Variable rotating capacitor for synchrocyclotron
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01G-005/40
H01G-005/06
H01G-005/12
H05H-007/02
H05H-013/02
H01G-005/011
출원번호
US-0982252
(2012-01-25)
등록번호
US-9355784
(2016-05-31)
우선권정보
EP-11152468 (2011-01-28)
국제출원번호
PCT/EP2012/051081
(2012-01-25)
§371/§102 date
20131208
(20131208)
국제공개번호
WO2012/101143
(2012-08-02)
발명자
/ 주소
Abs, Michel
출원인 / 주소
Ion Beam Applications, SA
대리인 / 주소
Casieri, Christopher
인용정보
피인용 횟수 :
3인용 특허 :
0
초록▼
A variable rotating capacitor or RotCo 5 that can be connected via a transmission line 3 to the dee 2 of a synchrocyclotron 1 so as to adjust a resonant frequency of the synchrocyclotron as a function of time and which comprises a cylindrical rotor 10 and a cylindrical stator 20 that are coaxial wit
A variable rotating capacitor or RotCo 5 that can be connected via a transmission line 3 to the dee 2 of a synchrocyclotron 1 so as to adjust a resonant frequency of the synchrocyclotron as a function of time and which comprises a cylindrical rotor 10 and a cylindrical stator 20 that are coaxial with the Z axis. The rotor comprises a plurality of circumferentially-distributed rotor electrodes 11 extending parallel to its rotation axis Z. The stator comprises a plurality of circumferentially-distributed stator electrodes 21 extending parallel to the rotation axis Z. Each stator electrode 21 consists of a single metal plate and all said plates are distributed over one and the same stator circumference 25. This makes it possible for the RF currents in the electrodes to be better distributed and thus reduces the local overheating. The present invention also relates to a synchrocyclotron comprising such a RotCo.
대표청구항▼
1. A synchrocyclotron (1) comprising an RF system (2,3,4) for accelerating charged particles in the synchrocyclotron, said RF system comprising a transmission line (3), a dee (2) and a variable rotating capacitor or RotCo (5), wherein the RotCo (5) is adapted to be connected via the transmission lin
1. A synchrocyclotron (1) comprising an RF system (2,3,4) for accelerating charged particles in the synchrocyclotron, said RF system comprising a transmission line (3), a dee (2) and a variable rotating capacitor or RotCo (5), wherein the RotCo (5) is adapted to be connected via the transmission line (3) to the dee (2) of the synchrocyclotron (1) and is adapted to modify a resonant frequency of the synchrocyclotron as a function of time, said RotCo comprising: a rotor (10) having a rotation axis (Z) and having a plurality of circumferentially-distributed rotor electrodes (11) extending parallel to the rotation axis (Z), and the rotor (10) comprises a cylindrical cage (15) of axis Z, said cage (15) having a plurality of radially-projecting poles (11) forming said rotor electrodes respectively, each pole (11) having, in cross section, a profile that flares outward toward a corresponding stator electrode (21);anda stator (20), coaxial with the rotor (10), and having a plurality of circumferentially-distributed stator electrodes (21) extending parallel to the rotation axis (Z),each rotor electrode (11) being adapted to face at least one stator electrode (21) during rotation of the rotor (10) in order to form a capacitor, wherein each stator electrode (21) consists of a single metal plate (21) and wherein all the stator electrodes (21) are distributed on a same stator circumference (25) centered on the rotation axis (Z),each metal plate (21) and a distal face (11a) of each pole (11) are curved, each having a radius of curvature centered on the Z axis,and a radial distance (D1) separating a rotor electrode (11a) from a stator electrode (21) is between 1 mm and 5 mm. 2. The synchrocyclotron 1 as claimed in claim 1, wherein the rotor 10 has an orthogonal symmetry of order N relative to the rotation axis (Z), N being equal to the number of rotor electrodes. 3. The synchrocyclotron 1 as claimed in claim 2, wherein N is between 4 and 10. 4. The synchrocyclotron 1 as claimed in claim 3, wherein N is equal to 8. 5. The synchrocyclotron 1 as claimed in claim 1, wherein at least one of the rotor electrodes (11) has, at its axial end, an axial concavity (12). 