A new approach to control forces and interactions between atoms and molecules, such as those employed by geckos to climb vertical surfaces, could bring advances in new materials for developing quantum light sources.
Researchers at the University of Alberta, Canada, have proposed a new approach to confining light at subdiffraction wavelengths, using transparent metamaterials—without creating heat or losing data, and with dramatically reduced crosstalk.
Congratulations to Ashwin Boddeti on his selection as a finalist for the Emil Wolf Outstanding Student Paper Competition at FIO2021 for the paper titled: Giant Long-Range Dipole-Dipole Interactions...
Congratulations to Ashwin for winning the Emil Wolf best student paper prize at Frontiers of Optics 2021. His research is related to dipole-dipole interactions in nanophotonics. These interactions...
Ashwin Boddeti, a graduate student with Purdue University’s Elmore Family School of Electrical and Computer Engineering, has been awarded the Wolf Outstanding Student Paper Competition by Optica...
Our recent publication on long-range dipole-dipole interactions has featured as an online cover in Nano Letters. The paper shows that unique hybrid plasmonic lattice modes mediate dipole-dipole...
