We have constructed and tested a novel plastic-scintillator-based solid-state active proton target for use in nuclear spectroscopic studies with nuclear reactions induced by an ion beam in inverse kinematics. The active target system, named Stack Structure Solid organic Scintillator Active Target (S4AT), consists of five layers of plastic scintillators, each with a 1-mm thickness. To determine the reaction point in the thickness direction, we exploit the difference in the energy losses due to the beam particle and the charged reaction product(s) in the scintillator material. S4AT offers the prospect of a relatively thick target while maintaining a good energy resolution. By considering the relative energy loss between different layers, the ...
We have measured the nuclear-matter distribution of the doubly-magic N = Z nucleus Ni-56 by investig...
Proton emission from 60-fs, 200-mJ high-repetition-rate tabletop-laser pulses interacting with solid...
Low-energy post-accelerated radioactive ion beams have been used to study nuclear reactions addressi...
We have constructed and tested a novel plastic-scintillator-based solid-state active proton target f...
An experimental technique for studying elastic scattering using a thick gas target is described, wit...
With the aim of studying exotic nuclei close to the proton dripline, an innovative 3He target was pr...
A neutron spectrometer, the European Low-Energy Neutron Spectrometer (ELENS), has been constructed t...
Following an experiment at the National Superconducting Cyclotron Laboratory at Michigan State Unive...
We have measured the gamma-ray spectrum of P41 using proton scattering in inverse kinematics with th...
The inverse-kinematic thick-target method has been used in order to investigate 212Po alpha-structur...
This dissertation details the first experiments of a newly formed Tri-laboratory Effort in Nuclear D...
A flexible, fully organic detector for proton beams is presented here. the detector operates in the ...
Particle therapy uses proton and ion beams to treat deep-seated solid tumors, exploiting the favorab...
We report systematic studies of laser-driven proton beams produced with micrometer-thick solid targe...
Using data from a 2016 experiment that took place at the National Superconducting Cyclotron Laborato...
We have measured the nuclear-matter distribution of the doubly-magic N = Z nucleus Ni-56 by investig...
Proton emission from 60-fs, 200-mJ high-repetition-rate tabletop-laser pulses interacting with solid...
Low-energy post-accelerated radioactive ion beams have been used to study nuclear reactions addressi...
We have constructed and tested a novel plastic-scintillator-based solid-state active proton target f...
An experimental technique for studying elastic scattering using a thick gas target is described, wit...
With the aim of studying exotic nuclei close to the proton dripline, an innovative 3He target was pr...
A neutron spectrometer, the European Low-Energy Neutron Spectrometer (ELENS), has been constructed t...
Following an experiment at the National Superconducting Cyclotron Laboratory at Michigan State Unive...
We have measured the gamma-ray spectrum of P41 using proton scattering in inverse kinematics with th...
The inverse-kinematic thick-target method has been used in order to investigate 212Po alpha-structur...
This dissertation details the first experiments of a newly formed Tri-laboratory Effort in Nuclear D...
A flexible, fully organic detector for proton beams is presented here. the detector operates in the ...
Particle therapy uses proton and ion beams to treat deep-seated solid tumors, exploiting the favorab...
We report systematic studies of laser-driven proton beams produced with micrometer-thick solid targe...
Using data from a 2016 experiment that took place at the National Superconducting Cyclotron Laborato...
We have measured the nuclear-matter distribution of the doubly-magic N = Z nucleus Ni-56 by investig...
Proton emission from 60-fs, 200-mJ high-repetition-rate tabletop-laser pulses interacting with solid...
Low-energy post-accelerated radioactive ion beams have been used to study nuclear reactions addressi...