A high-Q slot mode photonic crystal nanobeam cavity based biosensor design with positive optomechanical feedback is presented. Detailed analysis of sensitivity enhancement due to feedback shows a fourfold improvement without any compromise in quality factor
[[abstract]]A highly sensitive biosensor based on a silicon photonic crystal waveguide incorporating...
Nanobeam cavities based on Silicon-On-Insulator (SOI) working at telecommunication wavelengths (1550...
In this paper we have presented a two dimensional photonic crystal based biosensor. The structure of...
A biosensor design based on a photonic crystal nanobeam cavity with an optomechanical positive feedb...
We numerically and experimentally investigated the lateral coupling between photonic crystal (PhC) n...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
In this thesis, we presented a refractive index based optical bio-sensor, utilizing a slot mode one ...
Optomechanical nanocavities allow nanomechanical resonances to be measured optically with high sensi...
Optical biosensors are increasingly being considered for lab-on-a-chip applications due to their ben...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
Results are presented on the use of InGaAsP photonic crystal nanobeam slot waveguides for refractive...
We propose a design of series-connected one-dimensional photonic crystal nanofiber cavity sensor (1-...
On-chip refractive index sensing plays an important role in many fields, ranging from chemical, biom...
We propose a new type of refractive index sensing based on the transverse magnetic (TM) modes in the...
Nanobeam cavities based on Silicon-On-Insulator (SOI) working at telecommunication wavelengths (1550...
[[abstract]]A highly sensitive biosensor based on a silicon photonic crystal waveguide incorporating...
Nanobeam cavities based on Silicon-On-Insulator (SOI) working at telecommunication wavelengths (1550...
In this paper we have presented a two dimensional photonic crystal based biosensor. The structure of...
A biosensor design based on a photonic crystal nanobeam cavity with an optomechanical positive feedb...
We numerically and experimentally investigated the lateral coupling between photonic crystal (PhC) n...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
In this thesis, we presented a refractive index based optical bio-sensor, utilizing a slot mode one ...
Optomechanical nanocavities allow nanomechanical resonances to be measured optically with high sensi...
Optical biosensors are increasingly being considered for lab-on-a-chip applications due to their ben...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
Results are presented on the use of InGaAsP photonic crystal nanobeam slot waveguides for refractive...
We propose a design of series-connected one-dimensional photonic crystal nanofiber cavity sensor (1-...
On-chip refractive index sensing plays an important role in many fields, ranging from chemical, biom...
We propose a new type of refractive index sensing based on the transverse magnetic (TM) modes in the...
Nanobeam cavities based on Silicon-On-Insulator (SOI) working at telecommunication wavelengths (1550...
[[abstract]]A highly sensitive biosensor based on a silicon photonic crystal waveguide incorporating...
Nanobeam cavities based on Silicon-On-Insulator (SOI) working at telecommunication wavelengths (1550...
In this paper we have presented a two dimensional photonic crystal based biosensor. The structure of...
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