MB2.1 - HIGH-SPEED QUANTUM PHOTONICS WITH PLASMONIC METAMATERIALS EMPOWERED BY MACHINE LEARNING
Abstract
Abstract
We outline future directions in the development of a platform for high-speed integrated quantum photonics, the use of plasmonics to outpace quantum decoherence and the application of machine-learning techniques for photonics designs and quantum optical measurements.
MB2.2 - FOLDED DIELECTRIC METASURFACE PLATFORM FOR COMPACT OPTICAL SYSTEMS
- M. Faraji-Dana (US) Graduate Student
- E. Arbabi (US) Graduate Student at Caltech
- A. Arbabi (US) Assistant Professor of Electrical and Computer Engineering
- S. Kamali (US) Graduate Student at Caltech
- H. Kwon (US) Graduate Student at Caltech
- A. Faraon (US) Professor of Applied Physics and Electrical Engineering
Abstract
Abstract
We present a compact folded metasurface optics platform that offers a low-cost and robust solution for the design and realization of compact optical systems. Specifically, we introduce the design and implementation of a miniature spectrometer and a hyperspectral imager as examples showcasing the platform potentials.
MB2.3 - EXCITATION OF EPSILON-NEAR-ZERO MODE IN OPTICAL FIBER
Abstract
Abstract
We demonstrate the excitation of epsilon-near-zero (ENZ) resonance on a side-polished optical fiber nano-coated with aluminum-doped zinc oxide (AZO) with vanishing permittivity at near-infrared wavelength. The ENZ resonance is caused by the coupling between guided modes supported by optical fiber and the AZO nanolayer.