Tables for
Volume F
Crystallography of biological macromolecules
Edited by E. Arnold, D. M. Himmel and M. G. Rossmann

International Tables for Crystallography (2012). Vol. F, ch. 6.1, pp. 159-167   | 1 | 2 |
doi: 10.1107/97809553602060000818

Chapter 6.1. X-ray sources

U. W. Arndta

aLaboratory of Molecular Biology, Medical Research Council, Hills Road, Cambridge CB2 2QH, England


Arndt, U. W., Duncumb, P., Long, J. V. P., Pina, L. & Inneman, A. (1998). Focusing mirrors for use with microfocus X-ray tubes. J. Appl. Cryst. 31, 733.
Arndt, U. W., Long, J. V. P. & Duncumb, P. (1998). A microfocus X-ray tube used with focusing collimators. J. Appl. Cryst. 31, 936–944.
Arndt, U. W. & Stubbings, S. J. (1988). Miniature ionisation chambers. J. Appl. Cryst. 21, 577.
Bailey, R. L. (1978). The design and operation of magnetic liquid shaft seals. In Thermomechanics of Magnetic Fluids, edited by B. Berkovsky. London: Hemisphere.
Beuville, E., Beche, J.-F., Cork, C., Douence, V., Earnest, J., Millaud, D., Nygren, H., Padmore, B., Turko, G., Zizka, G., Datte, P. & Xuong Ng, H. (1997). Two-dimensional pixel array sensor for protein crystallography. Proc. SPIE, 2859, 85–92.
Bilderback, D. H., Thiel, D. J., Pahl, R. & Brister, K. E. (1994). X-ray applications with glass-capillary optics. J. Synchrotron Rad. 1, 37–42.
Bly, P. & Gibson, D. (1996). Polycapillary optics focus and collimate X-rays. Laser Focus World, March issue.
Buras, B. & Tazzari, S. (1984). Editors. European Synchrotron Radiation Facility. Geneva: ESRP.
Elliott, A. (1965). The use of toroidal reflecting surfaces in X-ray diffraction cameras. J. Sci. Instrum. 42, 312–316.
Forsyth, J. M. & Frankel, R. D. (1984). Experimental facility for nanosecond time-resolved low-angle X-ray diffraction experiments using a laser-produced plasma source. Rev. Sci. Instrum. 55, 1235–1242.
Fourme, R., Ducruix, A., Ries-Kautt, M. & Capelle, B. (1995). The perfection of protein crystals probed by direct recording of Bragg reflection profiles with a quasi-planar X-ray wave. J. Synchrotron Rad. 2, 136–142.
Franks, A. (1995). An optically focusing X-ray diffraction camera. Proc. Phys. Soc. London Sect. B, 68, 1054–1069.
Genz, H., Graf, H.-D., Hoffmann, P., Lotz, W., Nething, U., Richter, A., Kohl, H., Weickenmeyer, A., Knüpfer, W. & Sellschop, J. P. F. (1990). High intensity electron channeling and perspectives for a bright tunable X-ray source. Appl. Phys. Lett. 57, 2956–2958.
Green, M. (1963). The target absorption correction in X-ray microanalysis. In X-ray Optics and X-ray Microanalysis, edited by H. H. Pattee, V. E. Cosslett & A. Engström, pp. 361–377. New York and London: Academic Press.
Green, M. & Cosslett, V. E. (1968). Measurements of K, L and M shell X-ray production efficiencies. Br. J. Appl. Phys. Ser. 2, 1, 425–436.
Hofmann, A. (1978). Quasi-monochromatic synchrotron radiation from undulators. Nucl. Instrum. Methods, 152, 17–21.
International Tables for Crystallography (2004). Vol. C. Mathematical, Physical and Chemical Tables, edited by E. Prince. Dordrecht: Kluwer Academic Publishers.
Ishimura, T., Shiraiwa, Y. & Sawada, M. (1957). The input power limit of the cylindrical rotating anode of an X-ray tube. J. Phys. Soc. Jpn, 12, 1064–1070.
Kirkpatrick, P. & Baez, A. V. (1948). J. Opt. Soc. Am. 56, 1–13.
Kirz, J. (1974). Phase zone plates for X-rays and the extreme UV. J. Opt. Soc. Am. 64, 301–309.
