SPIN-TO-ORBITAL ANGULAR MOMENTUM CONVERTER FOR LIGHT

Organization Name

President and Fellows of Harvard College

Inventor(s)

Federico Capasso of Cambridge MA (US)

Antonio Ambrosio of Arlington MA (US)

Noah A. Rubin of Cambridge MA (US)

Robert C. Devlin of Cambridge MA (US)

Yao-Wei Huang of Somerville MA (US)

SPIN-TO-ORBITAL ANGULAR MOMENTUM CONVERTER FOR LIGHT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240241288 titled 'SPIN-TO-ORBITAL ANGULAR MOMENTUM CONVERTER FOR LIGHT

Simplified Explanation:

This optical device utilizes a metasurface with nanostructures to convert input light of any spin state into output light with a superposition of two independent orbital angular momentum states.

• The optical device includes a metasurface with nanostructures.
• Nanostructures convert input light of any spin state into output light with a superposition of two independent orbital angular momentum states.

Potential Applications: This technology could be used in:

• Optical communication systems
• Quantum computing
• High-resolution imaging

Problems Solved:

• Enables manipulation of light properties for various applications
• Facilitates the conversion of light between different angular momentum states

Benefits:

• Enhanced control over light properties
• Improved performance in optical systems
• Potential for new advancements in quantum technologies

Commercial Applications: Title: Advanced Optical Devices for Light Manipulation This technology could be applied in:

• Telecommunications industry
• Research and development of quantum technologies
• High-tech imaging systems market

Prior Art: Researchers can explore prior art related to metasurfaces, nanostructures, and light manipulation technologies in the field of optics.

Frequently Updated Research: Stay updated on the latest advancements in metasurface technology, nanostructure design, and applications in optical devices.

Questions about Optical Devices with Metasurfaces and Nanostructures: 1. How do metasurfaces enhance the manipulation of light properties? 2. What are the potential challenges in scaling up the production of optical devices with nanostructures?

Original Abstract Submitted

an optical device comprises a metasurface including a plurality of nanostructures. the nanostructures convert an input light of an arbitrary spin state into an output light of an arbitrary total angular momentum state characterized by a superposition of two independent orbital angular momentum (oam) states.