Thermoluminescent detector (TLD) is a new solid state dose meter.
热释光剂量计是一种新型的固体剂量计。
Performance test of semiconductor detector based personal dosimeter was made for personal dose monitoring purpose.
本文报道了用于个人剂量监测的半导体探测器个人剂量计及其性能测试。
High LET can cause reduction of detector response and underestimation of radiation dose.
高let能引起探测器响应降低,从而造成低估辐射剂量。
Conclusion the practical value of GR-200A thermoluminescence detector is embodied in measurement of medical high energy electronic dose.
结论GR- 200a热释光探测器在医用高能电子线剂量测量中有一定的实用价值。
The measurement accuracy of electron beam by using semiconductor detector is easily affected by beam energy, dose rate, beam incidence direction, environment temperature etc.
电子束半导体探测器的测量精度易受到射线的能量、剂量率、入射方向和环境温度等条件的影响。
With the number of detector rows of spiral Computed Tomography(CT)increasing, the radiation dose to the patients appears varieties.
随着螺旋CT探测器排数的增加,病人所受辐射剂量也出现了新的变化。
The application of the CT-SD16 which is a new type solid-state detector in the CT dose measurement was introduced in this article. Then the measuring results were analyzed and discussed.
CT-SD16是一种新型的固体切片探测器,介绍了其在实际CT剂量测量中的应用,并对测量结果进行了分析与讨论。
The dose response curves of the EPID were established by relating the pixel value output of the EPID with the incident radiation intensity received by the detector.
通过建立入射到探头的射线强度与EPID像素值之间的关系,得到了EPID的剂量响应曲线。
The dose response curves of the EPID were established by relating the pixel value output of the EPID with the incident radiation intensity received by the detector.
通过建立入射到探头的射线强度与EPID像素值之间的关系,得到了EPID的剂量响应曲线。
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