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首页> 外文期刊>Japanese journal of applied physics >Investigation of Energy-Dispersive X-ray Computed Tomography System with CdTe Scan Detector and Comparing-Differentiator and Its Application to Gadolinium K-Edge Imaging
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Investigation of Energy-Dispersive X-ray Computed Tomography System with CdTe Scan Detector and Comparing-Differentiator and Its Application to Gadolinium K-Edge Imaging

机译:具有CdTe扫描检测器和比较微分器的能量色散X射线断层扫描系统的研究及其在Ga K边缘成像中的应用

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摘要

An energy-dispersive (ED) X-ray computed tomography (CT) system is useful for carrying out monochromatic imaging by selecting optimal energy photons. CT is performed by repeated linear scans and rotations of an object. X-ray photons from the object are detected by the cadmium telluride (CdTe) detector, and event pulses of X-ray photons are produced using charge-sensitive and shaping amplifiers. The lower photon energy is determined by a comparator, and the maximum photon energy of 70 keV corresponds to the tube voltage. Logical pulses from the comparator are counted by a counter card through a differentiator to reduce pulse width and rise time. In the ED-CT system, tube voltage and current were 70 kV and 0.30 mA, respectively, and X-ray intensity was 18.2 μGy/s at 1.0 m from the source at a tube voltage of 70 kV. Demonstration of gadolinium K-edge CT for cancer diagnosis was carried out by selecting photons with energies ranging from 50.4 to 70keV, and photon-count energy subtraction imaging from 30 to 50.3 keV was also performed.
机译:能量色散(ED)X射线计算机断层扫描(CT)系统可用于通过选择最佳能量光子来进行单色成像。通过重复的线性扫描和对象旋转来执行CT。碲化镉(CdTe)检测器检测到来自对象的X射线光子,并使用电荷敏感型和整形放大器产生X射线光子的事件脉冲。较低的光子能量由比较器确定,最大光子能量70 keV对应于灯管电压。来自比较器的逻辑脉冲由计数器卡通过微分器计数,以减少脉冲宽度和上升时间。在ED-CT系统中,灯管电压和电流分别为70 kV和0.30 mA,在70 kV灯管电压下,距光源1.0 m处的X射线强度为18.2μGy/ s。通过选择能量范围为50.4至70keV的光子进行了K K-edge CT的演示,还进行了30至50.3keV的光子计数能量减影成像。

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  • 来源
    《Japanese journal of applied physics》 |2012年第10issue1期|102402.1-102402.5|共5页
  • 作者

    Hiraku Chiba; Yuichi Sato; Eiichi Sato; Tomoko Maeda; Ryo Matsushita; Yutaka Yanbe; Osahiko Hagiwara; Hiroshi Matsukiyo; Akihiro Osawa; Toshiyuki Enomoto; Manabu Watanabe; Shinya Kusachi; Shigehiro Sato; Akira Ogawa; Jun Onagawa;

  • 作者单位

    Department of Physics, Iwate Medical University, Yahaba, Iwate 028-3694, Japan;

    Central Radiation Department, Iwate Medical University Hospital, Morioka 020-0023, Japan;

    Department of Physics, Iwate Medical University, Yahaba, Iwate 028-3694, Japan;

    Department of Physics, Iwate Medical University, Yahaba, Iwate 028-3694, Japan;

    Department of Physics, Iwate Medical University, Yahaba, Iwate 028-3694, Japan;

    Department of Physics, Iwate Medical University, Yahaba, Iwate 028-3694, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    The 3rd Department of Surgery, Toho University School of Medicine, Meguro, Tokyo 153-8515, Japan;

    Department of Microbiology, School of Medicine, Iwate Medical University, Morioka 020-0023, Japan;

    Department of Neurosurgery, School of Medicine, Iwate Medical University, Morioka 020-0023, Japan;

    Department of Electronics, Faculty of Engineering, Tohoku Gakuin University, Tagajo, Miyagi 985-8537, Japan;

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