasma CVD method using the CNTS that is a substrate for laminated body as a carbon source for diamond thin film synthesis. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
208 | Charged particle accelerator | JP2008035441 | 2008-02-18 | JP4576437B2 | 2010-11-10 | 裕 森田; 俊之 横須賀; 良三 武内 |
209 | Gas injection system for special particle beam therapy equipment and method for operating gas injection system | JP2010094622 | 2010-04-16 | JP2010251324A | 2010-11-04 | UHL THOMAS |
PROBLEM TO BE SOLVED: To switch various gas for flowing into an ion source as quick as possible. SOLUTION: A gas injection system, for special particle beam therapy equipment, includes a first conduit for leading gas into an ion source, a second and a third conduits for two separated gas flows, and a multi-direction switching valve. The second and the third conduits open to an inlet of the multi-direction switching valve, the first conduit is connected with an outlet of the multi-direction switching valve. The multi-direction switching valve is formed so as one or the other inlet to be selectively connected with the outlet, thereby, the second or the third conduit is connected with the first conduit with a fluid technology. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
210 | Integrated radiation shielding system | JP22966199 | 1999-08-16 | JP4276339B2 | 2009-06-10 | ヴィベリ ペーテル; オーロフ ベリストレム ヤン |
211 | Molded dielectric composite linear accelerator | JP2008540288 | 2006-11-14 | JP2009516333A | 2009-04-16 | サムパヤン,ステファン; サンダース,デイヴィッド,エム.; ストラー,エイッチ.,エム.; スレネス,カーク |
【課題】
【解決手段】 無溶媒製造プロセスで導体電極と一体形成される成型誘電複合層を有し、成型誘電複合体が好ましくは熱硬化性樹脂などの有機高分子中にナノ粒子充填材を有している線形加速器。 この成型誘電複合体を組み入れることにより、加速器の伝送ラインの臨界絶縁層の誘電定数が高められると同時に、加速器において高い誘電強度が維持される。 【選択図】図1 |
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212 | Voltage division resistor for acceleration tube, accelerating tube, and accelerator | JP2004305299 | 2004-10-20 | JP4250763B2 | 2009-04-08 | 了一 小野; 茂弘 西野 |
213 | Accelerating tube conditioning device and method | JP2007029729 | 2007-02-08 | JP2008198394A | 2008-08-28 | AOI TATSUFUMI; KAJINISHI KUNIYUKI; YAMASHITA ICHIRO; URANO SUSUMU; NOMURA SHINJI |
<P>PROBLEM TO BE SOLVED: To provide an accelerating tube conditioning device and an accelerating tube conditioning method, for automatic conditioning of an accelerating tube, stably and surely preventing damage of an accelerating tube. <P>SOLUTION: The device is provided with a reflected wave power collecting part 33 collecting reflected wave power from a sensor measuring reflected wave power of reflected waves reflected at an accelerating tube, high-frequency frequency regulating part 34 generating high-frequency frequencies based on the reflected wave power, and a high-frequency source control part 35 controlling a high-frequency source so as a frequency of high-frequency waves for conditioning to be high-frequency frequency. The high-frequency frequency indicates a constant value when the reflected wave power is smaller than a given value, and is to be a value at which the high-frequency wave for conditioning should resonate at the accelerating tube, when the reflected wave power is larger than the given value. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
