Many concepts for skyrmion-based devices have been proposed, and most of their possible applications are based on the motion of skyrmions driven by a dc current in an area with a constricted geometry. However, skyrmion motion driven by a pulsed current has not been investigated so far. In this work, we propose a skyrmion-based high-frequency signal generator based on the pulsed-current-driven circular motion of skyrmions in a square-shaped film by micromagnetic simulation. The results indicate that skyrmions can move in a closed curve with central symmetry. The trajectory and cycle period can be adjusted by tuning the size of the film, the current density, the Dzyaloshinskii–Moriya interaction constant, and the local in-plane magnetic anisotropy. The period can be tuned from several nanoseconds to tens of nanoseconds, which offers the possibility to prepare high-frequency signal generator based on skyrmions.

1.
S.
Mühlbauer
,
B.
Binz
,
F.
Jonietz
,
C.
Pfleiderer
,
A.
Rosch
,
A.
Neubauer
,
R.
Georgii
, and
P.
Böni
,
Science
323
,
915
(
2009
).
2.
X. Z.
Yu
,
Y.
Onose
,
N.
Kanazawa
,
J. H.
Park
,
J. H.
Han
,
Y.
Matsui
,
N.
Nagaosa
, and
Y.
Tokura
,
Nature
465
,
901
(
2010
).
3.
S.
Heinze
,
K.
von Bergmann
,
M.
Menzel
,
J.
Brede
,
A.
Kubetzka
,
R.
Wiesendanger
,
G.
Bihlmayer
, and
S.
Blügel
,
Nat. Phys.
7
,
713
(
2011
).
4.
X. Z.
Yu
,
N.
Kanazawa
,
Y.
Onose
,
K.
Kimoto
,
W. Z.
Zhang
,
S.
Ishiwata
,
Y.
Matsui
, and
Y.
Tokura
,
Nat. Mater.
10
,
106
(
2011
).
5.
J.
Sampaio
,
V.
Cros
,
S.
Rohart
,
A.
Thiaville
, and
A.
Fert
,
Nat. Nanotechnol.
8
,
839
(
2013
).
6.
A.
Fert
,
V.
Cros
, and
J.
Sampaio
,
Nat. Nanotechnol.
8
,
152
(
2013
).
7.
N.
Nagaosa
and
Y.
Tokura
,
Nat. Nanotechnol.
8
,
899
(
2013
).
8.
W.
Kang
,
Y.
Huang
,
X.
Zhang
,
Y.
Zhou
, and
W.
Zhao
,
Proc. IEEE
104
,
2040
(
2016
).
9.
G.
Finocchio
,
F.
Büttner
,
R.
Tomasello
,
M.
Carpentieri
, and
M.
Kläui
,
J. Phys. D: Appl. Phys.
49
,
423001
(
2016
).
10.
X.
Zhang
,
Y.
Zhou
,
M.
Ezawa
,
G. P.
Zhao
, and
W.
Zhao
,
Sci. Rep.
5
,
11369
(
2015
).
11.
X.
Zhang
,
M.
Ezawa
, and
Y.
Zhou
,
Sci. Rep.
5
,
9400
(
2015
).
12.
S.
Zhang
,
J.
Wang
,
Q.
Zheng
,
Q.
Zhu
,
X.
Liu
,
S.
Chen
,
C.
Jin
,
Q.
Liu
,
C.
Jia
, and
D.
Xue
,
New J. Phys.
17
,
023061
(
2015
).
13.
W.
Jiang
,
P.
Upadhyaya
,
W.
Zhang
,
G.
Yu
,
M. B.
Jungfleisch
,
F. Y.
Fradin
,
J. E.
Pearson
,
Y.
Tserkovnyak
,
K. L.
Wang
,
O.
Heinonen
,
S. G. E.
te Velthuis
, and
A.
Hoffmann
,
Science
349
,
283
(
2015
).
14.
A. A.
Thiele
,
Phys. Rev. Lett.
30
,
230
(
1973
).
15.
16.
J.
Zang
,
M.
Mostovoy
,
J. H.
Han
, and
N.
Nagaosa
,
Phys. Rev. Lett.
107
,
136804
(
2011
).
17.
W.
Jiang
,
X.
Zhang
,
G.
Yu
,
W.
Zhang
,
X.
Wang
,
M. B.
Jungfleisch
,
J. E.
Pearson
,
X.
Cheng
,
O.
Heinonen
,
K. L.
Wang
,
Y.
Zhou
,
A.
Hoffmann
, and
S. G. E.
te Velthuis
,
Nat. Phys.
13
,
162
(
2017
).
18.
J.
Iwasaki
,
M.
Mochizuki
, and
N.
Nagaosa
,
Nat. Nanotechnol.
8
,
742
(
2013
).
19.
R.
Tomasello
,
E.
Martinez
,
R.
Zivieri
,
L.
Torres
,
M.
Carpentieri
, and
G.
Finocchio
,
Sci. Rep.
4
,
6784
(
2014
).
20.
X.
Zhang
,
M.
Ezawa
,
D.
Xiao
,
G. P.
Zhao
,
Y.
Liu
, and
Y.
Zhou
,
Nanotechnology
26
,
225701
(
2015
).
21.
I.
Purnama
,
W. L.
Gan
,
D. W.
Wong
, and
W. S.
Lew
,
Sci. Rep.
5
,
10620
(
2015
).
22.
N.
Romming
,
C.
Hanneken
,
M.
Menzel
,
J. E.
Bickel
,
B.
Wolter
,
K.
von Bergmann
,
A.
Kubetzka
, and
R.
Wiesendanger
,
Science
341
,
636
(
2013
).
23.
S.
Rohart
and
A.
Thiaville
,
Phys. Rev. B
88
,
184422
(
2013
).
24.
J.
Sinova
,
S. O.
Valenzuela
,
J.
Wunderlich
,
C. H.
Back
, and
T.
Jungwirth
,
Rev. Mod. Phys.
87
,
1213
(
2015
).
25.
H.
Yang
,
A.
Thiaville
,
S.
Rohart
,
A.
Fert
, and
M.
Chshiev
,
Phys. Rev. Lett.
115
,
267210
(
2015
).
26.
Y.
Zhou
and
M.
Ezawa
,
Nat. Commun.
5
,
4652
(
2014
).
27.
J. C.
Martinez
and
M. B. A.
Jalil
,
J. Magn. Magn. Mater.
424
,
291
(
2017
).
28.
SH.
Sato
,
S.
Ikeda
,
S.
Fukami
,
H.
Honjo
,
S.
Ishikawa
,
M.
Yamanouchi
,
K.
Mizunuma
,
F.
Matsukura
, and
H.
Ohno
,
Jpn. J. Appl. Phys., Part 1
53
,
04EM02
(
2014
).
29.
L.
You
,
O.
Lee
,
D.
Bhowmik
,
D.
Labanowski
,
J.
Hong
,
J.
Bokor
, and
S.
Salahuddin
,
Proc. Natl. Acad. Sci. U. S. A.
112
,
10310
(
2015
).
30.
G.
Yu
,
P.
Upadhyaya
,
Y.
Fan
,
J. G.
Alzate
,
W.
Jiang
,
K. L.
Wong
,
S.
Takei
,
S. A.
Bender
,
L. T.
Chang
,
Y.
Jiang
,
M.
Lang
,
J.
Tang
,
Y.
Wang
,
Y.
Tserkovnyak
,
P. K.
Amiri
, and
K. L.
Wang
,
Nat. Nanotechnol.
9
,
548
(
2014
).

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