Surface acoustic waves (SAWs) are elastic waves propagating on the surface of solids with the amplitude decaying into the solid. The well-established fabrication of compact SAW devices, together with well-defined resonance frequencies, places SAWs as an attractive route to manipulate the magnetization states in spintronics, all of which is made possible by the magnetostriction and magnetoelastic effects. Here, we review the basic characteristics of SAW devices and their interaction out-of-resonance and in-resonance with the magnetization in thin films. We describe our own recent results in this research field and closely related works and provide our perspectives moving forward.
REFERENCES
1.
2.
E.
Villari
, Rev. Phys. Chem
202
, 87
(1865
).3.
M. F.
Lewis
and
E.
Patterson
, Appl. Phys. Lett.
20
, 276
(1972
).4.
W.
Robbins
and
M.
Lundstrom
, Appl. Phys. Lett.
26
, 73
(1975
).5.
C.
Kittel
, Phys. Rev.
110
, 836
(1958
).6.
D.
Afanasiev
,
I.
Razdolski
,
K.
Skibinsky
,
D.
Bolotin
,
S.
Yagupov
,
M.
Strugatsky
,
A.
Kirilyuk
,
T.
Rasing
, and
A.
Kimel
, Phys. Rev. Lett.
112
, 147403
(2014
).7.
J.
Janušonis
,
C.
Chang
,
P.
van Loosdrecht
, and
R.
Tobey
, Appl. Phys. Lett.
106
, 181601
(2015
).8.
N. I.
Polzikova
,
S. G.
Alekseev
,
V. A.
Luzanov
, and
A. O.
Raevskiy
, J. Magn. Magn. Mater.
479
, 38
–42
(2019
).9.
S.
Alekseev
,
S.
Dizhur
,
N.
Polzikova
,
V.
Luzanov
,
A.
Raevskiy
,
A.
Orlov
,
V.
Kotov
, and
S.
Nikitov
, Appl. Phys. Lett.
117
, 072408
(2020
).10.
L.
Dreher
,
M.
Weiler
,
M.
Pernpeintner
,
H.
Huebl
,
R.
Gross
,
M.
Brandt
, and
S.
Goennenwein
, Phys. Rev. B
86
, 134415
(2012
).11.
K.
Yamamoto
,
M.
Xu
,
J.
Puebla
,
Y.
Otani
, and
S.
Maekawa
, J. Magn. Magn. Mater.
545
, 168672
(2022
).12.
P.
Delsing
,
A.
Cleland
,
M.
Schuetz
,
J.
Knörzer
et al, J. Phys. D: Appl. Phys.
52
, 353001
(2019
).13.
S.
Davis
,
A.
Baruth
, and
S.
Adenwalla
, Appl. Phys. Lett.
97
, 232507
(2010
).14.
A.
Biswas
,
S.
Bandyopadhyay
, and
J.
Atulasimha
, Appl. Phys. Lett.
103
, 232401
(2013
).15.
J.
Puebla
,
J.
Kim
,
K.
Kondou
, and
Y.
Otani
, Comm. Mater.
1
, 24
(2020
).16.
J.
Dean
,
M.
Bryan
,
J.
Cooper
,
A.
Virbule
,
J. E.
Cunningham
, and
T.
Hayward
, Appl. Phys. Lett.
107
, 142405
(2015
).17.
W.
Edrington
,
U.
Singh
,
M.
Dominguez
,
J.
Alexander
,
R.
Nepal
, and
S.
Adenwalla
, Appl. Phys. Lett.
112
, 052402
(2018
).18.
A.
Adhikari
,
E.
Gilroy
,
T.
Hayward
, and
S.
Adenwalla
, J. Phys.: Condens. Matter
33
, 31LT01
(2021
).19.
L.
Thevenard
,
I. S.
Camara
,
J.-Y.
Prieur
,
P.
Rovillain
,
A.
Lemaιtre
,
C.
Gourdon
, and
J.-Y.
Duquesne
, Phys. Rev. B
93
, 140405
(2016
).20.
T.
Yokouchi
,
S.
Sugimoto
,
B.
Rana
,
S.
Seki
,
N.
Ogawa
,
S.
Kasai
, and
Y.
Otani
, Nat. Nanotechnol.
15
, 361
–366
(2020
).21.
M.
Weiler
,
L.
Dreher
,
C.
Heeg
,
H.
Huebl
,
R.
