Dark state physics has led to a variety of remarkable phenomena in atomic physics, quantum optics, and information theory. Here, we investigate interacting dark resonance type physics in multi-layered plasmonic meta-molecules. We theoretically demonstrate that these plasmonic meta-molecules exhibit sub-natural spectral response, analogous to conventional atomic four-level configuration, by manipulating the evanescent coupling between the bright and dark elements (plasmonic atoms). Using cascaded coupling, we show nearly 4-fold reduction in linewidth of the hybridized resonance compared to a resonantly excited single bright plasmonic atom with same absorbance. In addition, we engineered the geometry of the meta-molecules to realize efficient intramolecular excitation transfer with nearly 80%, on resonant excitation, of the total absorption being localized at the second dark plasmonic atom. An analytical description of the spectral response of the structure is presented with full electrodynamics simulations to corroborate our results. Such multilayered meta-molecules can bring a new dimension to higher quality factor plasmonic resonance, efficient excitation transfer, wavelength demultiplexing, and enhanced non-linearity at nanoscale.

1.
P.
Meystre
,
Atom Optics
(
Springer-Verlag
,
New York
,
2001
).
2.
J. M.
Raimond
,
M.
Brune
, and
S.
Haroche
,
Rev. Mod. Phys.
73
,
565
(
2001
).
3.
M. A.
Nielsen
and
I. L.
Chuang
,
Quantum Computation and Quantum Information
(
Cambridge University Press
,
Cambridge
,
2000
).
4.
M. O.
Scully
and
M. S.
Zubairy
,
Quantum Optics
(
Cambridge Press
,
London
,
1997
).
5.
S.
Zhang
,
D. A.
Genov
,
Y.
Wang
,
M.
Liu
, and
X.
Zhang
,
Phys. Rev. Lett.
101
,
047401
(
2008
).
6.
N.
Liu
,
L.
Langguth
,
T.
Weiss
,
J.
Kastel
,
M.
Fleischhauer
,
T.
Pfau
, and
H.
Giessen
,
Nat. Mater.
8
,
758
(
2009
).
7.
R.
Taubert
,
M.
Hentschel
,
J.
Kastel
, and
H.
Giessen
,
Nano Lett.
12
,
1367
(
2012
).
8.
P.
Tassin
,
L.
Zhang
,
R.
Zhao
,
A.
Jain
,
T.
Koschny
, and
C. M.
Soukoulis
,
Phys. Rev. Lett.
109
,
187401
(
2012
).
9.
N.
Liu
,
T.
Weiss
,
M.
Mesch
,
L.
Langguth
,
U.
Eigenthaler
,
M.
Hirscher
,
C.
Snnichsen
, and
H.
Giessen
,
Nano Lett.
10
,
1103
(
2010
).
10.
C.
Wu
,
A. B.
Khanikaev
, and
G.
Shvets
,
Phys. Rev. Lett.
106
,
107403
(
2011
).
11.
C.
Wu
,
A. B.
Khanikaev
,
R.
Adato
,
N.
Arju
,
A. A.
Yanik
,
H.
Altug
, and
G.
Shvets
,
Nat. Mater.
11
,
69
(
2012
).
12.
N.
Liu
,
M.
Hentschel
,
T.
Weiss
,
A. P.
Alivisatos
, and
H.
Giessen
,
Science
332
,
1407
(
2011
).
13.
T. J.
Davis
,
M.
Hentschel
,
N.
Liu
, and
H.
Giessen
,
ACS Nano
6
,
1291
(
2012
).
14.
J.
Seidel
,
S.
Grafstroem
, and
L.
Eng
,
Phys. Rev. Lett.
94
,
177401
(
2005
).
15.
J. B.
Khurgin
and
G.
Sun
,
Nanophotonics
1
,
3
(
2012
).
16.
P. M.
Bolger
,
W.
Dickson
,
A. V.
Krasavin
,
L.
Liebscher
,
S. G.
Hickey
,
D. V.
Skryabin
, and
A. V.
Zayats
,
Opt. Lett.
35
,
1197
(
2010
).
17.
K. E.
Dorfman
,
P. K.
Jha
,
D. V.
Voronine
,
P.
Genevet
,
F.
Capasso
, and
M. O.
Scully
,
Phys. Rev. Lett.
111
,
043601
(
2013
).
18.
P. K.
Jha
,
X.
Yin
, and
X.
Zhang
,
Appl. Phys. Lett.
102
,
091111
(
2013
).
19.
M. D.
Lukin
,
S. F.
Yelin
,
M.
Fleischhauer
, and
M. O.
Scully
,
Phys. Rev. A
60
,
3225
(
1999
).
20.
S. F.
Yelin
,
V. A.
Sautenkov
,
M. M.
Kash
,
G. R.
Welch
, and
M. D.
Lukin
,
Phys. Rev. A
68
,
063801
(
2003
).
21.
A. E.
Miroshnichenko
,
S.
Flach
, and
Y. S.
Kivshar
,
Rev. Mod. Phys.
82
,
2257
(
2010
).
22.
P. B.
Johnson
and
R. W.
Christy
,
Phys. Rev. B
6
,
4370
(
1972
).
23.
See supplementary material at http://dx.doi.org/10.1063/1.4896035 for comparison between the numerical simulation LCLO model and full electrodynamics simulations, dark-dark plasmonic atom coupling, analytical calculation to efficient intra-molecular excitation transfer and effect of substrate index on linewidth suppression.
24.
M. A.
Ordal
,
L. L.
Long
,
R. J.
Bell
,
S. E.
Bell
,
R. R.
Bell
,
R. W.
Alexander
, and
C. A.
Ward
,
Appl. Opt.
22
,
1099
(
1983
).

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