Plasmonics bring hopes to overcome the bandwidth limitation in interconnectors in integrated electronic circuits, which are not capable to cater the demand for high data bandwidths in the years to come. This study investigates the light propagation in Schottky junction based nanostructures to achieve lossless plasmonic waveguides. The thesis presents analytical explanations and numerical simulations of plasmonic mode guiding in various metal-semiconductor nanostructures by incorporating an amplification scheme to improve the mode propagation length and mode confinement. The proposed techniques will largely assist in designing low-loss plasmonic interconnects for integrated nanocircuits and highly sensitive compact plasmonic sensing devices
A kind of surface plasmon waveguide (SPW) formed from metal-dielectric-metal nanowire array is propo...
Plasmonics is a recently emerged technology that enables the compression of electromagnetic waves in...
This thesis describes experiments with surface plasmons: light confined to metal-dielectric interfac...
Plasmonics bring hopes to overcome the bandwidth limitation in interconnectors in integrated electro...
Abstract The ability to finely control the surface plasmon polariton (SPP) modes of plasmonic wavegu...
Guiding optical energy in metal–dielectric nanostructures by the use of plasmon excitations known as...
We report the observation of strongly confined plasmon modes in hybridized metal-dielectric slot wav...
Over the past few decades optics has begun to take over some of the duties of electronics. The prima...
Light, as an information carrier, is blessed with a number of different properties that make it a st...
The loss-confinement trade-off is the key limitation that prevents realistic utilization of plasmoni...
Although photonics offers an attractive solution to the speed limitation of electronics, reducing th...
The potential of a plasmonic nanolaser using semiconductor gain to compensate the metal loss was inv...
Plasmonics is a rapidly developing field concerning light manipulation at the nanoscale with many po...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
The demand for faster and smaller computing devices is growing larger and larger. In the recent deca...
A kind of surface plasmon waveguide (SPW) formed from metal-dielectric-metal nanowire array is propo...
Plasmonics is a recently emerged technology that enables the compression of electromagnetic waves in...
This thesis describes experiments with surface plasmons: light confined to metal-dielectric interfac...
Plasmonics bring hopes to overcome the bandwidth limitation in interconnectors in integrated electro...
Abstract The ability to finely control the surface plasmon polariton (SPP) modes of plasmonic wavegu...
Guiding optical energy in metal–dielectric nanostructures by the use of plasmon excitations known as...
We report the observation of strongly confined plasmon modes in hybridized metal-dielectric slot wav...
Over the past few decades optics has begun to take over some of the duties of electronics. The prima...
Light, as an information carrier, is blessed with a number of different properties that make it a st...
The loss-confinement trade-off is the key limitation that prevents realistic utilization of plasmoni...
Although photonics offers an attractive solution to the speed limitation of electronics, reducing th...
The potential of a plasmonic nanolaser using semiconductor gain to compensate the metal loss was inv...
Plasmonics is a rapidly developing field concerning light manipulation at the nanoscale with many po...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
The demand for faster and smaller computing devices is growing larger and larger. In the recent deca...
A kind of surface plasmon waveguide (SPW) formed from metal-dielectric-metal nanowire array is propo...
Plasmonics is a recently emerged technology that enables the compression of electromagnetic waves in...
This thesis describes experiments with surface plasmons: light confined to metal-dielectric interfac...