We investigate the coupling between mechanical and optical modes supported by coupled, freestanding, photonic crystal nanobeam cavities. We show that localized cavity modes for a given gap between the nanobeams provide weak optomechanical coupling with out-of-plane mechanical modes. However, we show that the coupling can be significantly increased, more than an order of magnitude for the symmetric mechanical mode, due to optical resonances that arise from the interaction of the localized cavity modes with standing waves formed by the reflection from thesubstrate. Finally, amplification of motion for the symmetric mode has been observed and attributed to the strong optomechanical interaction of our hybrid system. The amplitude of these self-sustained oscillations is large enough to put the system into a non-linear oscillation regime where a mixing between the mechanical modes is experimentally observed and theoretically explained.
References
1.
T.
Braun
, M.
Ghatkesar
, N.
Backmann
, W.
Grange
, P.
Boulanger
, L.
Letellier
, H.
Lang
, A.
Bietsch
, C.
Gerber
, and M.
Hegner
, Nat. Nanotechnol.
4
, 179
(2009
).2.
J.
Mertens
, C.
Rogero
, M.
Calleja
, D.
Ramos
, C.
Briones
, J. A.
Martín-Gago
, and J.
Tamayo
, Nat. Nanotechnol.
3
, 301
(2008
).3.
T.
Burg
, M.
Godin
, S.
Knudsen
, W.
Shen
, G.
Carlson
, J.
Foster
, K.
Babcock
, and S.
Manalis
, Nature (London)
446
, 1066
(2007
).4.
B.
Lassagne
, D.
Garcia-Sanchez
, A.
Aguasca
, and A.
Bachtold
, Nano Lett.
8
(11
), 3735
(2008
).5.
E.
Gil-Santos
, D.
Ramos
, J.
Martinez
, M.
Fernández-Regúlez
, R.
García
, A. San
Paulo
, M.
Calleja
, and J.
Tamayo
, Nat. Nanotechnol.
5
, 641
(2010
).6.
B. S.
Song
, T.
Asano
, Y.
Akahane
, Y.
Tanaka
, and S.
Noda
, J. Lightwave Technol.
23
, 1449
(2005
).7.
D.
Rugar
, R.
Budakian
, H. J.
Mamin
, and B. W.
Chui
, Nature (London)
430
, 329
(2004
).8.
A. D.
O'Connell
, M.
Hofheinz
, M.
Ansmann
, R. C.
Bialczak
, M.
Lenander
, E.
Lucero
, M.
Neeley
, D.
Sank
, H.
Wang
, M.
Weides
, J.
Wenner
, J. M.
Martinis
, and A. N.
Cleland
, Nature (London)
464
, 697
(2010
).9.
J.
Chan
, T. P. Mayer
Alegre
, A. H.
Safavi-Naeini
, J. T.
Hill
, A.
Krause
, S.
Gröblacher
, M.
Aspelmeyer
, and O.
Painter
, Nature (London)
478
, 89
(2011
).10.
R. B.
Karabalin
, S. C.
Masmanidis
, and M. L.
Roukes
, Appl. Phys. Lett.
97
, 183101
(2010
).11.
J.
Arcamone
, M.
Sansa
, J.
Verd
, A.
Uranga
, G.
Abadal
, N.
Barniol
, M. A. F. van den
Boogaart
, J.
Brugger
, and F.
Pérez-Murano
, Small
5
(2
), 176
(2009
).12.
K. L.
Ekinci
and M. L.
Roukes
, Rev. Sci. Instrum.
76
, 061101
(2005
).13.
N. O.
Azak
, M. Y.
Shagam
, D. M.
Karabacak
, K. L.
Ekinci
, D. H.
Kim
, and D. Y.
Jang
, Appl. Phys. Lett.
91
, 093112
(2007
).14.
S.
Babak
and P. D.
Ashby
, Phys. Rev. Lett.
104
, 147203
(2010
).15.
T. J.
Kippenberg
and K. J.
Vahala
, Science
321
, 1172
(2008
).16.
T.
Carmon
, H.
Rokhsari
, L.
Yang
, T. J.
Kippenberg
, and K. J.
Vahala
, Phys. Rev. Lett.
