Breaking the internal crystalline symmetry of silicon by an external mechanical stress gives the material a novel nonlinear optical property
Strained silicon is a versatile new type of material, which has found application in microelectronic...
After an introduction on silicon photonics and on third-order nonlinear effects, the nonlinear prope...
A review of recent progress in the field of strained silicon photonics is presented. The application...
Breaking the internal crystalline symmetry of silicon by an external mechanical stress gives the mat...
Silicon photonics meets the electronics requirement of increased speed and bandwidth with on-chip op...
Silicon is today the electronic material par excellence. Nevertheless the increasing demand for ne...
The lack of a dipolar second-order susceptibility χ(2) in silicon due to the centrosymmetry of its d...
Silicon photonics meets the electronics requirement of increased speed and bandwidth with on-chip op...
A relevant contribution in the explosion of the silicon photonics derives from its nonlinear optics ...
The lack of a dipolar second order susceptibility (x (2)) in silicon due to its centrosymmetric diam...
Second order nonlinearities are inhibited in centrosymmetric crystals, like silicon. However, in the...
International audienceSilicon photonics, considered as a major photonic platform for optical communi...
Strained silicon is a versatile new type of material, which has found application in microelectronic...
After an introduction on silicon photonics and on third-order nonlinear effects, the nonlinear prope...
A review of recent progress in the field of strained silicon photonics is presented. The application...
Breaking the internal crystalline symmetry of silicon by an external mechanical stress gives the mat...
Silicon photonics meets the electronics requirement of increased speed and bandwidth with on-chip op...
Silicon is today the electronic material par excellence. Nevertheless the increasing demand for ne...
The lack of a dipolar second-order susceptibility χ(2) in silicon due to the centrosymmetry of its d...
Silicon photonics meets the electronics requirement of increased speed and bandwidth with on-chip op...
A relevant contribution in the explosion of the silicon photonics derives from its nonlinear optics ...
The lack of a dipolar second order susceptibility (x (2)) in silicon due to its centrosymmetric diam...
Second order nonlinearities are inhibited in centrosymmetric crystals, like silicon. However, in the...
International audienceSilicon photonics, considered as a major photonic platform for optical communi...
Strained silicon is a versatile new type of material, which has found application in microelectronic...
After an introduction on silicon photonics and on third-order nonlinear effects, the nonlinear prope...
A review of recent progress in the field of strained silicon photonics is presented. The application...
DOI
Add to ORKG