Properties of a cold-neutron irradiation facility for in vitro research onboron neutron capture therapy at the Geesthacht Neutron Facility

Citation
L. Ludemann et al., Properties of a cold-neutron irradiation facility for in vitro research onboron neutron capture therapy at the Geesthacht Neutron Facility, NUCL SCI EN, 135(1), 2000, pp. 57-63
Citations number
14
Categorie Soggetti
Nuclear Emgineering
Journal title
NUCLEAR SCIENCE AND ENGINEERING
ISSN journal
00295639 → ACNP
Volume
135
Issue
1
Year of publication
2000
Pages
57 - 63
Database
ISI
SICI code
0029-5639(200005)135:1<57:POACIF>2.0.ZU;2-K
Abstract
A new irradiation facility, GBET(basic research on boron neutron capture th erapy), especially designed for in vitro experiments on boron neutron captu re therapy was put into operation at the Geesthacht Neutron Facility of the GKSS Research Center. Its location at a cold-neutron guide without direct view of the reactor core has two advantages: First, contamination of the pr imary beam with fast neutrons or photons is negligible. Second, GBET yields a high cold-neutron flux of 1.4 x 10(8)/(cm(2).s) over an area of 3 x 4 cm . As a result of the energy dependence of the neutron absorption cross sect ion of boron, this corresponds to a higher effective thermal flux of 4.7 x 10(8)/(cm(2).s). This effect is used to reduce the irradiation times by a f actor of 3.32. The effective flux is sufficient for irradiation of thin samples like cell monolayers in conventional culture flasks. For such in vitro irradiations, a survival fraction of 1% is achieved at a homogeneous boron concentration of 100 ppm B-10 within similar to 20 min. Furthermore, the beam can be used for boron radiography. The respective experimental conditions are discusse d, especially the neutron flux distribution, available for these different types of samples.