We have experimentally investigated the non-resonant radiation damping in the coupled cavity photon-magnon system in addition to the resonant radiation damping which results in the linewidth exchange between the magnon-like and photon-like hybrid modes. The contribution of this non-resonant effect becomes apparent when the cavity photon-magnon resonance frequencies are mismatched. By carefully examining the change in the linewidth and the shift in the magnon resonance as a function of the coupling strength between the cavity photons and magnons, we can quantitatively describe this non-resonant radiation damping by including an additional relaxation channel for the hybridized photon-magnon system. This experimental realization and theoretical modelling of the non-resonant radiation damping in the cavity photon-magnon system may help in the design and adaptation of these systems for practical applications.

1.
P. M. V. B.
Barone
and
A. O.
Caldeira
,
Phys. Rev. A
43
,
57
(
1991
).
2.
M. P.
Norton
and
D. G.
Karczub
,
Fundamentals of Noise and Vibration Analysis for Engineers
, 2nd ed. (
Cambridge University Press
,
Cambridge
,
2003
), Chap. 3.
3.
C.
Ropers
,
D. J.
Park
,
G.
Stibenz
,
G.
Steinmeyer
,
J.
Kim
,
D. S.
Kim
, and
C.
Lienau
,
Phys. Rev. Lett.
94
,
113901
(
2005
).
4.
N.
Bloembergen
and
R. V.
Pound
,
Phys. Rev.
95
,
8
(
1954
).
5.
R. W.
Sanders
,
D.
Paquette
,
V.
Jaccarino
, and
S. M.
Rezende
,
Phys. Rev. B
10
,
132
(
1974
).
6.
S.
Chaudhuri
and
F.
Keffer
,
J. Phys. Chem. Sol.
45
,
47
(
1984
).
7.
G.
Wende
,
Phys. Status Solidi
36
,
557
(
1976
).
8.
M. A. W.
Schoen
,
J. M.
Shaw
,
H. T.
Nembach
,
M.
Weiler
, and
T. J.
Silva
,
Phys. Rev. B
92
,
184417
(
2015
).
9.
H.
Le Gall
,
B.
Desormier
, and
E.
Milot
,
J. Phys. Chem. Sol.
30
,
979
(
1969
).
10.
L.
Bai
,
M.
Harder
,
Y. P.
Chen
,
X.
Fan
,
J. Q.
Xiao
, and
C.-M.
Hu
,
Phys. Rev. Lett.
114
,
227201
(
2015
).
11.
C.-M.
Hu
,
Phys. Canada
72
,
76
(
2016
).
12.
B. M.
Yao
,
Y. S.
Gui
,
Y.
Xiao
,
H.
Guo
,
X. S.
Chen
,
W.
Lu
,
C. L.
Chien
, and
C.-M.
Hu
,
Phys. Rev. B
92
,
184407
(
2015
).
13.
B.
Bhoi
,
T.
Cliff
,
I. S.
Maksymov
,
M.
Kostylev
,
R.
Aiyar
,
N.
Venkataramani
,
S.
Prasad
, and
R. L.
Stamps
,
J. Appl. Phys.
116
,
243906
(
2014
).
14.
Y.
Cao
,
P.
Yan
,
H.
Huebl
,
S. T. B.
Goennenwein
, and
G. E. W.
Bauer
,
Phys. Rev. B
91
,
094423
(
2015
).
15.
Y.
Tabuchi
,
S.
Ishino
,
T.
Ishikawa
,
R.
Yamazaki
,
K.
Usami
, and
Y.
Nakamura
,
Phys. Rev. Lett.
113
,
083603
(
2014
).
16.
H.
Huebl
,
C. W.
Zollitsch
,
J.
Lotze
,
F.
Hocke
,
M.
Greifenstein
,
A.
Marx
,
R.
Gross
, and
S. T. B.
Goennenwein
,
Phys. Rev. Lett.
111
,
127003
(
2013
).
17.
X. F.
Zhang
,
C. L.
Zou
,
L.
Jiang
, and
H. X.
Tang
,
J. Appl. Phys.
119
,
023905
(
2016
).
18.
B.
Zare Rameshti
,
Y.
Cao
, and
G. E. W.
Bauer
,
Phys. Rev. B
91
,
214430
(
2015
).
19.
M.
Goryachev
,
W. G.
Farr
,
D. L.
Creedon
,
Y.
Fan
,
M.
Kostylev
, and
M. E.
Tobar
,
Phys. Rev. Appl.
2
,
054002
(
2014
).
20.
X.
Zhang
,
C.-L.
Zou
,
L.
Jiang
, and
H. X.
Tang
,
Phys. Rev. Lett.
113
,
156401
(
2014
).
21.
X. F.
Zhang
,
C. L.
Zou
,
N.
Zhu
,
F.
Marquardt
,
L.
Jiang
, and
H. X.
Tang
,
Nat. Commun.
6
,
8914
(
2015
).
22.
M.
Harder
,
L.
Bai
,
C.
Match
,
J.
Sirker
, and
C.-M.
Hu
,
Sci. China Phys. Mech. Astron.
59
,
117511
(
2016
).
23.
Y.
Tabuchi
,
S.
Ishino
,
A.
Noguchi
,
T.
Ishikawa
,
R.
Yamazaki
,
K.
Usami
, and
Y.
Nakamura
,
Science
349
,
405
(
2015
).
24.
J. A.
Haigh
,
N. J.
Lambert
,
A. C.
Doherty
, and
A. J.
Ferguson
,
Phys. Rev. B
91
,
104410
(
2015
).
25.
N. J.
Lambert
,
J. A.
Haigh
, and
A. J.
Ferguson
,
J. Appl. Phys.
117
,
053910
(
2015
).
26.
J.
Bourhill
,
N.
Kostylev
,
M.
Goryachev
,
D.
Creedon
, and
M.
Tobar
,
Phys. Rev. B
93
,
144420
(
2016
).
27.
S.
Kaur
,
B. M.
Yao
,
J. W.
Rao
,
Y. S.
Gui
, and
C.-M.
Hu
,
Appl. Phys. Lett.
109
,
032404
(
2016
).
28.
S.
Kalarickal
,
P.
Krivosik
,
M.
Wu
,
C.
Patton
,
M.
Schneider
,
P.
Kabos
,
T.
Silva
, and
J.
Nibarger
,
J. Appl. Phys.
99
(
9
),
093909
(
2006
).
29.
A. B.
Pippard
,
The Physics of Vibration
(
Cambridge University Press
,
Cambridge
,
1989
), Chap. 16.
30.
A.
Bienfait
,
J. J.
Pla
,
Y.
Kubo
,
X.
Zhou
,
M.
Stern
,
C. C.
Lo
,
C. D.
Weis
,
T.
Schenkel
,
D.
Vion
,
D.
Esteve
,
J. J. L.
Morton
, and
P.
Bertet
,
Nature
531
,
74
77
(
2016
).

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