TY  - THES
N1  - Pembimbing :  Ir. Prof. Yohannes Sardjono
ID  - digilib14727
UR  - https://digilib.uin-suka.ac.id/id/eprint/14727/
A1  - SITI HALIJAH LAARA , NIM. 09620012
Y1  - 2014/10/28/
N2  - BNCT is a cancer therapy that utilizes 10B and neutrons thermal. The success of BNCT therapy
is highly dependent on the accuracy of neutrons delivery to cancer cells. That requires a
collimator of neutrons that can lead right to the cancer cells to minimize the interaction of
neutrons with the patient's normal cells. The neutron beam that are used in BNCT has to fulfill
five minimum requirements which was recommended by the IAEA. It is necessary for
optimization of collimator. Optimization conducted by simulating the collimator components
with software MCNP5. Source of neutrons used in the simulation is CNG with energy 2.5 MeV
(DD reaction). Simulation of optimization is conducted by varying material type and thickness of
the constituent collimator collimator. Collimator of design optimization produce the epithermal
neutron flux 2.08x108 n/cm2s, fast of neutrons dose ratio of the epithermal flux 336x10-13
Gy.cm2/n, ratio of the flux of gamma dose the epithermal 16.4x10-13 Gy.cm2/n, ratio the thermal
flux and the epithermal at 1.43, and ratio of current and the epithermal flux is 0.19. Based on the
optimization results concluded that : in this research has not produced parameters that can fulfill
the IAEA recommendations as a minimum requirement in the BNCT beam. Therefore, the
collimator of design optimization can be done in future studies.

PB  - UNIVERSITAS ISLAM NEGERI SUNAN KALIJAGA
KW  - Keywords : BNCT
KW  -  Collimator
KW  -  MCNP5
KW  -  CNG.
M1  - skripsi
TI  - PEMODELAN KOLIMATOR UNTUK BORON NEUTRON CAPTURE THERAPY DENGAN SUMBER COMPACT NEUTRON GENERATOR  MENGGUNAKAN MONTE CARLO N-PARTICLE VERSI 5
AV  - restricted
ER  -