Add to ORKGPhotonic Quasicrystals (PhQCs) possessing quasiperiodic spatial tiling and rotational symmetries not achievable by photonic crystals have permitted to realize photonic band-gap (PBG) structures at low dielectric contrast. We compared 8-, 10- and 12-fold symmetric quasi-crystalline lattices with different spatial tiling for each symmetry. Our computations of transmittance spectra for low dielectric contrast, based on FDTD method, prove that tiling design more than symmetry determines the PBG properties of the structure
We propose an elegant approach to produce photonic band gap structures with multiple photonic band g...
tering methods, ASA, linearized methods). Abstract. – We report on experimental observation of photo...
Icosahedral band gap materials (BGMs) optimally combine the distinct band gaps of periodic BGMs with...
Photonic Quasicrystals (PhQCs) possessing quasiperiodic spatial tiling and rotational symmetries not...
Photonic Quasicrystals (PhQCs) possessing quasiperiodic spatial tiling and rotational symmetries not...
It is firmly established that periodic lattice structures can support photonic bandgaps (PBG). Howev...
It is firmly established that periodic lattice structures can support photonic bandgaps (PBG). Howev...
We propose an elegant approach to produce photonic band gap structures with multiple photonic band g...
Complete photonic bandgaps (PBGs) are more readily achieved in highly-symmetric photonic crystals (P...
Light transmission through two-dimensional photonic-quasicrystal (PhQC) slabs fabricated from multip...
Photonic band-gap materials are artificially periodic engineered materials with which we can control...
The TM propagation properties of planar 12-fold photonic quasi-crystal patterns are theoretically ex...
A large photonic band gap (PBG) is highly favorable for photonic crystal devices. One of the most im...
It is generally believed that long range periodic order is instrumental for the formation of a photo...
A large photonic band gap (PBG) is highly favorable for photonic crystal devices. One of the most im...
We propose an elegant approach to produce photonic band gap structures with multiple photonic band g...
tering methods, ASA, linearized methods). Abstract. – We report on experimental observation of photo...
Icosahedral band gap materials (BGMs) optimally combine the distinct band gaps of periodic BGMs with...
Photonic Quasicrystals (PhQCs) possessing quasiperiodic spatial tiling and rotational symmetries not...
Photonic Quasicrystals (PhQCs) possessing quasiperiodic spatial tiling and rotational symmetries not...
It is firmly established that periodic lattice structures can support photonic bandgaps (PBG). Howev...
It is firmly established that periodic lattice structures can support photonic bandgaps (PBG). Howev...
We propose an elegant approach to produce photonic band gap structures with multiple photonic band g...
Complete photonic bandgaps (PBGs) are more readily achieved in highly-symmetric photonic crystals (P...
Light transmission through two-dimensional photonic-quasicrystal (PhQC) slabs fabricated from multip...
Photonic band-gap materials are artificially periodic engineered materials with which we can control...
The TM propagation properties of planar 12-fold photonic quasi-crystal patterns are theoretically ex...
A large photonic band gap (PBG) is highly favorable for photonic crystal devices. One of the most im...
It is generally believed that long range periodic order is instrumental for the formation of a photo...
A large photonic band gap (PBG) is highly favorable for photonic crystal devices. One of the most im...
We propose an elegant approach to produce photonic band gap structures with multiple photonic band g...
tering methods, ASA, linearized methods). Abstract. – We report on experimental observation of photo...
Icosahedral band gap materials (BGMs) optimally combine the distinct band gaps of periodic BGMs with...