TY - JOUR
T1 - Generation of a Conjoint Surface Plasmon by an Infrared Nano‐Antenna Array
AU - Allsop, T
AU - Mou, C
AU - Neal, R
AU - Kundrát, V
AU - Wang, C
AU - Kalli, K
AU - Webb, D
AU - Liu, X
AU - Davey, P
AU - Culverhouse, P
AU - Diego, Ania-Castañón J
PY - 2021/2
Y1 - 2021/2
N2 - Localized surface plasmons (LSP) excited by optical fields have many potential
applications resulting from their ability in detecting ultra-small, ambient
refractive index change. Current methods using surface nano-patterning
by means of lithography have given rise to LSP of limited propagation and
interaction lengths, meaning that practical applications remain challenging.
This article describes a new all-optical method of generating LSP by means of a
carefully fabricated low-dimensional nano-structured material using a direct-write
photochemical lithography. It is shown that the resulting array of localized
SPs combine or “Conjoin” to have an unprecedented large interaction length,
via coupled evanescent fields, giving rise to superior spectral sensitivities;
several orders of magnitude better than those quoted elsewhere and reaching
6 103 nm RIU1 in the aqueous regime and 104 nm RIU1 in the gaseous
regime. Numerical modeling is performed that shows this design of plasmonic
platform is capable of producing sensitivities of 105
–106 nm RIU1
. It is believed
the results achieved in this investigation show that a unique conjoint SP
operational mode will significantly impact areas of interest, such as single
molecular dynamics, drug delivery systems, etc.
AB - Localized surface plasmons (LSP) excited by optical fields have many potential
applications resulting from their ability in detecting ultra-small, ambient
refractive index change. Current methods using surface nano-patterning
by means of lithography have given rise to LSP of limited propagation and
interaction lengths, meaning that practical applications remain challenging.
This article describes a new all-optical method of generating LSP by means of a
carefully fabricated low-dimensional nano-structured material using a direct-write
photochemical lithography. It is shown that the resulting array of localized
SPs combine or “Conjoin” to have an unprecedented large interaction length,
via coupled evanescent fields, giving rise to superior spectral sensitivities;
several orders of magnitude better than those quoted elsewhere and reaching
6 103 nm RIU1 in the aqueous regime and 104 nm RIU1 in the gaseous
regime. Numerical modeling is performed that shows this design of plasmonic
platform is capable of producing sensitivities of 105
–106 nm RIU1
. It is believed
the results achieved in this investigation show that a unique conjoint SP
operational mode will significantly impact areas of interest, such as single
molecular dynamics, drug delivery systems, etc.
U2 - 10.1002/adpr.202000003
DO - 10.1002/adpr.202000003
M3 - Article
SN - 2699-9293
VL - 2
JO - Advanced Photonics Research
JF - Advanced Photonics Research
IS - 2
ER -