1. The status of the Super-FRS at FAIR
- Author
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Winkler, M., Achenbach, B., Behr, K.-H., Berz, M., Boutin, D., Brandau, C., Emling, H., Geissel, H., Iwase, H., Karagiannis, C., Kelic, A., Leibrock, H., Litvinov, Y., Manikonda, S., Maruhn, J. A., Moritz, G., Mühle, C., Münzenberg, G., Nociforo, C., Plass, W., Scheidenberger, C., Simon, H., Sümmerer, K., Svedentsov, M., Tahir, N. A., Tauschwitz, A., Wang, Z., Weick, H., Wollnik, H., Yavor, M., Winkler, M., Achenbach, B., Behr, K.-H., Berz, M., Boutin, D., Brandau, C., Emling, H., Geissel, H., Iwase, H., Karagiannis, C., Kelic, A., Leibrock, H., Litvinov, Y., Manikonda, S., Maruhn, J. A., Moritz, G., Mühle, C., Münzenberg, G., Nociforo, C., Plass, W., Scheidenberger, C., Simon, H., Sümmerer, K., Svedentsov, M., Tahir, N. A., Tauschwitz, A., Wang, Z., Weick, H., Wollnik, H., and Yavor, M.
- Abstract
The Super-FRS will be a large-acceptance two-stage superconducting fragment separator with three exit branches serving different experimental areas. Due to the high primary-beam intensity of up to 1012ions/s a challenging design of the target area and the components used in the first dipole Super-FRS is necessary. These efforts include high-power production targets, beam-dumps to catch the remaining primary beam, and radiation resistant magnets. In this contribution we summarize the recent developments on these issues.
- Published
- 2007
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