Photonic Quantum Computing Using Entangled Squeezed State Clusters

Case ID:
UA19-151
Invention:

This invention is a scalable method for quantum computing using photonic qubits. Rather than using superconducting, this invention uses photons as a method of encoding a qubit making endless large-scale abilities.

Background:
As data gets bigger and expectation times for computing become shorter, there is a need to create faster computing components. In order for this to happen, a larger number of qubits must be used. This will allow for faster computing from the technology at hand. Many of the current attempts at quantum computing are not much faster or as fast as current classic algorithms. With this method, quicker and fault-tolerant computing can be achieved.

Applications:

  • Making more robust encryption systems
    • Encryption codes
    • Encrypting documents
  • Faster computing

Advantages:

  • Uses photon addition and subtraction
  • Uses a squeezed state
Patent Information:
Contact For More Information:
Richard Weite
Senior Licensing Manager, College of Optical Sciences
The University of Arizona
RichardW@tla.arizona.edu
Lead Inventor(s):
Saikat Guha
Christos Gagatsos
Keywords: