Recently, particular attention has been paid to the development of small Fi
eld of View (FOV) breast imagers for Nuclear Medicine applications provided
with YAP:Ce and CsI, both thallium and sodium doped, multipillar matrices.
Tn order to improve their energy and spatial resolution performances, it i
s necessary to increase the light output of such. scintillating matrices. W
e have developed a MonteCarlo code with the purpose of studying the detecti
on efficiency as well as the light collection efficiency of crystal pillars
as a function of their geometry and surfaces treatment. By analysing both
the experimental and the simulations results, we have found out that the be
st choice for this gamma detector is represented by a CsI(Na) matrix made u
p of orthogonally arranged pillars whose dimensions are 2x2s3 mm(3). For th
is geometry, our simulations have showed a detection efficiency of 62 %, a
collection efficiency of 80 % and an expected light output of 68 %.