# of Displayed Technologies: 4 / 4

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Unlocking Quantum Communication: Empowering Entangled Photon Pairs with Temperature-Insensitive Technology
TS-065416 — The Need: In the rapidly advancing realm of quantum information science, there's an escalating demand for reliable sources of entangled photon pairs. These photon pairs serve as fundamental building blocks for various quantum communication technologies. Presently, maintaining these sources neces…
  • College: College of Arts & Sciences
  • Inventors: Gauthier, Daniel
  • Licensing Officer: Dahlman, Jason "Jay"

A Novel MIMO Architecture for Multi-user Power line communication
TS-062843 — This MIMO-PLC architecture is the first scalable MIMO architecture on a single power line. It improves the throughput for power line communication (PLC) by utilizing the existing power delivery infrastructure and allows for high data rates in rural areas.
Home networking and the Internet of Things (IoT), especially voice and video communications, require high throughput, reliable coverage, and sustainable connectivity. However, the performance is dramatically decreased when the wireless signals go through the walls and ceilings. The densely deploye…
  • College: College of Engineering (COE)
  • Inventors: Srinivasan, Kannan; Chen, Bo; Guruvenkata, Vivek; Sun, Wei
  • Licensing Officer: Phillips, Taylor

Method for Connectorizing Superconducting NbTi Coaxial Cables
TS-040418 — A fast and inexpensive electroplating technique for producing a connector attachment matching the structural and electrical properties of standard coaxial cables for cryogenic applications.
Experiments performed at cryogenic temperatures much below the 4.2 K of liquid helium frequently require superconducting coaxial cables to efficiently transmit high frequency signals while minimizing heat transfer to the experiment’s cold stage. These cables are most often made of niobium-ti…
  • College: College of Arts & Sciences
  • Inventors: DeBry, Kyle; Lafyatis, Gregory
  • Licensing Officer: Dahlman, Jason "Jay"

Stretchable and Flexible E-Fiber Wire Antennas
TS-014971 — A new process to fabricate stretchable and flexible wire antennas with conductive fibers (E-fibers)
Current processes to manufacture flexible, mechanically durable antennas on E-fibers yield non-stretchable prototypes and lack fine print details. The geometric accuracy of printed antennas is less than 1 mm, and the devices are prone to failure due to fatigue and wear from deformation. The antenn…
  • College: College of Engineering (COE)
  • Inventors: Volakis, John; Kiourti, Asimina
  • Licensing Officer: Randhawa, Davinder

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