Gross
,
M.
Brandt
, and
S.
Goennenwein
, Phys. Rev. Lett.
106
, 117601
(2011
).22.
Y.
Tserkovnyak
,
A.
Brataas
, and
G.
Bauer
, Phys. Rev. B
66
, 224403
(2002
).23.
M.
Weiler
,
H.
Huebl
,
F.
Goerg
,
F.
Czeschka
,
R.
Gross
, and
S.
Goennenwein
, Phys. Rev. Lett.
108
, 176601
(2012
).24.
J.
Puebla
,
M.
Xu
,
B.
Rana
,
K.
Yamamoto
,
S.
Maekawa
, and
Y.
Otani
, J. Phys. D: Appl. Phys.
53
, 264002
(2020
).25.
M.
Xu
,
J.
Puebla
,
F.
Auvray
,
B.
Rana
,
K.
Kondou
, and
Y.
Otani
, Phys. Rev. B
97
, 180301
(2018
).26.
Y.
Hwang
,
J.
Puebla
,
M.
Xu
,
A.
Lagarrigue
,
K.
Kondou
, and
Y.
Otani
, Appl. Phys. Lett.
116
, 252404
(2020
).27.
R.
Sasaki
,
Y.
Nii
,
Y.
Iguchi
, and
Y.
Onose
, Phys. Rev. B
95
, 020407
(2017
).28.
A.
Hernández-Mínguez
,
F.
Macià
,
J.
Hernńndez
,
J.
Herfort
, and
P.
Santos
, Phys. Rev. Appl.
13
, 044018
(2020
).29.
R.
Verba
,
I.
Lisenkov
,
I.
Krivorotov
,
V.
Tiberkevich
, and
A.
Slavin
, Phys. Rev. Applied
9
, 064014
(2018
).30.
M.
Küß
,
M.
Heigl
,
L.
Flacke
,
A.
Hörner
,
M.
Weiler
,
M.
Albrecht
, and
A.
Wixforth
, Phys. Rev. Lett.
125
, 217203
(2020
).31.
P.
Shah
,
D.
Bas
,
I.
Lisenkov
,
A.
Matyushov
,
N.
Sun
, and
M.
Page
, Sci. Adv.
6
, eabc5648
(2020
).32.
M.
Küß
,
M.
Heigl
,
L.
Flacke
,
A.
Hörner
,
M.
Weiler
,
A.
Wixforth
, and
M.
Albrecht
, Phys. Rev. Appl.
15
, 034060
(2021
).33.
R.
Verba
,
V.
Tiberkevich
, and
A.
Slavin
, Phys. Rev. Appl.
12
, 054061
(2019
).34.
R.
Sasaki
,
Y.
Nii
, and
Y.
Onose
, Nat. Commun.
12
, 2599
(2021
).35.
S.
Maekawa
and
M.
Tachiki
, AIP Conf. Proc.
29
, 542
(1976
).36.
M.
Xu
,
K.
Yamamoto
,
J.
Puebla
,
K.
Baumgaertl
,
B.
Rana
,
K.
Miura
,
H.
Takahashi
,
D.
Grundler
,
S.
Maekawa
, and
Y.
Otani
, Sci. Adv.
6
, eabb1724
(2020
).37.
S.
Tateno
and
Y.
Nozaki
, Phys. Rev. Appl.
13
, 034074
(2020
).38.
L.
Thevenard
,
C.
Gourdon
,
J. Y.
Prieur
,
H. J.
von Bardeleben
,
S.
Vincent
,
L.
Becerra
,
L.
Largeau
, and
J.-Y.
Duquesne
, Phys. Rev. B
90
, 094401
(2014
).39.
J.
Shi
,
D.
Ahmed
,
X.
Mao
,
S.-C.
Lin
,
A.
Lawita
, and
T.
Huang
, Lab Chip
9
, 2890
(2009
).40.
H.
Ge
,
X.-Y.
Xu
,
L.
Liu
,
R.
Xu
,
Z.-K.
Lin
,
S.-Y.
Yu
,
M.
Bao
,
J.-H.
Jiang
,
M.-H.
Lu
, and
Y.-F.
Chen
, Phys. Rev. Lett.
127
, 144502
(2021
).41.
D. K. S.
Haroche
, Phys. Today
42
(1
), 24
(1989
).42.
J.
Puebla
,
Y.
Hwang
,
K.
