Institut de Physique de Rennes, Université de Rennes I, 35042 Rennes Dissociative recombination: Recent Developments in Theory and Future Experimental Facilities J. Brian A. Mitchell Institut de Physique de Rennes, Université de Rennes I, 35042 Rennes
H3+ Ion Rotational Temperatures for different ion source and cooler conditions
Effect of Rotational Temperature on Experimental Rate Coefficient
Propensity rule +
Astrophysical Models: C3H2+ + e C3H + H Experimental Results
The HIRFL-CSRe Platform for DR Study Xiaohong Cai Institute of Modern Physics, Chinese Academy of Sciences 8th Int'l. Conference on Dissociative Recombination: Theory, Experiments & Applications Aug. 16-20, 2010, Tahoe, USA
Heavy Ion Storage Rings for Atomic & Molecular Physics Location Circumference Magnetic rigidity Experiments ASTRID Univ. Aarhus 40.0 1.6 Atomic&molecular CRYRING MSI, Stockholm 51.6 1.4 TSR MPI, Heidelberg 55.4 HIRFL-CSRe IMP, Lanzhou 128.8 9.4 ESR GSI 108.0 10.0 Atomic physics
HIRFL-CSR Layout CSRe CSRm ECRIS SFC K=70; Emax=10AMeV SSC K=450; Emax=100AMeV SFC SSC CSRm CSRe Ions H, C~U RIB E (MeV/u) 10 100 1100 750 ΔP/P ~10-2 ~10-3 ~10-4 ~10-5 CSRe CSRm
Ion source + Pre-acceleration HIRFL-MIRF Injection: Ion source + Pre-acceleration Electron Target Bumper Neutral Particle Detector Molecular Ions Research Facility of HIRFL (MIRF) 9.4 Tm 120GeV—U92+ 11/14/2018
HIRFL-MIRF layout 320KV HV Platform pre- accelerate
KACST Storage Ring (Mohamed O. A. El Ghazaly) Collaborations with: Univ. Louvain La Neuve, Belgium Univ. Rennes I, France Univ. Frankfurt, Germany GSI, Germany
Injector Commissioning