S. Singkarat et al., DEVELOPMENT OF AN ENCAPSULATED SCINTILLATING-FIBER DETECTOR AS A 14-MEV NEUTRON SENSOR, Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment, 384(2-3), 1997, pp. 463-470
A scintillating fiber detector has been developed and tested for use a
s a 14-MeV neutron sensor. The detector, designated an ''Encapsulated
Scintillating Fiber Detector (EFD)'', is composed of a parallel array
of 0.5 x 0.5 x 15 mm BCF-12 plastic scintillating fibers encapsulated
in clear BC-600 optical cement. The 85 fibers form a 12 x 12 mm square
array, with a separation gap of 0.8-1 mm, in the center of the 40 mm
diameter x 15 mm thick hardened optical cement. It can be directly cou
pled to an ordinary 2 in. diameter photomultiplier tube and its simple
electronics. The response of the detector to gamma-rays from isotopic
sources, as well as to 2.6- and 14-MeV monoenergetic neutrons from a
neutron generator has been evaluated. The detector shows 3 distinct pr
operties simultaneously, i.e. (1) good gamma-ray pulse height reductio
n, (2) discrimination against 14-MeV neutrons entering at angles non-p
arallel to the fiber axis, and (3) production of a full energy peak of
14-MeV recoil protons in the direction of the fiber axes. Investigati
ons by Monte Carlo simulation are also included.