Abstract
Recent experimental data was fitted by using a simple universal relation between nuclear stopping power and particle energy in the range of about 10−4≦ɛ≦102. Comparison with previous and recent theoretical predictions is made.
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Oetzmann, H., Feuerstein, A., Grahmann, H., Kalbitzer, S.: Physics Letters55A, 170 (1975)
Chu, W.K., Crowder, B.L., Mayer, J.W., Ziegler, J.F.: Proc. III Int. Conf. Ion Implantation in Semiconductors and Other Materials, Yorktown Heights, New York, 1972, 1973 Plenum Press, pp. 225
Sidenius, G.: Mat. Fys. Medd. Dan. Vid. Selsk.39, no. 4 (1974)
Grahmann, H., Kalbitzer, S.: Nucl. Instr. and Meth.132, 119 (1976)
Högberg, G., Skoog, R.: Rad. Effects13, 197 (1972)
Williams, J.S., Grant, W.A.: Rad. Effects25, 55 (1975)
Lindhard, J., Nielsen, V., Scharff, M.: Mat. Fys. Medd. Dan. Vid. Selsk.36, no. 10 (1968)
Wilson, W.D., Haggmark, L., Biersack, J.P.: To be published
Biersack, J.P., Fink, D.: Atomic Collisions in Solids, Vol.2, p. 737, New York: Plenum Press 1975
Biersack, J.P.: Z. Physik211, 495 (1968)
Sanders, J.B., Roosendaal, H.E.: Nucl. Instr. Meth.132, 267 (1976)
Bister, M., Anttila, A., Keinonen, J.: Physics Letters53A, 471 (1975)
Shane, K.C., Laumer, H., Seaman, G.G.: J. Appl. Phys.47, 2286 (1976)
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We gratefully acknowledge the communication of the results of the stopping power calculations by Wilson, Haggmark and Biersack [8] prior to publication.
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Kalbitzer, S., Oetzmann, H., Grahmann, H. et al. A simple universal fit formula to experimental nuclear stopping power data. Z Physik A 278, 223–224 (1976). https://doi.org/10.1007/BF01409171
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DOI: https://doi.org/10.1007/BF01409171