94
, 223902
(2005
).17.
M. L.
Povinelli
, M.
Loncar
, M.
Ibanescu
, E. J.
Smythe
, S. G.
Johnson
, F.
Capasso
, and J. D.
Joannopoulos
, Opt. Lett.
30
(22
), 3042
(2005
).18.
M.
Tomes
and T.
Carmon
, Phys. Rev. Lett.
102
(11
), 113601
(2009
).19.
X.
Zhang
, M.
Tomes
, and T.
Carmon
, Opt. Express
19
(10
), 9066
(2011
).20.
I.
Favero
and K.
Karrai
, Nat. Photonics
3
(4
), 201
(2009
).21.
F.
Marquardt
and S. M.
Girvin
, Physics
2
, 40
(2009
).22.
D.
Ramos
, E.
Gil-Santos
, O.
Malvar
, J. M.
Llorens
, V.
Pini
, A. San
Paulo
, M.
Calleja
, and J.
Tamayo
, Sci. Rep.
3
, 3445
(2013
).23.
P. B.
Deotare
, M. W.
McCutcheon
, I. W.
Frank
, M.
Khan
, and M.
Loncar
, Appl. Phys. Lett.
95
, 031102
(2009
).24.
M.
Spletzer
, A.
Raman
, A. Q.
Wu
, X.
Xu
, and R.
Reifenberg
, Appl. Phys. Lett.
88
, 254102
(2006
).25.
I. W.
Frank
, P. B.
Deotare
, M. W.
McCutcheon
, and M.
Loncar
, Opt. Express
18
, 8705
(2010
).26.
E.
Gil-Santos
, D.
Ramos
, A.
Jana
, M.
Calleja
, A.
Raman
, and J.
Tamayo
, Nano Lett.
9
, 4122
(2009
).27.
E.
Gil-Santos
, D.
Ramos
, V.
Pini
, M.
Calleja
, and J.
Tamayo
, Appl. Phys. Lett.
98
, 123108
(2011
).28.
T. J.
Kippenberg
and K. J.
Vahala
, Opt. Express
15
, 17172
(2007
).29.
S. G.
Johnson
, M.
Ibanescu
, M. A.
Skorobogatiy
, O.
Weisberg
, J. D.
Joannopoulos
, and Y.
Fink
, Phys. Rev. E
65
, 066611
(2002
).30.
M.
Eichenfield
, R.
Camacho
, J.
Chan
, K. J.
Vahala
, and O.
Painter
, Nature (London)
459
, 550
(2009
).31.
P. B.
Deotare
, M. W.
McCutcheon
, I. W.
Frank
, M.
Khan
, and M.
Loncar
, Appl. Phys. Lett.
94
, 121106
(2009
).32.
Q.
Quan
, P. B.
Deotare
, and M.
Loncar
, Appl. Phys. Lett.
96
, 203102
(2010
).33.
D.
Ramos
, E.
Gil-Santos
, V.
Pini
, J. M.
Llorens
, M.
Fernández-Regúlez
, A. San
Paulo
, M.
Calleja
, and J.
Tamayo
, Nano Lett.
12
, 932
(2012
).34.
M. J.
Burek
, D.
Ramos
, P.
Patel
, I. W.
Frank
, and M.
Loncar
, Appl. Phys. Lett.
103
, 131904
(2013
).35.
P. B.
Deotare
, I.
Bulu
, I. W.
Frank
, Q.
Quan
, Y.
Zhang
, R.
Ilic
, and M.
Loncar
, Nat. Commun.
3
, 846
(2012
).36.
J.
Bechhoefer
, Rev. Mod. Phys.
77
, 783
(2005
).37.
J.
Tamayo
, M.
Calleja
, D.
Ramos
, and J.
Mertens
, Phys. Rev. B
76
, 180201(R)
(2007
).38.
T.
Antoni
, K.
Makles
, R.
Braive
, T.
Briant
, P.-F.
Cohandon
, I.
Sagnes
, I.
Robert-Philip
, and A.
Heidmann
, EPL
100
, 68005
(2012
).© 2014 AIP Publishing LLC.
2014
AIP Publishing LLC
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