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. . UNIVERSIT AT BONN Physikalische
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Contents 1. Introduction . . . . .
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B. CIX 0.2 readout . . . . . . . .
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2 1. Introduction This work is stru
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4 2. X-ray imaging 2.1.1 Photoelect
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6 2. X-ray imaging described by the
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8 2. X-ray imaging (a) Fig. 2.5: (a
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10 2. X-ray imaging electrons back
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12 2. X-ray imaging and were used i
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14 2. X-ray imaging component and a
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16 2. X-ray imaging a) c) b) d) Fig
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18 2. X-ray imaging a) b) Pt CdTe:C
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20 2. X-ray imaging the following d
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22 2. X-ray imaging sensors [45]. L
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24 2. X-ray imaging C o u n ts [a .
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26 3. CIX 0.2 detector CIX 0.1. For
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28 3. CIX 0.2 detector 3.3 CIX 0.2
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30 3. CIX 0.2 detector distributed
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32 3. CIX 0.2 detector Equally the
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34 3. CIX 0.2 detector flowing into
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36 3. CIX 0.2 detector closed and s
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38 3. CIX 0.2 detector O ffs e t c
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40 3. CIX 0.2 detector a) 0um 1000u
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42 3. CIX 0.2 detector Alternativel
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44 3. CIX 0.2 detector • Dual cha
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46 4. ASIC performance - Electrical
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48 4. ASIC performance - Electrical
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50 4. ASIC performance - Electrical
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52 4. ASIC performance - Electrical
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54 4. ASIC performance - Electrical
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56 4. ASIC performance - Electrical
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58 4. ASIC performance - Electrical
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60 4. ASIC performance - Electrical
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62 4. ASIC performance - Electrical
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64 5. CIX X-ray test setup • Anod
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66 5. CIX X-ray test setup
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68 6. Sensor material characterizat
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70 6. Sensor material characterizat
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72 6. Sensor material characterizat
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74 6. Sensor material characterizat
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- Page 139 and 140: B. CIX 0.2 readout The readout sche
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- Page 143 and 144: Bibliography [1] E. Kraft, Counting
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- Page 147: Acknowledgements Looking back at my