RF design and tuning of a deuteron RFQ for detecting impurity deposition on a tokamak

Liu, S.; Bai, Qingwen; Wei, Y.X.; Lu, Yuanrong; Wang, Z.; Han, M.Y.; Li, H.P.; Tan, Qiuyun; Wei, Tianhao; Xia, Yuqiong; Zheng, Pengfei

doi:10.1088/1748-0221/17/01/p01030

Cited by 4 publications

(2 citation statements)

References 19 publications

(21 reference statements)

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“…After the fabrication and assembly of the RFQ cavity, RF measurements were performed to check the RF properties of the cavity and the quality of the electric field. The intrinsic Q-value after high-power tests is much better than the measurement value of 12,834 in the RF measurements [19], indicating that the high-power tests can improve the conductivity about 6.8% higher of the inner copper surface of the cavity. We compared the measured Q meas and f meas with the simulated value, the required power P req of the cavity is 48.2 kW by:…”

Section: 𝑄 = 𝜔 𝑊 𝑃mentioning

confidence: 71%

Development of a Radio-Frequency Quadrupole Accelerator for the HL-2A/2M Tokamak Diagnostic System

Liu

Wei

et al. 2022

Applied Sciences

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In order to figure out the migration and deposition of impurities on the first wall of HL-2A/2M tokamak, Peking University and Southwestern Institute of Physics are co-developing a deuteron RFQ as part of the in situ ion-beam diagnostic for the material. The RFQ, which operates at 162.5 MHz, is designed to accelerate a 10-mA deuteron beam from 40 keV up to 1.5 MeV. Key design considerations and the final design parameters are presented. The RFQ has been conditioned at a 1% duty factor for 80 h at RF cavity power of 55 kW. The specific shunt impedance of the cavity is 221 kΩ·m by measuring the bremsstrahlung spectrum. The intrinsic Q-value after the high-power tests measured by the Ring-Down method is 13,780. Beam commissioning has been taken place during the first half of 2021, and the beam measurements include beam current and energy of 2H+ ion. A 10 mA 2H+ beam was successfully accelerated through the RFQ.

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Section: 𝑄 = 𝜔 𝑊 𝑃mentioning

confidence: 71%

Development of a Radio-Frequency Quadrupole Accelerator for the HL-2A/2M Tokamak Diagnostic System

Liu

Wei

et al. 2022

Applied Sciences

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“…We have designed a four-vane RFQ, operating at 162. 5 MHz, which has the ability to transport, bunch and accelerate a 10-mA deuteron beam [3]. The main parameters of the RFQ are summarized in table 1.…”

Section: Introductionmentioning

confidence: 99%

Design of PLC and EPICS based control system for a deuteron RFQ

Liu

Wei

et al. 2022

J. Inst.

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Peking University and Southwestern Institute of Physics are jointly developing a new deuteron RFQ to study the migration and deposition of impurities on the first wall of a tokamak facility. This RFQ will accelerate a 10-mA deuteron beam from 40 keV up to 1.5 MeV at a duty factor of 1%. In this paper, the detailed design of the prototype control system based on a Siemens PLC and EPICS/CSS software environment for the RFQ accelerator is presented. The system is composed by many kinds of sub-systems developed using different hardware solutions. The interlock protection mechanism is introduced into the control system. The EPICS Archiver Appliance is used to provide the service of data archiving and retrieval. The system has been successfully implemented for RF conditioning and beam commissioning.

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Cavity tuning and beam commissioning of the radio-frequency quadrupole linac for a transportable neutron source

Li,

Wang,

et al. 2024

AIP Advances

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A transportable, compact, accelerator-based neutron source is under development at Xi’an Jiaotong University. At the heart of the linear accelerator is a radio-frequency quadrupole (RFQ) unit that has been designed to accelerate a proton beam from 30 keV to 2.5 MeV with a peak current of 12 mA and a duty factor of 3%. Recently, the manufacturing of the RFQ cavity has been completed. Cavity tuning, including field unevenness, resonant frequency, and rf coupling coefficient, was carried out after finishing brazing and assembly. The quadrupole perturbative component was controlled within ±2.0%, and the two dipole components were about ±2.5%. The value of the intrinsic Q was 9609, 89% of that of the theoretical simulation. We have completed the installation of the RFQ experimental setup and performed beam commissioning experiments. The output beam current reached 10.6 mA with a transmission efficiency of 93.8%.

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RF design and tuning of a deuteron RFQ for detecting impurity deposition on a tokamak

Cited by 4 publications

References 19 publications

Development of a Radio-Frequency Quadrupole Accelerator for the HL-2A/2M Tokamak Diagnostic System

Development of a Radio-Frequency Quadrupole Accelerator for the HL-2A/2M Tokamak Diagnostic System

Design of PLC and EPICS based control system for a deuteron RFQ

Cavity tuning and beam commissioning of the radio-frequency quadrupole linac for a transportable neutron source

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