6. A synchrocyclotron 1 comprising an RF system (2,3,4) for accelerating charged particles in the synchrocyclotron, said RF system comprising a transmission line (3), a dee (2) and a variable rotating capacitor or RotCo (5), wherein the RotCo (5) is adapted to be connected via the transmission line (3) to the dee (2) of the synchrocyclotron (1) and is adapted to modify a resonant frequency of the synchrocyclotron as a function of time, said RotCo comprising: a rotor (10) having a rotation axis (Z) and having a plurality of circumferentially-distributed rotor electrodes (11) extending parallel to the rotation axis (Z); anda stator (20), coaxial with the rotor (10), and having a plurality of circumferentially-distributed stator electrodes (21) extended parallel to the rotation axis (Z), each rotor electrode (11) being adapted to face at least one stator electrode (21) during rotation of the rotor (10) in order to form a capacitor, wherein each stator electrode (21) consists of a single metal plate (21) and wherein all the stator electrodes (21) are distributed on a same stator circumference (25) centered on the rotation axis (Z),wherein the rotor electrodes comprise a first group of rotor electrodes (11-1) distributed over a first rotor circumference (80) and a second group of rotor electrodes (11-2) distributed over a second rotor circumference (90), wherein a radius (R1) of the stator circumference (25) is between a radius (R2) of the first rotor circumference (80) and a radius (R3) of the second rotor circumference (90), wherein the first group of rotor electrodes (11-1) comprises the same number of electrodes as the second group of rotor electrodes (11-2), wherein the electrodes of the first group (11-1) are arranged opposite the electrodes of the second group (11-2) respectively and wherein the first and second groups of rotor electrodes form a single electromechanical assembly. 7. The synchrocyclotron 1 as claimed in claim 6, wherein the first group of rotor electrodes (11-1) comprises eight electrodes spaced apart by 45 degrees. 8. The synchrocyclotron 1 as claimed in claims 6 or 7, wherein a longitudinal cross section of the rotor (10) has substantially the shape of a “W” and wherein the stator electrodes (21) are capable of being inserted between an external leg and an internal leg of the “W” when the rotor (10) is rotating. 9. A synchrocyclotron 1 comprising an RF system (2,3,4) for accelerating charged particles in the synchrocyclotron, said RF system comprising a transmission line (3), a dee (2) and a variable rotating capacitor or RotCo (5), wherein the RotCo (5) is adapted to be connected via the transmission line (3) to the dee (2) of the synchrocyclotron (1) and is adapted to modify a resonant frequency of the synchrocyclotron as a function of time, said RotCo comprising: a rotor (10) having a rotation axis (Z) and having a plurality of circumferentially-distributed rotor electrodes (11) extending parallel to the rotation axis (Z); anda stator (20), coaxial with the rotor (10), and having a plurality of circumferentially-distributed stator electrodes (21) extending parallel to the rotation axis (Z), each rotor electrode (11) being adapted to face at least one stator electrode (21) during rotation of the rotor (10) in order to form a capacitor, wherein each stator electrode (21) consists of a single metal plate (21) and wherein all the stator electrodes (21) are distributed on a same stator circumference (25) centered on the rotation axis (Z), wherein each stator electrode (21) has a straight first flank (26) parallel to the rotation axis (Z) and a second flank (27) having a profile that varies such that the distance between the first flank and the second flank decreases along the direction of the rotation axis (Z) and over at least part of the length of said stator electrode (21). 10. The synchrocyclotron 1 as claimed in claim 6, wherein at least one of the rotor electrodes (11) has, at its axial end, an axial concavity (12). 11. The synchrocyclotron 1 as claimed in claim 6, wherein each stator electrode (21) has a straight first flank (26) parallel to the rotation axis (Z) and a second flank (27) having a profile that varies such that the distance between the first flank and the second flank decreases along the direction of the rotation axis (Z) and over at least part of the length of said stator electrode (21).
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이 특허를 인용한 특허 (3)
Zwart, Gerrit Townsend; Jones, Mark R.; Cooley, James, Collimator and energy degrader.
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