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AbstractAbstract
[en] Heavy ion charge exchange reactions have a great potential for probing spin-transfer strength in nuclei. Provided that the reaction mechanism is simple (one step) in nature, projectile and ejectile quantum numbers can be chosen to isolate isovector, spin transferring (ΔS=ΔT=1) transitions. Tests of two of the more promising such reactions, (6Li, 6He) and (12C, 12N) have shown that they are dominantly one step above about 25 and 60 MeV/nucleon, resp. Phenomenological calibration curves have been established for each of these reactions. The (12C, 12N) reaction has been studied on 54956958Fe to test electron capture strengths relevant to supernova collapse. This and available results from other laboratories are discussed
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Source
Anon; 16 p; 1988; p. 9; American Chemical Society; Washington, DC (USA); Symposium on the interface between nuclear structure and reactions; Los Angeles, CA (USA); 25-30 Sep 1988; CONF-8809241--; Available from American Chemical Society, Division of Nuclear Chemistry ampersand Technology, 1155 16th St., N.W., Washington, DC 20036 (USA)
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Book
Literature Type
Conference
Country of publication
ANGULAR MOMENTUM, BETA DECAY RADIOISOTOPES, BETA-MINUS DECAY RADIOISOTOPES, BETA-PLUS DECAY RADIOISOTOPES, BINARY STARS, CAPTURE, DIRECT REACTIONS, ERUPTIVE VARIABLE STARS, EVEN-EVEN NUCLEI, HELIUM ISOTOPES, ISOTOPES, LIGHT NUCLEI, NITROGEN ISOTOPES, NUCLEAR REACTIONS, NUCLEI, ODD-ODD NUCLEI, PARTICLE PROPERTIES, RADIOISOTOPES, STARS, TARGETS, VARIABLE STARS
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