Add to ORKGThe ionization quenching factor (IQF) is defined as the fraction of energy released by a recoil in a medium through ionization compared with its total kinetic energy. At low energies, in the range of a few keV, the ionization produced in a medium falls rapidly and systematic measurements are needed. We report measurements carried out at such low energies as a function of the pressure in He4 at 350, 700, 1000 and 1300 mbar. In order to produce a nucleus moving with a controlled energy in the detection volume, we have developed an Electron Cyclotron Resonance Ion Source (ECRIS) coupled to an ionization chamber by a differential pumping. The quenching factor of He4 has been measured for the first time down to 1 keV recoil energies. An importan...
Helium isotope determination may be useful in measuring volcanic activity and issuing earlier warnin...
We present experimental and theoretical results for the electron-impact-induced ionization of ground...
Superfluid He4 is a promising target material for direct detection of light (<1 GeV) dark matter....
The ionization quenching factor (IQF) is defined as the fraction of energy released by a recoil in a...
International audienceThe amount of energy released by a nuclear recoil ionizing the atoms of the ac...
The French Institute for Radiation protection and Nuclear Safety (IRSN) is providing reference neutr...
We present experimental and theoretical results for the electron-impact-induced ionization of ground...
This article reports the measurement of the ionization quenching factor in germanium for nuclear rec...
The plasma astrophysical S factor for the He3(d,p)He4 fusion reaction was measured for the first tim...
The design of a high-efficiency mass spectrometer is described, aimed at residual gas detection of l...
\noindent Helium, as one of the simplest few-electron atoms, is well suited to test fundamental inte...
We present high-precision (e; 2e) measurements and calculations for the e-He four-body Coulomb break...
Helium gas is being expanded through a pre-cooled 5 μm nozzle in a supersonic gas jet at low tempera...
Helium isotope determination may be useful in measuring volcanic activity and issuing earlier warnin...
We present experimental and theoretical results for the electron-impact-induced ionization of ground...
Superfluid He4 is a promising target material for direct detection of light (<1 GeV) dark matter....
The ionization quenching factor (IQF) is defined as the fraction of energy released by a recoil in a...
International audienceThe amount of energy released by a nuclear recoil ionizing the atoms of the ac...
The French Institute for Radiation protection and Nuclear Safety (IRSN) is providing reference neutr...
We present experimental and theoretical results for the electron-impact-induced ionization of ground...
This article reports the measurement of the ionization quenching factor in germanium for nuclear rec...
The plasma astrophysical S factor for the He3(d,p)He4 fusion reaction was measured for the first tim...
The design of a high-efficiency mass spectrometer is described, aimed at residual gas detection of l...
\noindent Helium, as one of the simplest few-electron atoms, is well suited to test fundamental inte...
We present high-precision (e; 2e) measurements and calculations for the e-He four-body Coulomb break...
Helium gas is being expanded through a pre-cooled 5 μm nozzle in a supersonic gas jet at low tempera...
Helium isotope determination may be useful in measuring volcanic activity and issuing earlier warnin...
We present experimental and theoretical results for the electron-impact-induced ionization of ground...
Superfluid He4 is a promising target material for direct detection of light (<1 GeV) dark matter....