Nuclear spectroscopy at Sn-133

Hoff, P; Baumann, P; Huck, A; Knipper, A; Walter, G; Marguier, G; Fogelberg, B; Lindroth, A; Mach, H; Sanchez-Vega, M; Taylor, RBE; Van Duppen, Piet; Jokinen, A; Lindroos, M; Ramdhane, M; Kurcewicz, W; Jonson, B; Nyman, G; Jading, Y; Kratz, KL; Wöhr, A; Lovhoiden G,; Thorsteinsen, TF; Blomqvist, J; ISOLDE collaboration,

doi:10.1023/A:1012661816716

Nuclear spectroscopy at Sn-133

Author:

Hoff, P

Baumann, P ; Huck, A ; Knipper, A ; Walter, G ; Marguier, G ; Fogelberg, B ; Lindroth, A ; Mach, H ; Sanchez-Vega, M ; Taylor, RBE ; Van Duppen, Piet ; Jokinen, A ; Lindroos, M ; Ramdhane, M ; Kurcewicz, W ; Jonson, B ; Nyman, G ; Jading, Y ; Kratz, KL ; Wöhr, A ; Lovhoiden G, ; Thorsteinsen, TF ; Blomqvist, J ; ISOLDE collaboration,

Keywords:

Spectroscopy, States, State, Region, single, identification, release, targets, sb-133, Science & Technology, Physical Sciences, Physics, Atomic, Molecular & Chemical, Physics, Condensed Matter, Physics, Nuclear, Physics, SINGLE, IDENTIFICATION, RELEASE, TARGETS, SB-133, STATES, 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics, 0204 Condensed Matter Physics, General Physics, 5102 Atomic, molecular and optical physics, 5104 Condensed matter physics, 5106 Nuclear and plasma physics

Abstract:

It is described how the measurement of n gamma -coincidences can be used to identify single-particle states in Sn-133. This method, in combination with the improved yields at ISOLDE, has facilitated firm determination of three excited single-particle states in Sn-133: p(3/2), h(9/2) and f(5/2). The i(13/2) state is not observed in this experiment and probably unbound, and the data did not allow a firm identification of the p(1/2) state. The results are well reproduced in a Woods-Saxon calculation based on the data from the Pb-208 region and taking into account the distance from beta -stability of the Sn-132 region. Record 5 of 53 - CC Search(R) 7 Editions Weeks 40-52