Latest advances of X-ray imaging and biomedical applications beamline at SSRF

doi:10.13538/j.1001-8042/nst.26.020102

Nuclear Science and Techniques ›› 2015, Vol. 26 ›› Issue (2): 020102 doi: 10.13538/j.1001-8042/nst.26.020102

• SYNCHROTRON RADIATION TECHNOLOGY AND APPLICATIONS • Previous Articles Next Articles

Latest advances of X-ray imaging and biomedical applications beamline at SSRF

XIE Hong-Lan (谢红兰),1, y DENG Biao (邓彪),1 DU Guo-Hao (杜国浩),1 FU Ya-Nan (付亚楠),1 CHEN Rong-Chang (陈荣昌),1 ZHOU Guang-Zhao (周光照),1 REN Yu-Qi (任玉琦),1 WANG Yu-Dan (王玉丹),1 XUE Yan-Ling (薛艳玲),1 PENG Guan-Yun (彭冠云),1 HE You (和友),1 GUO Han (郭瀚),1 and XIAO Ti-Qiao (肖体乔)1

1Shanghai Synchrotron Radiation Facility (SSRF), Shanghai Institute of Applied Physics,
Chinese Academy of Sciences, Shanghai 201204, China

Contact: XIE Hong-Lan; XIAO Ti-Qiao E-mail:xiehonglan@sinap.ac.cn; tqxiao@sinap.ac.cn
Supported by:
Supported by the National Natural Science Foundation of China
(Nos. 11475248 and 11105213)

Export Citation

XIE Hong-Lan, DENG Biao, FU Ya-Nan, CHEN Rong-Chang, ZHOU Guang-Zhao, REN Yu-Qi, WANG Yu-Dan, PENG Guan-Yun, HE You, GUO Han, and XIAO Ti-Qiao . Latest advances of X-ray imaging and biomedical applications beamline at SSRF.Nuclear Science and Techniques, 2015, 26(2): 020102 doi: 10.13538/j.1001-8042/nst.26.020102

Abstract

Abstract:

On May 6, 2009, the X-ray imaging and biomedical application beamline (BL13W1) at Shanghai Synchrotron Radiation Facility (SSRF) officially opened to users, with 8–72:5 keV X-rays. The experimental station is equipped with four sets of X-ray CCD detectors of different pixel size (0:19–24 μm) for on-line phase-contrast
imaging and micro-CT imaging with 0:8 μm spatial resolution and 1 ms temporal resolution. An in vivo micro-
CT experiment for a living insect was realized in 4 s. An X-ray fluorescence detector is equipped for X-ray
fluorescence mapping imaging and X-ray fluorescence micro-CT imaging with 50 μm spatial resolution. In order
to meet different requirements from the users, several experimental methods, such as X-ray spiral micro-CT, Xray
local micro-CT, X-ray fast micro-CT, X-ray grating-based differential micro-CT, X-ray fluorescence micro-
CT and X-ray quantitative micro-CT have been developed, and nearly 60 papers related to those developments
for this beamline have been published. Moreover, the beamline has realized the remote fast CT reconstruction,
providing a great convenience for the users to process experimental data at their offices. As of August 2014,
the beamline has offered the user beamtime of (23 145 h), from which 232 user papers have been published,
including 151 SCI papers and 55 papers with SCI impact factor > 3. The quantity and quality of the user paper
outcome keep a steady increase. Some typical user experimental results are introduced.

Key words: X-ray imaging, X-ray in-line phase-contrast imaging, X-ray micro-CT, CT reconstruction, X-ray fluorescence CT

[1]	Hong-Lan Xie, Biao Deng, Guo-Hao Du, Ya-Nan Fu, Han Guo, Yan-Ling Xue, Guan-Yun Peng, Fen Tao, Ling Zhang, Ti-Qiao Xiao. Methodology development and application of X-ray imaging beamline at SSRF [J]. Nuclear Science and Techniques, 2020, 31(10): 102-102.
[2]	Cheng-Jun Tan, Chuan-Xiang Tang, Wen-Hui Huang, Qing-Xiu Jin, Ying-Chao Du, Qun Luo, Pei-Dong Wu, Dong-Hai Liu, Lu-Ming Zhang, Cong Xu. Beam and image experiment of beam deflection electron gun for distributed X-ray sources [J]. Nuclear Science and Techniques, 2019, 30(3): 50-50.
[3]	Dehai YU, Wenbin WEI, Jianhong LIU, Yong GUAN. Simulation study of anode gas and potential distribution of fuel cell based on lattice Boltzmann method [J]. Nuclear Science and Techniques, 2019, 42(1): 10102-010102.
[4]	Cui Zhang, Xiao-Dong Pan, Jing-Jie Ding, Hong-Jie Shang, Zhang-Gu Chen, Yong-Fan Pu, Gong-Ping Li. Simulation study on characteristics of information extraction in multiple-image radiography [J]. Nuclear Science and Techniques, 2018, 29(5): 72-72.
[5]	Cui Zhang, Xiao-Dong Pan, Hong-Jie Shang, Yan-Hong Luo, Gong-Ping Li. Improvements to conventional X-ray tube-based cone-beam computed tomography system [J]. Nuclear Science and Techniques, 2018, 29(3): 43-43.
[6]	Sheng-Xiang Wang, Ren-Fang Hu, Kun Gao, Faiz Wali, Gui-Bin Zan, Da-Jiang Wang, Zhi-Yun Pan, Shi-Qiang Wei. Non-destructive study of fruits using grating-based X-ray imaging [J]. Nuclear Science and Techniques, 2017, 28(2): 24-24.
[7]	Yao Yang, Liang Li, Zhi-Qiang Chen. A review of geometric calibration for different 3-D X-ray imaging systems [J]. Nuclear Science and Techniques, 2016, 27(3): 76-76.
[8]	ZHANG Yongxing, XIE Honglan, DU Guohao, CHEN Rongchang, XIAO Tiqiao. Influence of scintillator’s thickness on imaging quality of lens-coupled hard X-ray imaging detector [J]. Nuclear Techniques, 2014, 37(07): 70102-070102.
[9]	HAO Jia, ZHANG Li, XING Yuxiang, KANG Kejun. An experimental study of dual-energy CT imaging using synchrotron radiation [J]. Nuclear Science and Techniques, 2013, 24(2): 20102-020102.
[10]	MA Qingli TANG Shibiao ZOU Jiwei XU Dongzhe. Two-dimensional X-ray imaging using plastic scintillating fiber array [J]. Nuclear Science and Techniques, 2008, 19(1): 50-50.
[11]	TANG Shibiao MA Qingli YIN Zejie HUANG Huan. Some characteristics of X-ray imaging for energy region of over 100 keV using plastic scintillation fiber array [J]. Nuclear Science and Techniques, 2007, 18(3): 172-172.
[12]	AN Shao-Hui, LI Cheng, ZHOU Yi, XU Zi-Zong. A study of gas electron multiplier [J]. Nuclear Science and Techniques, 2004, 15(5): 290-290.

Nuclear Science and Techniques

Latest advances of X-ray imaging and biomedical applications beamline at SSRF

Abstract

References

Related Articles 12

Metrics

Comments

0