CEPA: A LaBr3(Ce)/LaCl3(Ce) Phoswich array for simultaneous detection of protons and gamma radiation emitted in reactions at relativistic energies
Paper in proceeding, 2014

A sophisticated design of 750 LaBr3(Ce):LaCl3(Ce) phoswich crystals (CEPA10) with a segmentation determined by the Doppler correction and an energy resolution of 5% at 1 MeV is presented. Monte Carlo simulations have been performed for high energy protons (50–500 MeV) and gamma radiation (0.5–30 MeV) to determine the length and shape of the crystals for optimum performance of the detector. In the case of protons, the two-layer detector can be used as a ΔELaBr3 − ETot telescope or, for very high energies, as a double energy loss detector (ΔELaBr3 + ΔELaCl3), in order to determine the initial energy. In addition, an experimental test with high energy protons (70–230 MeV) was performed at the cyclotron center in Krakow, Poland with a first prototype of 2 x 2 phoswich rectangular crystals (CEPA4) packed in an aluminum can (0.5 mm case). To simulate CEPA10 efficiencies and resolutions, optical pulses detected in CEPA4 by photomultiplier tubes with a DAQ system were used as energy input functions in Monte Carlo simulations.

Phoswich

scintillators

protons and gamma radiation

Author

J. S. del Rio

M. J. G. Borge

E. Nácher

A. Perea

G. Ribeiro

Olof Tengblad

Mikael Mårtensson

Chalmers, Fundamental Physics

Thomas Nilsson

Chalmers, Fundamental Physics

Håkan T Johansson

Chalmers, Fundamental Physics

International Journal of Modern Physics: Conference Series. Applications of Nuclear Techniques (CRETE13)

2010-1945 (ISSN)

Vol. 27 1460143-

Subject Categories

Accelerator Physics and Instrumentation

Subatomic Physics

Physical Sciences

Roots

Basic sciences

DOI

10.1142/S2010194514601434

More information

Created

10/7/2017