We report on the experimental realization of ultra-high quality factor (Q) designs of the L3-type photonic crystal nanocavity. Based on genetic optimization of the positions of few nearby holes, our design drastically improves the performance of the conventional L3 as experimentally confirmed by direct measurement of Q ≃ 2 × 106 in a silicon-based photonic crystal membrane. Our devices rank among the highest Q/V ratios ever reported in photonic crystal cavities, holding great promise for the realization of integrated photonic platforms based on ultra-high-Q resonators
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
We design novel photonic crystal slab heterostructures, substituting the air in the holes with liqui...
We report on the experimental realization of ultra-high quality factor (Q) designs of the L3-type ph...
We report on the experimental realization of ultra-high quality factor (Q) designs of the L3-type ph...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We fabricate and experimentally characterize an H0 photonic crystal slab nanocavity with a design op...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V silicon photonic crystal cavities with resonance wavelength...
Deep Ultraviolet Lithography is essential for the mass production of silicon devices. To date, restr...
Deep Ultraviolet Lithography is essential for the mass production of silicon devices. To date, restr...
Photonic crystal (PhC) nanocavities have demonstrated unique capabilities in terms of light confinem...
Photonic crystal cavities enable the realization of high Q-factor and low mode-volume resonators, wi...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
We design novel photonic crystal slab heterostructures, substituting the air in the holes with liqui...
We report on the experimental realization of ultra-high quality factor (Q) designs of the L3-type ph...
We report on the experimental realization of ultra-high quality factor (Q) designs of the L3-type ph...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We fabricate and experimentally characterize an H0 photonic crystal slab nanocavity with a design op...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V photonic crystal cavities in thin silicon membranes, with r...
We report on the realization of high-Q/V silicon photonic crystal cavities with resonance wavelength...
Deep Ultraviolet Lithography is essential for the mass production of silicon devices. To date, restr...
Deep Ultraviolet Lithography is essential for the mass production of silicon devices. To date, restr...
Photonic crystal (PhC) nanocavities have demonstrated unique capabilities in terms of light confinem...
Photonic crystal cavities enable the realization of high Q-factor and low mode-volume resonators, wi...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
We design novel photonic crystal slab heterostructures, substituting the air in the holes with liqui...