Kondou
, and
Y.
Otani
, Ann. Phys.
534
(4
), 2100398
(2022
). 43.
D.
Bozhko
,
P.
Clausen
,
G.
Melkov
,
V.
L'vov
,
A.
Pomyalov
,
V.
Vasyuchka
,
A.
Chumak
,
B.
Hillebrands
, and
A.
Serga
, Phys. Rev. Lett.
118
, 237201
(2017
).44.
K.
Bliokh
and
F.
Nori
, Phys. Rev. B
99
, 174310
(2019
).45.
Z.
Tian
,
Z.
Wang
,
P.
Zhang
,
T.
Naquin
,
J.
Mai
,
Y.
Wu
,
S.
Yang
,
Y.
Gu
,
H.
Bachman
,
Y.
Liang
,
Z.
Yu
, and
T.
Huang
, Sci. Adv.
6
, eabb0494
(2020
).46.
I.
Toftul
,
K.
Bliokh
, and
M.
Petrov
, AIP Conf. Proc.
2300
, 020127
(2020
).47.
H.
Zhuang
,
P.
Kent
, and
R.
Hennig
, Phys. Rev. B
93
, 134407
(2016
).48.
S.
Jiang
,
H.
Xie
,
J.
Shan
, and
K.
Mak
, Nat. Mater.
19
, 1295
(2020
).49.
D. K. D.
MacNeill
,
J. T.
Hou
,
P.
Zhang
,
P.
Jarillo-Herrero
, and
L.
Liu
, Phys. Rev. Lett.
123
, 047204
(2019
).50.
51.
M.
Assouar
and
M.
Oudich
, Appl. Phys. Lett.
99
, 123505
(2011
).52.
J.-Q.
Wang
,
Z.-D.
Zhang
,
S.-Y.
Yu
,
H.
Ge
,
K.-F.
Liu
,
T.
Wu
,
X.-C.
Sun
,
L.
Liu
,
H.-Y.
Chen
,
C.
He
,
M.-H.
Lu
, and
Y.-F.
Chen
, Nat. Commun.
13
, 1324
(2022
).53.
Y.
Deng
,
M.
Oudich
,
N. J.
Gerard
,
J.
Ji
,
M.
Lu
, and
Y.
Jing
, Phys. Rev. B
102
, 180304
(2020
).54.
S.
Gardezi
,
H.
Pirie
,
S.
Carr
,
W.
Dorrell
, and
J.
Hoffman
, 2D Mater.
8
, 031002
(2021
).55.
S.-Y.
Yu
,
X.-C.
Sun
,
X.
Ni
,
Q.
Wang
,
X.-J.
Yan
,
C.
He
,
X.-P.
Liu
,
L.
Feng
,
M.-H.
Lu
, and
Y.-F.
Chen
, Nat. Mater.
15
, 1243
(2016
).56.
M.
Matsuo
,
J.
Ieda
,
K.
Harii
,
E.
Saitoh
, and
S.
Maekawa
, Phys. Rev. B
87
, 180402
(2013
).57.
D.
Kobayashi
,
T.
Yoshikawa
,
M.
Matsuo
,
R.
Iguchi
,
S.
Maekawa
,
E.
Saitoh
, and
Y.
Nozaki
, Phys. Rev. Lett.
119
, 077202
(2017
).58.
J.
Puebla
,
F.
Auvray
,
M.
Xu
,
B.
Rana
,
A.
Albouy
,
H.
Tsai
,
K.
Kondou
,
G.
Tatara
, and
Y.
Otani
, Appl. Phys. Lett.
111
, 092402
(2017
).59.
C.
Stamm
,
C.
Murer
,
M.
Berritta
,
J.
Feng
,
M.
Gabureac
,
P.
Oppeneer
, and
P.
Gambardella
, Phys. Rev. Lett.
119
, 087203
(2017
).60.
F.
Auvray
,
J.
Puebla
,
M.
Xu
,
B.
Rana
,
D.
Hashizume
, and
Y.
Otani
, J. Mater. Sci.
29
, 15664
(2018
).61.
T.
Kawada
,
M.
Kawaguchi
,
T.
Funato
,
H.
Kohno
, and
M.
Hayashi
, Sci. Adv.
7
, eabd9697
(2021
).© 2022 Author(s). Published under an exclusive license by AIP Publishing.
2022
Author(s)
You do not currently have access to this content.