214 | Proton release therapeutic system | JP2007509893 | 2005-02-19 | JP2007534391A | 2007-11-29 | ペドローニ・エーロス |
【解決手段】
対象物(M)内の所定容積(T)の強度調整陽子治療用システムが開示され、a)ビーム強度に関して調整できる陽子ビーム(B)を発生させるための陽子源と;b)陽子ビーム(B)中の所望陽子エネルギーに陽子ビーム(B)中の陽子のエネルギーを弱めるために陽子ビーム(B)中に任意に配置できる分解器と;c)多数の陽子ビームを曲げ及び焦点合せ又はそのいずれか一方を行うユニットと;d)対象物(M)の所定容量(T)を貫通する陽子ビーム(B)用の出口を有するビームノズル(N)と;e)ノズル(N)の上流に配置されているビーム曲げ磁石(A3)と;f)陽子ビーム(B)がビーム曲げ磁石(A3)に入る前に陽子ビーム(B)を両方向T,U)に掃引するために前記ビーム曲げ磁石(A3)の上流に配置されている一対の掃引磁石(WT、WU)と;g)前記ビームノズル(N)は10乃至30cm 2の範囲における陽子ビーム(B)に実質的に垂直な横断面走査領域(SF)を定義しており、そしてh)前記掃引磁石(WT、WU)と前記ビーム曲げ磁石(A3)が完全な横断面走査領域(SF)上に平行なビーム配向を保証するように制御されることから成る。 |
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215 | Charge conversion film, a method of manufacturing a charge conversion film, and charge exchange membrane of the manufacturing equipment | JP2001366760 | 2001-11-30 | JP3893451B2 | 2007-03-14 | 是夫 荒木田 |
216 | Particle accelerator | JP2004095534 | 2004-03-29 | JP2005285448A | 2005-10-13 | IIDA HIDEHIRO; INOMATA TORU; FUJIWARA MAMORU; MIURA IWAO; OTA TOSHIHIRO |
PROBLEM TO BE SOLVED: To provide a particle accelerator miniaturized and lightened by reducing radiations generated when a low energy beam is irradiated on a substance. SOLUTION: This particle accelerator is composed of: a vacuum chamber 14; a magnet 10 to impress a fixed magnetic field on the vacuum chamber 14; an accelerating electrode 18 to generate an electric field in the direction perpendicular to the direction of the magnetic field generated by the magnet 10 in the vacuum chamber 14; an extraction electrode 24 to extract charged particles accelerated in the vacuum chamber 14; and a target cell 26 provided at the position where the charged particles extracted by the extraction electrode 24 hit. A part of each part composing the partcle accelerator is made of a material containing an element with a larger atomic number than that for copper. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
217 | Electron tube device | JP658295 | 1995-01-19 | JP3580879B2 | 2004-10-27 | 務 稲鶴 |
218 | Apparatus and method for adjusting the intensity of the beam extracted from a particle accelerator | JP2003504721 | 2002-06-03 | JP2004529483A | 2004-09-24 | ボーフィール,ベルトラント; マルハント,ブルノ |
【解決手段】本発明は、例えば陽子治療に用いるサイクロトロン等の粒子加速器から抽出したビームの強度を調節するための装置(10)に関し、前記粒子はイオン源から発生させられる。 本発明は、少なくとも、前記加速器の出力において測定した前記ビーム強度を表すデジタル信号I Rと前記ビーム強度の設定値I Cとの間の差εを求める比較器(90)と、前記差εに基づいて前記ビーム強度の訂正値I Pを求めるスミス法予測器(80)と、前記ビーム強度の訂正値I Pに基づいて前記イオン源(20)のアーク電流の供給のための設定値I Aを供給する逆対応テーブル(40)とを含むことを特徴とする。 | ||||||
219 | Linear electron accelerator | JP23120697 | 1997-08-27 | JP3411196B2 | 2003-05-26 | 進 西原 |
220 | How to handle the target volume in the particle beam and apparatus for applying this method | JP2000591842 | 1999-12-20 | JP2002534138A | 2002-10-15 | ヨンゲン,イーブス |
(57)【要約】 【解決手段】 本発明は標的容積を、粒子ビーム、特に陽子ビームで処理する方法に係り、この方法は加速器を利用して粒子ビームを発生させ、このビームから、標的容積に向けられた狭いスポットを形成するステップから成り、スポットの走査速度と粒子ビームの強さとが同時変化する。 |