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Comparison of X-ray detectors
Gruner, S. M., Eikenberry, E. F. and Tate, M. W.  International Tables for Crystallography (2012). Vol. F, ch. 7.1, pp. 177-182 [ doi:10.1107/97809553602060000820 ]
... one pixel. For a signal S per pixel which spans M pixels, the integrated signal is MS, and, assuming the noise ... ray test images of known statistics via equation (7.1.1.1): given M incident X-rays per exposure, the expected incident signal-to ... test image. Repetition of this process for different values of M maps out the DQE curve. Since the DQE is ...

Applications to macromolecular crystallography
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, Section 7.2.5, p. 187 [ doi:10.1107/97809553602060000821 ]
Applications to macromolecular crystallography 7.2.5. Applications to macromolecular crystallography Storage rings. CCD detectors have gained widespread acceptance for macromolecular crystallography at storage-ring sources, in part because of the high-quality data they give, but more for their speed, convenience and efficiency. Accurate data to high resolution are especially important for ...

Detector system integration
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, Section 7.2.4, pp. 186-187 [ doi:10.1107/97809553602060000821 ]
Detector system integration 7.2.4. Detector system integration Hardware interfacing. CCDs are operated, during both data acquisition and readout, by a dedicated hardware controller attached to a host computer, generally a PC. The requirements for the controller are complex and quite stringent in order to obtain low-noise operation. As with any ...

Modular images
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, Section 7.2.3.6, p. 186 [ doi:10.1107/97809553602060000821 ]
Modular images 7.2.3.6. Modular images The size of available fibre optics and CCDs and the inefficiencies of image reduction limit the practical imaging area of a single CCD system. Closely stacked fibre-optic taper CCD modules can be used to cover a larger area. Although the image recorded from each module ...
     [more results from section 7.2.3 in volume F]

CCD detector assembly
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, Section 7.2.2, pp. 183-184 [ doi:10.1107/97809553602060000821 ]
... image intensification before reduction (Moy, 1994; Naday et al., 1995; Tate et al., 1997) or there will be an unacceptable loss ... n.a. is the numerical aperture of the optical system and M is the linear magnification factor ( corresponds to reduction). Lens ... charge collection region in the silicon is very thin (<10m). Thicker depletion regions can be fabricated in high- ...

Overview
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, Section 7.2.1, p. 183 [ doi:10.1107/97809553602060000821 ]
... and housed in a vacuum cryostat. Reproduced with permission from Tate et al. (1995). References Eikenberry, E. F., Tate, M. W., Belmonte, A. L., Lowrance, J. L., Bilderback, D. & ...

CCD detectors
Tate, M. W., Eikenberry, E. F. and Gruner, S. M.  International Tables for Crystallography (2012). Vol. F, ch. 7.2, pp. 183-188 [ doi:10.1107/97809553602060000821 ]
... and housed in a vacuum cryostat. Reproduced with permission from Tate et al. (1995). 7.2.2. CCD detector assembly | | Any practical ... image intensification before reduction (Moy, 1994; Naday et al., 1995; Tate et al., 1997) or there will be an unacceptable loss ... n.a. is the numerical aperture of the optical system and M is the linear magnification factor ( corresponds to reduction). ...

Future detectors
Gruner, S. M., Eikenberry, E. F. and Tate, M. W.  International Tables for Crystallography (2012). Vol. F, Section 7.1.4, p. 181 [ doi:10.1107/97809553602060000820 ]
... be commercially viable. References Barna, S. L., Shepherd, J. A., Tate, M. W., Wixted, R. L., Eikenberry, E. F. & Gruner, S. M. ( ...

Integrating detectors
Gruner, S. M., Eikenberry, E. F. and Tate, M. W.  International Tables for Crystallography (2012). Vol. F, Section 7.1.3.2.2, pp. 180-181 [ doi:10.1107/97809553602060000820 ]
... stable setup. Storage phosphors are typically read out with 100m square pixels, resulting in pixel images for the common size ... Instrum. Methods Phys. Res. A, 266, 645-653. Arndt, U. W. (1991). Second-generation X-ray television area detectors. Nucl. ... Instrum. Methods Phys. Res. A, 310, 395-397. Arndt, U. W., Gilmore, D. J. & Wonacott, A. J. (1977). X- ...
     [more results from section 7.1.3 in volume F]

Evaluating and comparing detectors
Gruner, S. M., Eikenberry, E. F. and Tate, M. W.  International Tables for Crystallography (2012). Vol. F, Section 7.1.2, pp. 178-179 [ doi:10.1107/97809553602060000820 ]
... ray test images of known statistics via equation (7.1.1.1): given M incident X-rays per exposure, the expected incident signal-to ... test image. Repetition of this process for different values of M maps out the DQE curve. Since the DQE is dependent ...

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