Design study of 1MHZ induction cavity for induction synchrotron

Kota Torikai; Yoshio Arakida; Shigemi Inagaki; Kunio Koseki; Eiji Nakamura; Takeshi Toyama; Masayoshi Wake; Junichi Kishiro; Ken Takayama; Kenji Ishibashi

Design study of 1MHZ induction cavity for induction synchrotron

Kota Torikai, Yoshio Arakida, Shigemi Inagaki, Kunio Koseki, Eiji Nakamura, Takeshi Toyama, Masayoshi Wake, Junichi Kishiro, Ken Takayama, Kenji Ishibashi

Applied Nuclear Physics

Research output: Contribution to conference › Paper › peer-review

5 Citations (Scopus)

Abstract

An induction cavity was designed for the POP experiment of induction synchrotron using the KEK 12GeV PS. It must be operated at a repetition rate of 667-882 kHz for acceleration from the injection energy to the flat-top energy. Design issues include handling of heat deposit, minimization of voltage droop and coupling impedance, and tolerable jitter. Its Q-value on the cavity assembled following the design was obtained from the longitudinal coupling impedance measurement. Effects of the droop in the acceleration voltage on the synchrotron motion, which has been estimated from the circuit parameter measurement on R, C, and L, was analysed from a longitudinal beam dynamics point of view. The effect of the droop is given by the square of phase delay.

Original language	English
Pages	1784-1786
Number of pages	3
Publication status	Published - 2003
Event	PAC 2003 - Proceedings of the 2003 IEEE Particle Accelerator Conference - Portland, OR, United States Duration: May 12 2003 → May 16 2003

Other

Other	PAC 2003 - Proceedings of the 2003 IEEE Particle Accelerator Conference
Country/Territory	United States
City	Portland, OR
Period	5/12/03 → 5/16/03

All Science Journal Classification (ASJC) codes

General Engineering

Cite this

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title = "Design study of 1MHZ induction cavity for induction synchrotron",

abstract = "An induction cavity was designed for the POP experiment of induction synchrotron using the KEK 12GeV PS. It must be operated at a repetition rate of 667-882 kHz for acceleration from the injection energy to the flat-top energy. Design issues include handling of heat deposit, minimization of voltage droop and coupling impedance, and tolerable jitter. Its Q-value on the cavity assembled following the design was obtained from the longitudinal coupling impedance measurement. Effects of the droop in the acceleration voltage on the synchrotron motion, which has been estimated from the circuit parameter measurement on R, C, and L, was analysed from a longitudinal beam dynamics point of view. The effect of the droop is given by the square of phase delay.",

author = "Kota Torikai and Yoshio Arakida and Shigemi Inagaki and Kunio Koseki and Eiji Nakamura and Takeshi Toyama and Masayoshi Wake and Junichi Kishiro and Ken Takayama and Kenji Ishibashi",

year = "2003",

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note = "PAC 2003 - Proceedings of the 2003 IEEE Particle Accelerator Conference ; Conference date: 12-05-2003 Through 16-05-2003",

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T1 - Design study of 1MHZ induction cavity for induction synchrotron

AU - Torikai, Kota

AU - Arakida, Yoshio

AU - Inagaki, Shigemi

AU - Koseki, Kunio

AU - Nakamura, Eiji

AU - Toyama, Takeshi

AU - Wake, Masayoshi

AU - Kishiro, Junichi

AU - Takayama, Ken

AU - Ishibashi, Kenji

PY - 2003

Y1 - 2003

N2 - An induction cavity was designed for the POP experiment of induction synchrotron using the KEK 12GeV PS. It must be operated at a repetition rate of 667-882 kHz for acceleration from the injection energy to the flat-top energy. Design issues include handling of heat deposit, minimization of voltage droop and coupling impedance, and tolerable jitter. Its Q-value on the cavity assembled following the design was obtained from the longitudinal coupling impedance measurement. Effects of the droop in the acceleration voltage on the synchrotron motion, which has been estimated from the circuit parameter measurement on R, C, and L, was analysed from a longitudinal beam dynamics point of view. The effect of the droop is given by the square of phase delay.

AB - An induction cavity was designed for the POP experiment of induction synchrotron using the KEK 12GeV PS. It must be operated at a repetition rate of 667-882 kHz for acceleration from the injection energy to the flat-top energy. Design issues include handling of heat deposit, minimization of voltage droop and coupling impedance, and tolerable jitter. Its Q-value on the cavity assembled following the design was obtained from the longitudinal coupling impedance measurement. Effects of the droop in the acceleration voltage on the synchrotron motion, which has been estimated from the circuit parameter measurement on R, C, and L, was analysed from a longitudinal beam dynamics point of view. The effect of the droop is given by the square of phase delay.

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M3 - Paper

AN - SCOPUS:4143069177

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T2 - PAC 2003 - Proceedings of the 2003 IEEE Particle Accelerator Conference

Y2 - 12 May 2003 through 16 May 2003

ER -

Design study of 1MHZ induction cavity for induction synchrotron

Abstract

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All Science Journal Classification (ASJC) codes

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