关键词: 自由电子激光/
太赫兹光/
光阴极高压直流电子枪/
射频超导加速器
English Abstract
Experimental study on the stimulated saturation of terahertz free electron laser
Li Ming1,Yang Xing-Fan1,
Xu Zhou2,
Shu Xiao-Jian3,
Lu Xiang-Yang4,
Huang Wen-Hui5,
Wang Han-Bin1,
Dou Yu-Huan2,
Shen Xu-Ming1,
Shan Li-Jun1,
Deng De-Rong1,
Xu Yong1,
Bai Wei1,
Feng Di-Chao1,
Wu Dai1,
Xiao De-Xin1,
Wang Jian-Xin1,
Luo Xing1,
Zhou Kui1,
Lao Cheng-Long1,
Yan Long-Gang1,
Lin Si-Fen1,
Zhang Peng1,
Zhang Hao1,
He Tian-Hui1,
Pan Qing1,
Li Xiang-Kun1,
Li Peng1,
Liu Yu1,
Yang Lin-De1,
Liu Jie1,
Zhang De-Min1,
Li Kai1,
Chen Ya-Nan1
1.Institute of Applied Electronics, China Academy of Engineering Physics, Mianyang 621900, China;
2.Sichuan Defense Science and Technology Industry Office, Chengdu 610051, China;
3.Institute of Applied Physics and Computational Mathematics, Beijing 100094, China;
4.Institute of Heavy Ion Physics, Peking University, Beijing 100871, China;
5.Department of Engineering Physics, Tsinghua University, Beijing 100084, China
Fund Project:Project supported by the National Key Scientific Instrument and Equipment Development Project of China (Grant No. 2011YQ130018) and the National Natural Science Foundation of China (Grant Nos. 11475159, 11505173, 11505174, 11575264, 11605190, 11105019).Received Date:09 November 2017
Accepted Date:21 December 2017
Published Online:20 April 2019
Abstract:China Academy of Engineering Physics terahertz free electron laser (CAEP THz FEL,CTFEL) is the first THz FEL oscillator in China,which is jointly built by CAEP,Peking University and Tsinghua University.It is designed as a high-repetition-rate and high-duty-cycle linac-based FEL facility.This THz FEL mainly consists of a gallium arsenide (GaAs) photocathode high-voltage direct current (DC) gun,a superconducting radio frequency (RF) linac,a planar undulator,and a quasi-concentric optical resonator. The DC gun provides a high-brightness electron beam with the bunch charge of about 100 pC and the repetition rate of 54.167~MHz.The normalized emittance of the electron beam is less than 10m,and the energy spread is less than 0.75%.A 24-cell superconducting RF accelerator provides an effective field gradient of about 10 MV/m and energizes the electron beam to 6-8~MeV.The beam then goes through the undulator and generates the spontaneous radiation,which is reflected back and forth in the optical resonator and then stimulated by the electron beam.The first stimulated saturation of CTFEL in the macro-pulse mode was obtained in August,2017.In this paper,the THz spectrum is measured by a Fourier spectrometer (Bruker VERTEX 80 V).The macro-pulse energy is measured by an absolute energy meter from Thomas Keating Instruments.The longitudinal beam length is preliminarily calculated by the auto-correlation curve from the time-domain signal of the spectrometer.The macro-pulse duration is captured by a GeGa cryogenic detector from QMC Instrument.The measurement results indicate that the terahertz laser frequency is continuously adjustable from 2 THz to 3 THz.The macro-pulse average power is more than 10 W and the micro-pulse power is more than 0.3 MW.The single-pass gain is larger than 2.5%.This facility is now working in macro-pulse mode in the first step,also called step one.The minimum macro-pulse duration is about 50s and the maximum is about 2 ms.The macro-pulse repetition is 1 Hz or 5 Hz.The typical pulse duration and repetition rate are 1 ms and 1 Hz,respectively.In the middle of 2018,the duty cycle will upgrade to more than 10% as step two.And the continuous wave (CW) operation will be obtained in step three by the end of 2018.The spectrum adjustment range will also be expanded to cover from 1 THz to 4 THz by then.Some application experiments have been carried out on the platform of CTFEL.This facility will greatly promote the development of THz science and its applications in material science,chemistry science,biomedicine science and many other cutting-edge areas in general.
Keywords: free electron laser/
terahertz/
photocathode high-voltage direct-current electron gun/
radio-frequency superconducting accelerator