A flexible photonic crystal cavity, consisting of a III V active layer embedded in a flexible medium, with a line-defect by removing three air holes for nanoscale structural deformation detection is proposed and optimized The cavity can hold the photonic band-gap modes with the fundamental mode located at approximately 686 nm, overlapping with the photoluminescence spectrum of the InGaP/InGaA1P quantum wells. Results of finite difference time-domain simulations indicate that the L3 cavity features an ultra-compact mode volume of 10(-3) mu m(3) and high quality factor of 10(4) at a sub-micron footprint within the studied visible wavelength. Theoretical optical strain sensitivities of approximately 4.5 and 3 nm per epsilon (1% strain for both...
ABSTRACT: We report a new approach for realizing a flexible photonic crystal (PC) cavity that enable...
We discuss the possible use of photonic crystals as strain sensors. We demonstrate the feasible fabr...
We propose a new type of refractive index sensing based on the transverse magnetic (TM) modes in the...
A nano-displacement sensing method for micro-opto-electro-mechanical-systems (MOEMS) is proposed. Th...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
Optomechanical nanocavities allow nanomechanical resonances to be measured optically with high sensi...
AbstractWe report a new design for realizing a 1D Photonic crystal cavity based on highly flexible t...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
AbstractThis paper reports the theoretical and experimental investigations of the strain-induced res...
[[abstract]]Microcantilever sensors have been known as a fundamental design used in force sensors, s...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
A photonic crystal (PhC) is a periodic structure with periodicity comparable with the wavelength of ...
A promising fabrication route to produce absorbing flexible photonic crystals is presented, which ex...
We report a new approach for realizing a flexible photonic crystal (PC) cavity that enables wide-ran...
We propose a new approach for creating reconfigurable high-Q cavities in defect-free photonic crysta...
ABSTRACT: We report a new approach for realizing a flexible photonic crystal (PC) cavity that enable...
We discuss the possible use of photonic crystals as strain sensors. We demonstrate the feasible fabr...
We propose a new type of refractive index sensing based on the transverse magnetic (TM) modes in the...
A nano-displacement sensing method for micro-opto-electro-mechanical-systems (MOEMS) is proposed. Th...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
Optomechanical nanocavities allow nanomechanical resonances to be measured optically with high sensi...
AbstractWe report a new design for realizing a 1D Photonic crystal cavity based on highly flexible t...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
AbstractThis paper reports the theoretical and experimental investigations of the strain-induced res...
[[abstract]]Microcantilever sensors have been known as a fundamental design used in force sensors, s...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
A photonic crystal (PhC) is a periodic structure with periodicity comparable with the wavelength of ...
A promising fabrication route to produce absorbing flexible photonic crystals is presented, which ex...
We report a new approach for realizing a flexible photonic crystal (PC) cavity that enables wide-ran...
We propose a new approach for creating reconfigurable high-Q cavities in defect-free photonic crysta...
ABSTRACT: We report a new approach for realizing a flexible photonic crystal (PC) cavity that enable...
We discuss the possible use of photonic crystals as strain sensors. We demonstrate the feasible fabr...
We propose a new type of refractive index sensing based on the transverse magnetic (TM) modes in the...