Extending the application of DSAM to atypical stopping media

Abstract A methodology that manifolds the possibilities of level lifetime measurements using the Doppler Shift Attenuation Method (DSAM), and extends its application beyond the conventional thin-target-on-thick-elemental-backing setups, is presented. This has been achieved primarily through application of the TRIM code to simulate the stopping of the recoils in the target and the backing media. Using the TRIM code, primarily adopted in the domain of materials research, in the context of lifetime analysis require rendition of the simulation results into a representation that appropriately incorporates the nuances of nuclear reaction along with the associated kinematics, besides the transformation from an energy-coordinate representation to a velocity-direction profile as required for lifetime analysis. The present development makes it possible to practice DSAM in atypical experimental scenarios such as those using molecular or multi-layered target and/or backing as the stopping medium. These aberrant cases, that were beyond representation in the customary Doppler shape analysis can, in the light of the present work, be conveniently used in the DSAM based investigations. The new approach has been validated through re-examination of known lifetimes measured both in the conventional as well as in the deviant setups.