Kleffer, J. C., Chaker, M., Matte, J. P., Pépin, H., Côté, C. Y., Beaudouin, Y., Johnston, T. W., Chien, C. Y., Coe, S., Mourou, G. & Peyrusse, O. (1993). Ultra-fast X-ray sources. Phys. Fluids, B5, 2676–2681.
Kohra, K., Ando, M., Natsushita, T. & Hashizume, H. (1978). Nucl. Instrum. Methods, 152, 161–166.
Kumakhov, M. A. & Komarov, F. K. (1990). Phys. Rep. 191, 289–350.
Lemonnier, M., Fourme, R., Rousseaux, F. & Kahn, R. (1978). X-ray curved-crystal monochromator system at the storage ring DCI. Nucl. Instrum. Methods, 152, 173–177.
MacDonald, C. A., Owens, S. M. & Gibson, W. M. (1999). Polycapillary X-ray optics for microdiffraction. J. Appl. Cryst. 32, 160–167.
Milch, J. R. (1983). A focusing X-ray camera for recording low-angle diffraction from small specimens. J. Appl. Cryst. 16, 198–203.
Montel, M. (1957). X-ray microscopy with catamegonic roof mirrors. In X-ray Microscopy and Microradiography, edited by V. E. Cosslett, A. Engstrom & H. H. Pattee Jr, pp. 177–185. New York: Academic Press.
Müller, A. (1929). A spinning target X-ray generator and its input limit. Proc. R. Soc. London Ser. A, 125, 507–516.
Müller, A. (1931). Further estimates of the input limits of X-ray generators. Proc. R. Soc. London Ser. A, 132, 646–649.
Nagel, D. J. (1980). Comparison of X-ray sources. Ann. N. Y. Acad. Sci. 342, 235–247.
Nave, C., Clark, G., Gonzalez, A., McSweeney, S., Hart, M. & Cummings, S. (1995). Tests of an asymmetric monochromator to provide increased flux on a synchrotron radiation beam line. J. Synchrotron Rad. 2, 292–295.
Oosterkamp, W. J. (1948a). The heat dissipation in the anode of an X-ray tube. Philips Res. Rep. 3, 49–59.
Oosterkamp, W. J. (1948b). The heat dissipation in the anode of an X-ray tube. Philips Res. Rep. 3, 161–173.
Oosterkamp, W. J. (1948c). The heat dissipation in the anode of an X-ray tube. Philips Res. Rep. 3, 303–317.
Osmic Inc. (1998). Sales literature. Osmic Inc., Troy, Michigan, USA.
Padmore, H. A., Ackermann, G., Celestre, R., Chang, C. H., Franck, K., Howells, M., Hussain, Z., Irick, S., Locklin, S., MacDowell, A. A., Patel, J. R., Rah, S. Y., Renner, T. R. & Sandler, R. (1997). Submicron white-beam focusing using elliptically bent mirrors. Synchrotron Radiat. News, 10, 18–26.
Phillips, W. C. (1985). X-ray sources. Methods Enzymol. 114, 300–316.
Piestrup, M. A., Boyers, D. G., Pincus, C. I., Harris, J. L., Maruyama, X. K., Bergstrom, J. C., Caplan, H. S., Silzer, R. M. & Skopik, D. M. (1991). Quasimonochromatic X-ray source using photoabsorption-edge transition radiation. Phys. Rev. A, 43, 3653–3661.
Quintana, J. P. & Hart, M. (1995). Adaptive silicon monochromators for high-power wigglers; design, finite-element analysis and laboratory tests. J. Synchrotron Rad. 2, 119–123.
Schuster, M. & Göbel, H. (1997). Application of graded multi-layer optics in X-ray diffraction. Adv. X-ray Anal. 39, 57–71.
Schwinger, J. (1949). On the classical radiation of accelerated electrons. Phys. Rev. 75, 1912–1925.
Silfhout, R. G. van (1998). A new water-cooled monochromator at DORIS III. Synchrotron Radiat. News, 11, 11–13.
Smither, R. K. (1982). New methods for focusing X-rays and gamma rays. Rev. Sci. Instrum. 53, 131–141.
Winick, H. (1980). Properties of synchrotron radiation. In Synchrotron Radiation Research, edited by H. Winick & S. Doniach. New York: Plenum.
Yoshimatsu, M. & Kozaki, S. (1977). High brilliance X-ray source. In X-ray Optics, edited by H.-J. Queisser, ch. 2. Berlin: Springer.