Influence of tube voltage and current on in-line phase contrast imaging using a microfocus x-ray source

被引:8
|
作者
Department of Engineering Physics, Tsinghua University, Beijing 100084, China [1 ]
机构
[1] Department of Engineering Physics, Tsinghua University
来源
Chin. Phys. | 2007年 / 8卷 / 2319-2324期
关键词
In-line phase contrast imaging; Wigner distribution; X-ray;
D O I
10.1088/1009-1963/16/8/027
中图分类号
学科分类号
摘要
In-line x-ray phase contrast imaging has attracted much attention due to two major advantages: its effectiveness in imaging weakly absorbing materials, and the simplicity of its facilities. In this paper a comprehensive theory based on Wigner distribution developed by Wu and Liu [Med. Phys. 31 2378-2384 (2004)] is reviewed. The influence of x-ray source and detector on the image is discussed. Experiments using a microfocus x-ray source and a CCD detector are conducted, which show the role of two key factors on imaging: the tube voltage and tube current. High tube current and moderate tube voltage are suggested for imaging. © 2007 Chin. Phys. Soc. and IOP Publishing Ltd.
引用
收藏
页码:2319 / 2324
页数:5
相关论文
共 50 条
  • [31] Near-field x-ray phase contrast imaging and phase retrieval algorithm
    Zhu, HF
    Xie, HL
    Gao, HY
    Chen, JW
    Li, RX
    Xu, ZZ
    CHINESE PHYSICS, 2005, 14 (04): : 796 - 801
  • [32] Front and Backside Structuring of Gratings for Phase Contrast Imaging With X-ray Tubes
    Kenntner, J.
    Grund, T.
    Matthis, B.
    Boerner, M.
    Mohr, J.
    Scherer, T.
    Walter, M.
    Willner, M.
    Tapfer, A.
    Bech, M.
    Pfeiffer, F.
    Zanette, I.
    Weitkamp, T.
    DEVELOPMENTS IN X-RAY TOMOGRAPHY VII, 2010, 7804
  • [33] Measurement of Diesel Nozzle Geometry with X-Ray Phase Contrast Imaging Technique
    Yan, Yi
    He, Zhixia
    Zhong, Wenjun
    Jiang, Zhaochen
    Fu, Yanan
    MANUFACTURING PROCESS AND EQUIPMENT, PTS 1-4, 2013, 694-697 : 1224 - +
  • [34] Sub-Pixel Registration Technique for X-ray Phase Contrast Imaging
    Bradley, Hamish
    Bailey, Donald
    Le Moan, Steven
    Gaenz, Peter
    Simon, Sven
    2019 INTERNATIONAL CONFERENCE ON IMAGE AND VISION COMPUTING NEW ZEALAND (IVCNZ), 2019,
  • [35] Observation of Electrical Treeing in Epoxy Resin by X-ray Phase Contrast Imaging
    Nakamura, Takahiro
    Ozawa, Kazuki
    Kumada, Akiko
    Hidaka, Kunihiko
    Kato, Tatsuro
    Yamagiwa, Tokio
    2016 IEEE INTERNATIONAL CONFERENCE ON DIELECTRICS (ICD), VOLS 1-2, 2016, : 756 - 759
  • [36] Spectrally Responsive Edge Illumination X-ray Phase Contrast Imaging (XPCI)
    Hurlock, Ava X.
    Ruiz, Sarah D.
    Koh, Timothy
    Gehm, Michael E.
    ANOMALY DETECTION AND IMAGING WITH X-RAYS, ADIX IX, 2024, 13043
  • [37] X-ray phase contrast angiography using CO2 as contrast agent
    Lundstrom, Ulf
    Larsson, Daniel H.
    Takman, Per A. C.
    Scott, Lena
    Burvall, Anna
    Hertz, Hans M.
    MEDICAL IMAGING 2012: PHYSICS OF MEDICAL IMAGING, 2012, 8313
  • [38] Redefining the lower statistical limit in x-ray phase-contrast imaging
    Marschner, M.
    Birnbacher, L.
    Willner, M.
    Chabior, M.
    Fehringer, A.
    Herzen, J.
    Noel, P. B.
    Pfeiffer, F.
    MEDICAL IMAGING 2015: PHYSICS OF MEDICAL IMAGING, 2015, 9412
  • [39] Further Development of Asymmetric Illumination X-Ray Differential Phase Contrast Imaging
    Ruiz, Sarah D.
    Gehm, Michael E.
    ANOMALY DETECTION AND IMAGING WITH X-RAYS, ADIX IX, 2024, 13043
  • [40] DEVELOPMENT OF A FAST AND HIGH RESOLUTION X-RAY IMAGING SENSOR FOR IN-LINE INSPECTION OF TAPE SUBSTRATE
    Yeom, Jung-Yeol
    Roh, Young-Jun
    Jung, Chang-Ook
    Jeong, Dae-Hwa
    INTERNATIONAL JOURNAL OF OPTOMECHATRONICS, 2010, 4 (01) : 34 - 50
12345