Your search keyword '"Liu, Chunliang"' showing total 4 results

1. Optimization of the electron collection efficiency of a large area MCP-PMT for the JUNO experiment.

Author

Chen, Lin, Tian, Jinshou, Liu, Chunliang, Wang, Yifang, Zhao, Tianchi, Liu, Hulin, Wei, Yonglin, Sai, Xiaofeng, Chen, Ping, Wang, Xing, Lu, Yu, Hui, Dandan, Guo, Lehui, Liu, Shulin, Qian, Sen, Xia, Jingkai, Yan, Baojun, Zhu, Na, Sun, Jianning, and Si, Shuguang

Subjects

*PHOTOMULTIPLIERS, *ELECTRON distribution, *ELECTRODES, *MICROCHANNEL plates, *PROTOTYPES, *PHOTOELECTRONS, *NEUTRINO detectors

Abstract

A novel large-area (20-inch) photomultiplier tube based on microchannel plate (MCP-PMTs) is proposed for the Jiangmen Underground Neutrino Observatory (JUNO) experiment. Its photoelectron collection efficiency C e is limited by the MCP open area fraction ( A open ). This efficiency is studied as a function of the angular ( θ ), energy ( E ) distributions of electrons in the input charge cloud and the potential difference ( U ) between the PMT photocathode and the MCP input surface, considering secondary electron emission from the MCP input electrode. In CST Studio Suite, Finite Integral Technique and Monte Carlo method are combined to investigate the dependence of C e on θ , E and U . Results predict that C e can exceed A open , and are applied to optimize the structure and operational parameters of the 20-inch MCP-PMT prototype. C e of the optimized MCP-PMT is expected to reach 81.2%. Finally, the reduction of the penetration depth of the MCP input electrode layer and the deposition of a high secondary electron yield material on the MCP are proposed to further optimize C e . [ABSTRACT FROM AUTHOR]

Published

2016

2. Silicon drift detector applied to X-ray pulsar navigation.

Author

Xu, Neng, Sheng, Lizhi, Su, Tong, Chen, Chen, Li, Yao, Zhao, Baosheng, and Liu, Chunliang

Subjects

*SILICON detectors, *PULSARS, *X-ray detection, *TIME measurements, *NAVIGATION

Abstract

Abstract In this paper, a focused detection system for X-ray pulsar-based Navigation (XNAV) is designed based on Silicon Drift Detector (SDD). The detector electronics mainly adopts the digital trapezoidal shaping method to measure the Times-Of-Arrival (TOAs) and energy of photons. The time measurement accuracy is better than 500ns. The energy resolution is 191eV at 8.05keV, and the maximum count rate is 500kcps between 1 and 12keV. In the semi-physical simulation experiment, the filtering of noise photons by energy discrimination significantly improves the correlation degree between the cumulative pulse profile and the standard profile. [ABSTRACT FROM AUTHOR]

Published

2019

3. Simulation of the effects of coated material SEY property on output electron energy distribution and gain of microchannel plates.

Author

Chen, Lin, Wang, Xingchao, Tian, Jinshou, Liu, Chunliang, Liu, Hulin, Chen, Ping, Wei, Yonglin, Sai, Xiaofeng, Sun, Jianning, Si, Shuguang, Wang, Xing, Lu, Yu, Tian, Liping, Hui, Dandan, and Guo, Lehui

Subjects

*SECONDARY electron emission, *ELECTRON energy states, *SPECTRAL energy distribution, *MICROREACTORS, *MICROCHANNEL plates

Abstract

To obtain a high spatial resolution of a image intensifier based on microchannel plate (MCP), the long tail in the exit energy distribution of the output electrons (EDOE) is undesirable. The existing solution is increasing the penetration depth of the MCP output electrode, which will result in a serious gain reduction. Coating the MCP output electrode with efficient secondary electron yield (SEY) materials is supposed to be an effective approach to suppress the unfavorable tail component in the EDOE without negative effects on the gain. In our work, a three-dimensional MCP single channel model is developed in CST STUDIO SUITE to systematically investigate the dependences of the EDOE and the gain on the SEY property of the coated material, based on the Finite Integral Technique and Monte Carlo method. The results show that besides the high SEY of the coated material, the low incident energy corresponding to the peak SEY is another essential element affecting the electron yield in the final stage of multiplication and suppressing the output energy spread. [ABSTRACT FROM AUTHOR]

Published

2016

4. Simulation of the electron collection efficiency of a PMT based on the MCP coated with high secondary yield material.

Author

Chen, Lin, Tian, Jinshou, Zhao, Tianchi, Liu, Chunliang, Liu, Hulin, Wei, Yonglin, Sai, Xiaofeng, Chen, Ping, Wang, Xing, Lu, Yu, and Hui, Dandan

Subjects

*ELECTRON capture, *PHOTOMULTIPLIERS, *MICROCHANNEL plates, *THIN film deposition, *SECONDARY electron emission

Abstract

Owning to the serious loss of photoelectrons striking at the input electrode of traditional microchannel plate (MCP), photoelectron collection efficiency (CE) of photomultiplier tubes based on MCP (MCP-PMTs) fluctuates around the MCP open area fraction and cannot make a breakthrough. Depositing a thin film of high secondary electron yield material on the MCP is proposed as an effective approach to improve the CE. The available simulation and experimental data to validate it, however, is sparse. In our work, a three-dimensional small area MCP model is developed in CST Studio Suite to evaluate the collection efficiencies of PMTs based on the traditional MCP and the coated one, respectively. Results predict that CE of the PMT based on the coated MCP has a significant increase and a better uniformity, which is expected to reach 100%. [ABSTRACT FROM AUTHOR]

Published

2016