Determination of a statistical lack of volume matter by resonance principle: experiential approach and modeling

“…PxCs are recently known to form the basis for realizing various modern optical phenomena like slow and fast light, 23 zero refractive index, 16 chirality, 24 etc., and has proved to be a potential candidate in building nanoscale devices for measurements as precise as that of a small amount of mass or charge or even the ultra-short distance. [25][26][27] While inserting defects into PxC arrays to form a cavity or a waveguide, 28 their ability to manipulate localized modes for both photons and phonons outshines. Such a possibility of high mode confinement within small volumes anticipates an ultra-strong nonlinear interaction for the purpose of the novel cavity-optomechanical (C-OM) devices and applications.…”

“…The development of such periodic nanostructures has led to the realization of many micron and nanoscale devices so as to serve the low-energy applications. PxCs are recently known to form the basis for realizing various modern optical phenomena like slow and fast light, 23 zero refractive index, 16 chirality, 24 etc., and has proved to be a potential candidate in building nanoscale devices for measurements as precise as that of a small amount of mass or charge or even the ultra-short distance 25 – 27 While inserting defects into PxC arrays to form a cavity or a waveguide, 28 their ability to manipulate localized modes for both photons and phonons outshines.…”

Multispectral transmission through phoxonic crystal slot-waveguide at midwave infrared frequencies

“…PxCs are recently known to form the basis for realizing various modern optical phenomena like slow and fast light, 23 zero refractive index, 16 chirality, 24 etc., and has proved to be a potential candidate in building nanoscale devices for measurements as precise as that of a small amount of mass or charge or even the ultra-short distance. [25][26][27] While inserting defects into PxC arrays to form a cavity or a waveguide, 28 their ability to manipulate localized modes for both photons and phonons outshines. Such a possibility of high mode confinement within small volumes anticipates an ultra-strong nonlinear interaction for the purpose of the novel cavity-optomechanical (C-OM) devices and applications.…”

“…The development of such periodic nanostructures has led to the realization of many micron and nanoscale devices so as to serve the low-energy applications. PxCs are recently known to form the basis for realizing various modern optical phenomena like slow and fast light, 23 zero refractive index, 16 chirality, 24 etc., and has proved to be a potential candidate in building nanoscale devices for measurements as precise as that of a small amount of mass or charge or even the ultra-short distance 25 – 27 While inserting defects into PxC arrays to form a cavity or a waveguide, 28 their ability to manipulate localized modes for both photons and phonons outshines.…”

Multispectral transmission through phoxonic crystal slot-waveguide at midwave infrared frequencies