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    • 5. 发明申请
    • RADIATION DETECTOR WITH IMPROVED CHARGE COLLECTION AND MINIMIZED LEAKAGE CURRENTS
    • 辐射探测器具有改进的充电收集和最小化的漏电流
    • WO2010073189A1
    • 2010-07-01
    • PCT/IB2009/055784
    • 2009-12-16
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.PHILIPS INTELLECTUAL PROPERTY & STANDARDS GMBHENGEL, Klaus, J.BAEUMER, ChristianHERRMANN, Christoph
    • ENGEL, Klaus, J.BAEUMER, ChristianHERRMANN, Christoph
    • H01L27/146G01T1/24
    • H01L27/14676H01L27/14603H01L27/1462H01L27/14636H01L27/14659
    • The present invention relates to a radiation detector with improved charge collection and minimized leakage currents. The present invention further relates to an imaging device for imaging an object comprising the aforementioned radiation detector for detecting radiation after having passed through that object. In particular, a radiation detector is presented that comprises a steering electrode (18) arranged on the a side of a direct converter material layer (12) for guiding free electrons to an anode (16), wherein the steering electrode (18) is insulated by an insulating material (20) from the direct converter material layer (12) for providing an electron barrier between said steering electrode (18) and said direct converter material layer (12). Thus, electrons drifting towards the steering electrode (18) are blocked by the insulating material (20) and concentrated in its direct vicinity. This concentration of negative space charge causes or amplifies, respectively, the electrical opposing field which is normally generated by the application of a relatively high potential difference between the steering electrode (18) and the anode (16). Consequently, the potential difference between the steering electrode (18) and the anode (16) can be strongly reduced, resulting in the elimination or at least a significant reduction of the leakage currents and additional noise as well as the enhancement of charge collection and thus additional improvement of the spectral resolution of the radiation detector.
    • 本发明涉及具有改进的电荷收集和最小化的漏电流的辐射探测器。 本发明还涉及一种用于对物体进行成像的成像装置,所述成像装置包括上述用于在穿过该物体之后检测辐射的辐射检测器。 特别地,提出了一种辐射检测器,其包括布置在直接转换器材料层(12)的一侧的转向电极(18),用于将自由电子引导到阳极(16),其中转向电极(18)绝缘 通过来自直接转换器材料层(12)的绝缘材料(20),用于在所述转向电极(18)和所述直接转换器材料层(12)之间提供电子势垒。 因此,朝向转向电极(18)漂移的电子被绝缘材料(20)阻挡并且集中在其直接附近。 这种负空间电荷的浓度分别引起或放大通常由在转向电极(18)和阳极(16)之间施加相对高的电位差而产生的电对置场。 因此,可以大大降低转向电极(18)和阳极(16)之间的电位差,从而消除或至少显着降低漏电流和附加噪声以及电荷收集的增强,因此 辐射检测器的光谱分辨率的额外改进。
    • 9. 发明申请
    • SPECTRAL IMAGING
    • 光谱成像
    • WO2010119358A2
    • 2010-10-21
    • PCT/IB2010/051101
    • 2010-03-15
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.PHILIPS INTELLECTUAL PROPERTY & STANDARDS GMBHBAEUMER, ChristianHERRMANN, ChristophSTEADMAN, RogerRUETTEN, Walter
    • BAEUMER, ChristianHERRMANN, ChristophSTEADMAN, RogerRUETTEN, Walter
    • G01T1/1647G01T1/2985
    • An imaging system includes a scintillator array (202) and a digital photomultiplier array (204). A photon counting channel (212), an integrating channel (210), and a moment generating channel (214) process the output signal of the digital photomultiplier array (204). A reconstructor (122) spectrally resolves the first, the second and the third output signals. In one embodiment, a controller (232) activates the photon counting channel (212) to process the digital signal only if a radiation flux is below a predetermined threshold. An imaging system includes at least one direct conversion layer (302) and at least two scintillator layers (304) and corresponding photosensors (306). A photon counting channel (212) processes an output of the at least one direct conversion layer (302), and an integrating channel (210) and a moment generating channel (214) process respective outputs of the photosensors (306). A reconstructor (122) spectrally resolves the first, the second and the third output signals.
    • 成像系统包括闪烁体阵列(202)和数字光电倍增管阵列(204)。 光子计数通道(212),积分通道(210)和力矩产生通道(214)处理数字光电倍增管阵列(204)的输出信号。 重建器(122)对第一,第二和第三输出信号进行光谱解析。 在一个实施例中,仅当辐射通量低于预定阈值时,控制器(232)激活光子计数通道(212)才能处理数字信号。 成像系统包括至少一个直接转换层(302)和至少两个闪烁体层(304)和对应的光电传感器(306)。 光子计数通道(212)处理至少一个直接转换层(302)的输出,并且积分通道(210)和力矩产生通道(214)处理光电传感器(306)的相应输出。 重建器(122)对第一,第二和第三输出信号进行光谱解析。