Abstract
When we wish to observe an object, we usually illuminate it with a beam of light. The light is then reflected, refracted, diffracted, absorbed, in various ways. By interpreting our measurements on the scattered light, we learn about the shape and size of the object and its other properties. For example, we may learn whether the object is transparent or opaque; if the former, we may measure its refractive index, if the latter, we can find its absorptivity, and so on. If we study further by using monochromatic light, we find these various properties vary with the wavelength (in particular, we may find the object is coloured; i.e. it preferentially scatters light of a particular wavelength). In some cases we may find more than just scattering or absorption of the light. The object may continue to re-emit light after the incident beam is removed (phosphorescence), it may emit radiation of a different wavelength from that used to illuminate it (fluorescence) or it may emit radiation of a different kind (e.g. electrons in the photo effect).
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References
Alder, K. and Winther, A. (1975). Electromagnetic Excitation: Theory of Coulomb Excitation with Heavy Ions. Amsterdam; North-Holland
Bass, R. (1980). Nuclear Reactions with Heavy Ions. Berlin; Springer-Verlag
Bellicard, J. B., Bounin, P., Frosch, R. F., Hofstadter, R., McCarthy, J. S., Clark, B. C., Herman, R. and Ravenhall, D. G. (1967). Phys. Rev. Lett. Vol. 19, 527
Biedenharn, L. C. and Brussard, P. J. (1965). Coulomb Excitation. Oxford; Clarendon Press
Blann, M. (1975). Ann. Rev. Nucl. Sci. Vol. 25, 123
Breit, G., Hull, M. H., Lassila, K. E. and Pyatt, K. D. (1960). Phys. Rev. Vol. 120, 2227
Bromley, D. A. (1974). In Proc. Int. Conf. Nuclear Physics. Eds J. de Boer and H. J. Mang, Amsterdam; North-Holland
Bromley, D. A. (1984). Treatise on Heavy Ion Science. New York; Plenum Press
Bromley, D. A., Keuhner, J. A. and Almquist, E. (1961). Phys. Rev. Vol. 123, 878
Cerny, J. ed. (1974). Nuclear Spectroscopy and Reactions. New York; Academic Press
Chenevert, G., Chant, N. S., Halpern, I., Glasshausser, C. and Hendrie, D. L. (1971). Phys. Rev. Lett. Vol. 27, 434
Christensen, P. R., Manko, V. I., Becchetti, F. D. and Nickles, R. J. (1973). Nucl. Phys. Vol. A207, 33
Daniels, J. M. (1965). Oriented Nuclei. New York; Academic Press
England, J. B. A. (1974). Techniques in Nuclear Structure Physics. New York; Halsted
Ericson, T. (1963). Phys. Lett. Vol. 4, 258
Ferguson, A. J. (1974). In Nuclear Spectroscopy and Reactions. Ed. J. Cerny. New York; Academic Press
Fowler, J. L., Minor, T. C., Martin, F. D., Montgomery, H. E. and Okun, L. M. (1969). Am. J. Phys. Vol. 37, 649
Frauenfelder, H. and Steffen, R. M. (1966). In Alpha-, Beta-and Gamma-Ray Spectroscopy. Ed. Siegbahn, K. Amsterdam; North-Holland
Friar, J. L. and Negele, J. W. (1973). Nucl. Phys. Vol. A212, 93
Geiger, H. and Marsden, E. (1913). Phil. Mag. Vol. 25, 604
Gill, R. D. (1975). Gamma-Ray Angular Correlations. New York; Academic Press
Goshal, S. N. (1950). Phys. Rev. Vol. 80, 939
Halbert, M. L., Durham, F. E. and van der Woude, A. (1967). Phys. Rev. Vol. 162, 899
Heisenberg, J., Hofstadter, R., McCarthy, J. S., Sick, I., Clark, B. C., Herman, R. and Ravenhall, D. G. (1969). Phys. Rev. Lett. Vol. 23, 1402
Heisenberg, J. H. and Sick, I. (1970). Phys. Lett. Vol. 32B, 249
Hess, W. N. (1958). Rev. Mod. Phys. Vol. 30, 368
Hodgson, P. E. (1987). Reps. Prog. Phys. Vol. 50, No. 9
Johnson, R. C. (1985). In Clustering Aspects of Nuclear Structure. Eds J. S. Lilley and M. A. Nagarajan. Dordrecht; Reidel
Kinney, W. E. and Perey, F. G. (1970). Nucl. Sci. Eng. Vol. 40, 396
Kocher, D. C. and Haeberli, W. (1972). Nucl. Phys. Vol. A196, 225
Kondo, M., Kobayashi, S., Tanifuji, M., Yamazaki, T., Kubo, K. I. and Onishi, N. (1986). Polarization Phenomena in Nuclear Physics. Suppl. to J. Phys. Soc. Japan. Vol. 55
Lee, L. L. and Schiffer, J. P. (1963). Phys. Lett. Vol. 4, 104
McGowan, F. K. and Stelson, P. H. (1974). In Nuclear Spectroscopy and Reactions. Ed. J. Cerny. New York; Academic Press
Mattauch, J. H. E., Thiele, W. and Wapstra, A. H. (1965). Nucl. Phys. Vol. 67, 1
Mott, N. F. and Massey, H. S. W. (1965). The Theory of Atomic Collisions. 3rd edn. Oxford; Oxford University Press
Preston, J. A. and Bhaduri, R. K. (1975). Structure of the Nucleus. Reading, Mass.; Addison-Wesley
Ramage, J. C., McKeown, J. and Ledingham, K. W. D. (1975). Am. J. Phys. Vol. 43, 51
Rand, R. E., Frosch, R. and Yearian, M. R. (1966). Phys. Rev. Vol. 144, 859
Rutherford, E. (1911). Phil. Mag. Vol. 21, 669
Satchler, G. R. (1978). In Proc. Int. School of Physics ‘Enrico Fermi’, Course LXVIX. Eds. A. Bohr and R. A. Broglia. Amersterdam: North-Holland
Schroder, W. U. and Huizenga, J. R. (1984). In Treatise on Heavy Ion Science. Vol. 2. Ed. D. A. Bromley. New York; Plenum Press
Sinha, B. B. P., Peterson, G. A., Whitney, R. R., Sick, I. and McCarthy, J. S. (1973). Phys. Rev. Vol. C7, 1930
Uberall, H. (1971). Electron Scattering from Complex Nuclei. New York; Academic Press
Vogt, E. and McManus, H. (1960). Phys. Rev. Lett. Vol. 4, 518
von Witsch, W., Richter, A. and von Brentano, P. (1968). Phys. Rev. Vol. 169, 923
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© 1990 G. R. Satchler
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Satchler, G.R. (1990). Introduction to Nuclear Reactions. In: Introduction to Nuclear Reactions. Palgrave Macmillan, London. https://doi.org/10.1007/978-1-349-20531-8_2
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