Neutron-induced nuclear recoils present one of the dominant backgrounds in many low-background experiments. These neutrons are largely radiogenic in origin, coming from fission and (α, n) reactions in detector components. The (α, n) neutron production rate in a material depends on its composition and the energies of the α decays inside of it. We present NeuCBOT, the Neutron Calculator Based on TALYS, a new tool for calculating the (α, n) yields and neutron energy spectra for materials exposed to a given set of α energies or α-emitting isotopes. We benchmark these calculations against measured yields and SOURCES-4C calculations. We discuss these yield calculations in the context of DEAP-3600, a Weakly Interactive Massive Particle dark matter detector at SNOLAB. Using NeuCBOT and Geant4 simulations, we predict the neutron-induced nuclear recoil background in DEAP-3600. We then present in-situ constraints on the neutron background rate in DEAP-3600, consistent with our prediction.

1.
W.
Wilson
 et al,
Radiation Protection and Shielding Division
(
2002
).
2.
S.
Westerdale
and
P. D.
Meyers
, arXiv:1702.02465 [astro-ph, physics:nucl-ex, physics:physics] February (
2017
), arXiv:1702.02465.
3.
A.
Koning
,
S.
Hilaire
, and
S.
Goriely
,
Nuclear Reaction Program
(
2013
).
4.
J. K.
Tuli
,
Nucl. Instrum. Meth. A
369
,
506
510
February (
1996
).
5.
J. F.
Ziegler
,
M. D.
Ziegler
, and
J. P.
Biersack
,
Nucl. Instrum. Meth. A
19th International Conference on Ion Beam Analysis
,
268
,
1818
1823
June (
2010
).
6.
R.
Heaton
,
H.
Lee
,
P.
Skensved
, and
B. C.
Robertson
,
Nucl. Inst. Meth. A
276
,
529
538
April (
1989
).
7.
N. A.
Roughton
,
T. P.
Intrator
,
R. J.
Peterson
,
C. S.
Zaidins
, and
C. J.
Hansen
,
At. Data Nucl. Data Tables
28
,
341
353
March (
1983
).
8.
P. H.
Stelson
and
F. K.
McGowan
,
Phys. Rev.
133
,
B911
B919
February (
1964
).
9.
J. K.
Bair
and
J. Gomez
del Campo
,
Nucl. Sci. Eng.
71
,
18
28
July (
1979
).
10.
K.
Shibata
,
O.
Iwamoto
,
T.
Nakagawa
,
N.
Iwamoto
,
A.
Ichihara
,
S.
Kunieda
,
S.
Chiba
,
K.
Furutaka
,
N.
Otuka
,
T.
Oshasawa
,
T.
Murata
,
H.
Matsunobu
,
A.
Zukeran
,
S.
Kamada
, and
J.-i.
Katakura
,
Journal of Nuclear Science and Technology
48
,
1
30
January (
2011
).
11.
M.
Herman
,
R.
Capote
,
B.
Carlson
,
P.
Obložinsky`
,
M.
Sin
,
A.
Trkov
,
H.
Wienke
, and
V.
Zerkin
,
Nuclear Data Sheets
108
,
2655
2715
(
2007
).
12.
S.
Westerdale
, “
A Study of Nuclear Recoil Backgrounds in Dark Matter Detectors
,” Ph.D. thesis,
Princeton University
2016
.
13.
M.
Kuźniak
,
Nuclear and Particle Physics Proceedings 37th International Conference on High Energy Physics (ICHEP
),
273
,
340
346
April (
2016
).
14.
M. Shamsuzzoha
Basunia
,
Nuclear Data Sheets
121
,
561
694
September (
2014
).
15.
P.
De Bivre
and
P. D. P.
Taylor
,
Int. J. Mass Spectrom.
123
,
149
166
February (
1993
).
This content is only available via PDF.