We utilize a graphene field-effect transistor to measure back-gate charging by positrons. The device consists of an exfoliated graphene flake transferred onto hexagonal Boron Nitride, placed on a 1 cm2 substrate of 500 μm thick conducting p-Si capped by 285 nm-thick SiO2. It is placed at close proximity to a 25 μCi 22Na positron source emitting a constant flux of positrons, which during the measurement annihilate within the back-gate. We demonstrate that when the back-gate is allowed to float, the charging current of ≈20 fA causes the buildup of positive charge which capacitively couples to the graphene device and is detected as a variation in the two-terminal conductance. Furthermore, a prolonged exposure to positrons causes a shift in the graphene transport characteristics, associated with local charges at the immediate environment of the graphene flake. Our results demonstrate the utility of two-dimensional layered materials as probes for charging dynamics of positrons in solids.

1.
C.
Neumann
,
C.
Volk
,
S.
Engels
, and
C.
Stampfer
,
Nanotechnology
24
,
444001
(
2013
).
2.
W.
Wang
,
R.
Du
,
A.
Zafar
,
L.
He
,
W.
Zhao
,
Y.
Chen
,
J.
Lu
, and
Z.
Ni
,
IEEE Electron Device Lett.
38
,
1136
(
2017
).
3.
F.
Schedin
,
A. K.
Geim
,
S. V.
Morozov
,
E. W.
Hill
,
P.
Blake
,
M. I.
Katsnelson
, and
K. S.
Novoselov
,
Nat. Mater.
6
,
652
(
2007
).
4.
G.
Chen
,
T. M.
Paronyan
, and
A. R.
Harutyunyan
,
Appl. Phys. Lett.
101
,
053119
(
2012
).
5.
S.
Rumyantsev
,
G.
Liu
,
M. S.
Shur
,
R. A.
Potyrailo
, and
A. A.
Balandin
,
Nano Lett.
12
,
2294
(
2012
).
6.
S.
Basu
and
P.
Bhattacharyya
,
Sens. Actuators B: Chem.
173
,
1
(
2012
).
7.
G. S.
Kulkarni
,
K.
Reddy
,
Z.
Zhong
, and
X.
Fan
,
Nat. Commun.
5
,
4376
(
2014
).
8.
C. R.
Dean
,
A. F.
Young
,
I.
Meric
,
C.
Lee
,
L.
Wang
,
S.
Sorgenfrei
,
K.
Watanabe
,
T.
Taniguchi
,
P.
Kim
,
K. L.
Shepard
 et al.,
Nat. Nanotechnol.
5
,
722
(
2010
).
9.
A.
Cadore
,
E.
Mania
,
A.
Alencar
,
N.
Rezende
,
S.
de Oliveira
,
K.
Watanabe
,
T.
Taniguchi
,
H.
Chacham
,
L.
Campos
, and
R.
Lacerda
,
Sens. Actuators B: Chem.
266
,
438
(
2018
).
10.
M. J.
Puska
and
R. M.
Nieminen
,
Rev. Mod. Phys.
66
,
841
(
1994
).
11.
F.
Tuomisto
and
I.
Makkonen
,
Rev. Mod. Phys.
85
,
1583
(
2013
).
12.
P. J.
Schultz
and
K. G.
Lynn
,
Rev. Mod. Phys.
60
,
701
(
1988
).
13.
M.
Stuart
,
Br. J. Appl. Phys.
18
,
1637
(
1967
).
14.
J.
Güttinger
,
C.
Stampfer
,
S.
Hellmüller
,
F.
Molitor
,
T.
Ihn
, and
K.
Ensslin
,
Appl. Phys. Lett.
93
,
212102
(
2008
).
15.
S. M. T.
Beck
,
W.
Anwand
,
A.
Wagner
,
G.
Brauer
,
A.
Beck
,
A.
Ocherashvili
,
O.
Hen
,
S.
Haroush
,
Y.
Eisen
, and
D.
Moreno
,
Defect Diffus. Forum
331
,
95
(
2012
).
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