PADC-NTM Applied in 7Li+Pb at 31 MeV Reaction Products Study
Open Access
- 28 February 2020
- journal article
- Published by Chitkara University Publications in Journal of Nuclear Physics, Material Sciences, Radiation and Applications
- Vol. 7 (2), 109-115
- https://doi.org/10.15415/jnp.2020.72013
Abstract
Passive nuclear track methodology (NTM) is applied to study charged particles products of the reaction 7Li+Pb at ~ 31 MeV. It is a contribution to the 8pLP Project (LNL-INFN-Italy) in where we show an alternative approach to register charged particle from reaction fragments by PADC detection. The main advantage is that the passive system integrates data over the whole experiment and has its importance for low rate reaction processes. Reaction products as well as scattered beam particles are determined from track shape analysis. Some limitations are inherent to NTM since a priori knowledge is required to correlate track size distribution given by each type of particle emerging from the target. Results show that the passive technique gives useful information when applied in reaction data interpretation for a relatively large range of particle types.Keywords
This publication has 8 references indexed in Scilit:
- Cosmic Radiation Detection by Solid State Nuclear Track Detector TechniqueSolid State Phenomena, 2015
- PADC Detected External Neutron Field by Nuclear Tracks at RFX-modJournal of Nuclear Physics, Material Sciences, Radiation and Applications, 2014
- Nuclear tracks in PADC induced by neutron, heavy ion and energetic fragments formed in the reaction 54Cr+208Pb, at 320MeVRadiation Measurements, 2009
- Neutron-induced complex reaction analysis with 3D nuclear track simulationRadiation Measurements, 2005
- Studies of experimentally determined etch-rate ratios in CR-39 for ions of different kinds and energiesRadiation Measurements, 2002
- Track etch parameters in CR-39 detectors for proton and alpha particles of different energiesNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2001
- The 8/spl pi/LP project: a 4/spl pi/ light charged particle detection array at LNLIEEE Transactions on Nuclear Science, 1997
- Direct observation of latent nuclear tracks in organic material by atomic force microscopyNanotechnology, 1997