The frequency noise spectrum of a magnetic tunnel junction based spin torque oscillator is examined where multiple modes and mode-hopping events are observed. The frequency noise spectrum is found to consist of both white noise and 1/f frequency noise. We find a systematic and similar dependence of both white noise and 1/f frequency noise on bias current and the relative angle between the reference and free layers, which changes the effective damping and hence the mode-hopping behavior in this system. The frequency at which the 1/f frequency noise changes to white noise increases as the free layer is aligned away from the anti-parallel orientation w.r.t the reference layer. These results indicate that the origin of 1/f frequency noise is related to mode-hopping, which produces both white noise as well as 1/f frequency noise similar to the case of ring lasers.

1.
J. C.
Slonczewski
,
J. Magn. Magn. Mater.
159
,
L1
(
1996
).
2.
3.
W. H.
Rippard
,
M. R.
Pufall
,
S.
Kaka
,
T. J.
Silva
, and
S. E.
Russek
,
Phys. Rev. B
70
,
100406
(
2004
).
4.
S.
Bonetti
,
P.
Muduli
,
F.
Mancoff
, and
J.
Åkerman
,
Appl. Phys. Lett.
94
,
102507
(
2009
).
5.
P. K.
Muduli
,
O. G.
Heinonen
, and
J.
Åkerman
,
J. Appl. Phys.
110
,
076102
(
2011
).
6.
M. R.
Pufall
,
W. H.
Rippard
,
S.
Kaka
,
T. J.
Silva
, and
S. E.
Russek
,
Appl. Phys. Lett.
86
,
082506
(
2005
).
7.
M.
Manfrini
,
T.
Devolder
,
J.-V.
Kim
,
P.
Crozat
,
N.
Zerounian
,
C.
Chappert
,
W.
van Roy
,
L.
Lagae
,
G.
Hrkac
, and
T.
Schrefl
,
Appl. Phys. Lett.
95
,
192507
(
2009
).
8.
P. K.
Muduli
,
Y.
Pogoryelov
,
Y.
Zhou
,
F.
Mancoff
, and
J.
Åkerman
,
Integr. Ferroelectr.
125
,
147
(
2011
).
9.
P.
Villard
,
U.
Ebels
,
D.
Houssameddine
,
J.
Katine
,
D.
Mauri
,
B.
Delaet
,
P.
Vincent
,
M.-C.
Cyrille
,
B.
Viala
,
J.-P.
Michel
,
J.
Prouvee
, and
F.
Badets
,
IEEE J. Solid-State Circuits
45
,
214
(
2010
).
10.
B.
Engel
,
J.
Åkerman
,
B.
Butcher
,
R.
Dave
, and
M.
DeHerrera
,
IEEE Trans. Magn.
41
,
132
(
2005
).
12.
13.
J.-V.
Kim
,
V.
Tiberkevich
, and
A. N.
Slavin
,
Phys. Rev. Lett.
100
,
017207
(
2008
).
14.
J.-V.
Kim
,
Q.
Mistral
,
C.
Chappert
,
V. S.
Tiberkevich
, and
A. N.
Slavin
,
Phys. Rev. Lett.
100
,
167201
(
2008
).
15.
V. S.
Tiberkevich
,
A. N.
Slavin
, and
J.-V.
Kim
,
Phys. Rev. B
78
,
092401
(
2008
).
16.
A.
Slavin
and
V.
Tiberkevich
,
IEEE Trans. Magn.
45
,
1875
(
2009
).
17.
T.
Silva
and
M.
Keller
,
IEEE Trans. Magn.
46
,
3555
(
2010
).
18.
M.
Keller
,
M.
Pufall
,
W.
Rippard
, and
T.
Silva
,
Phys. Rev. B
82
,
054416
(
2010
).
19.
A.
Eklund
,
S.
Bonetti
,
S.
Sani
,
S. M.
Mohseni
,
J.
Persson
,
S.
Chung
,
S. Amir Hossein
Banuazizi
,
E.
Iacocca
,
M.
Östling
, and
J.
Åkerman
,
Appl. Phys. Lett.
104
,
092405
(
2014
).
20.
M.
Quinsat
,
D.
Gusakova
,
J. F.
Sierra
,
J. P.
Michel
,
D.
Houssameddine
,
B.
Delaet
,
M.-C.
Cyrille
,
U.
Ebels
,
B.
Dieny
,
L. D.
Buda-Prejbeanu
,
J. A.
Katine
,
D.
Mauri
,
A.
Zeltser
,
M.
Prigent
,
J.-C.
Nallatamby
, and
R.
Sommet
,
Appl. Phys. Lett.
97
,
182507
(
2010
).
21.
E.
Iacocca
,
O.
Heinonen
,
P. K.
Muduli
, and
J.
Åkerman
,
Phys. Rev. B
89
,
054402
(
2014
).
22.
O.
Heinonen
,
Y.
Zhou
, and
D.
Li
, e-print arXiv:cond-mat/1310.6791 (
2013
).
23.
P. K.
Muduli
,
O. G.
Heinonen
, and
J.
Åkerman
,
Phys. Rev. Lett.
108
,
207203
(
2012
).
24.
R. K.
Dumas
,
E.
Iacocca
,
S.
Bonetti
,
S. R.
Sani
,
S. M.
Mohseni
,
A.
Eklund
,
J.
Persson
,
O.
Heinonen
, and
J.
Åkerman
,
Phys. Rev. Lett.
110
,
257202
(
2013
).
25.
P. K.
Muduli
,
O. G.
Heinonen
, and
J.
Åkerman
,
Phys. Rev. B
83
,
184410
(
2011
).
26.
P.
Andrekson
and
A.
Alping
,
IEEE J. Quantum Electron.
23
,
2078
(
1987
).
27.
Y. E.
Kuzovlev
and
G. N.
Bochkov
, e-print arXiv:cond-mat/1211.4167 (
2012
).
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