Search Results - nicolas+dirnegger

2 Results

Sort By:

Superconducting Diodes for Qubit Readout (Case No. 2026-079)

Summary: UCLA researchers led by Professor Pri Narang have developed a fully superconducting, on-chip readout architecture that improves signal fidelity and limits backpropagation in quantum processors Background: Superconducting quantum processors can perform complex calculations orders of magnitude quicker than classical computers. Current superconducting...

Published: 2/24/2026 | Inventor(s): Prineha Narang, Arpit Arora, Nicolas Dirnegger

Keywords(s):

Category(s): Electrical, Electrical > Quantum Computing, Electrical > Signal Processing, Electrical > Sensors, Electrical > Instrumentation, Electrical > Computing Hardware, Materials, Materials > Fabrication Technologies, Materials > Functional Materials, Materials > Semiconducting Materials

Superconducting Diodes for Qubit-Qubit Coupling (Case No. 2026-078)

Summary: UCLA researchers in the Department of Electrical Engineering have developed a superconducting diode-based nonreciprocal interconnect that enables low-loss, directional microwave signal routing between qubits, chips, and cryogenic modules while preserving quantum coherence and suppressing back-propagating noise. Background: Scalable superconducting...

Published: 2/24/2026 | Inventor(s): Prineha Narang, Nicolas Dirnegger, Arpit Arora

Keywords(s): Communication & Networking, cryogenic cooling, device architectures, Diode, Electrical Impedance, entanglement, Microwave, Network On A Chip, quantum communication, Quantum Computer, quantum network, quantum processing, quantum processor, scalable communication, transmission enhancement

Category(s): Electrical, Electrical > Quantum Computing, Electrical > Computing Hardware, Energy & Environment > Energy Transmission, Electrical > Signal Processing