6 research outputs found
Magnetoelastic nonlinear metamaterials
We introduce the concept of magnetoelastic metamaterials with electromagnetic
properties depending on elastic deformation. We predict a strong nonlinear and
bistable response of such metamaterials caused by their structural reshaping in
response to the applied electromagnetic field. In addition, we demonstrate
experimentally the feasibility of the predicted effect.Comment: 4 pages, 5 figure
Ultra-low-power hybrid light-matter solitons.
New functionalities in nonlinear optics will require systems with giant optical nonlinearity as well as compatibility with photonic circuit fabrication techniques. Here we introduce a platform based on strong light-matter coupling between waveguide photons and quantum-well excitons. On a sub-millimetre length scale we generate picosecond bright temporal solitons at a pulse energy of only 0.5 pJ. From this we deduce a nonlinear refractive index three orders of magnitude larger than in any other ultrafast system. We study both temporal and spatio-temporal nonlinear effects and observe dark-bright spatio-temporal polariton solitons. Theoretical modelling of soliton formation in the strongly coupled system confirms the experimental observations. These results show the promise of our system as a high speed, low power, integrated platform for physics and devices based on strong interactions between photons
Optical negative-index metamaterials
Artifi cially engineered metamaterials are now demonstrating unprecedented electromagnetic properties that cannot be obtained with naturally occurring materials. In particular, they provide a route to creating materials that possess a negative refractive index and offer exciting new prospects for manipulating light. This review describes the recent progress made in creating nanostructured metamaterials with a negative index at optical wavelengths, and discusses some of the devices that could result from these new materials