Add to ORKGWe studied the modes of the highest-quality factor Qm in disordered photonic crystals. by varying the strength of disorder, we identified five different scaling regimes of the ensemble averaged (Qm) with the system size. For sufficiently large systems, (Qm) reaches the maximum at some finite degree of disorder, where its value is comparable to the quality factor of an intentionally introduced single defect at the center of a photonic band gap. Near this optimal degree of disorder, we predict a superexponential increase of (Qm) with the system size, due to migration of the frequencies of the highest-quality modes toward the photonic band-gap center. Our result may lead to the design and fabrication of ultralow-threshold random laser
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
Submitted to the topical issue "Recent advances in the theory of disordered systems" of EPJBWe study...
Disorder offers rich possibilities for manipulating the phase and intensity of light and designing p...
The photonic eigenmodes near a band gap of a type of one-dimensional disordered photonic crystal hav...
We analyze and compare the effect of fabrication disorder on the quality factor of six well-known hi...
The interplay between order and disorder in photonic lattices opens up a wide range of novel optical...
We propose a high-Q photonic crystal cavity formed by introducing random disorder to the central reg...
Influence of the various types of disorder on propagation of light in one-dimensional periodic struc...
We demonstrate that hyperuniform disordered structures support electromagnetic states with very diff...
Hyperuniform disordered (HuD) photonic materials have recently been shown to display several localiz...
Laser cavities have been realized in various different photonic systems. One of the forefront resear...
Disordered photonic nanostructures have attracted tremendous interest in the past three decades, not...
Hyperuniform disordered structures are a class of artificial structures that, despite arandom visual...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
Scattering, which is created by dust, clouds, white paints or imperfections of artificial material s...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
Submitted to the topical issue "Recent advances in the theory of disordered systems" of EPJBWe study...
Disorder offers rich possibilities for manipulating the phase and intensity of light and designing p...
The photonic eigenmodes near a band gap of a type of one-dimensional disordered photonic crystal hav...
We analyze and compare the effect of fabrication disorder on the quality factor of six well-known hi...
The interplay between order and disorder in photonic lattices opens up a wide range of novel optical...
We propose a high-Q photonic crystal cavity formed by introducing random disorder to the central reg...
Influence of the various types of disorder on propagation of light in one-dimensional periodic struc...
We demonstrate that hyperuniform disordered structures support electromagnetic states with very diff...
Hyperuniform disordered (HuD) photonic materials have recently been shown to display several localiz...
Laser cavities have been realized in various different photonic systems. One of the forefront resear...
Disordered photonic nanostructures have attracted tremendous interest in the past three decades, not...
Hyperuniform disordered structures are a class of artificial structures that, despite arandom visual...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
Scattering, which is created by dust, clouds, white paints or imperfections of artificial material s...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
Submitted to the topical issue "Recent advances in the theory of disordered systems" of EPJBWe study...
Disorder offers rich possibilities for manipulating the phase and intensity of light and designing p...