Quantum skyrmions and high dimensional entanglement mediated by nanophotonics
Amit Kam·Guy Bartal·Lior Fridman·Yigal Ilin·Amir Sivan·Guy Sayer·Stav Lotan·Kobi Cohen·A. Shaham·Liat Nemirovsky-Levy·Larisa Popilevsky·Aviv Karnieli·Meir Orenstein·Mordechai Segev·Shai Tsesses
Abstract Quantum nanophotonics offers essential tools and technologies for controlling quantum states, while maintaining a miniature form factor and high scalability. Nanophotonic platforms can transfer information from the traditional degrees of freedom (DoFs) of photons, such as spin angular momentum (SAM) and orbital angular momentum (OAM), to the DoFs of the nanophotonic platform—and back, opening new directions for quantum information processing. Recent experiments have utilized, for entang