Search Results - eric+hudson

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Doping of Thorium-229 Into High Bandgap Metal Sulfate Material (Case No. 2025-99Y)
Summary: A UCLA researcher in the Department of Physics has developed a novel method for creating high-bandgap materials doped with thorium-229, enabling the development of advanced nuclear clocks. Background: Thorium-229 is the only known isotope with a nuclear transition low enough to be measured using conventional optical techniques. The combination...
Published: 10/9/2025   |   Inventor(s): Eric Hudson
Keywords(s): Clock Signal, high-powered laser systems, Laser, laser alignment, Laser Diode, lasers
Category(s): Materials, Materials > Functional Materials, Optics & Photonics, Optics & Photonics > Lasers, Electrical, Electrical > Electronics & Semiconductors, Electrical > Signal Processing, Electrical > Sensors, Electrical > Instrumentation, Electrical > Quantum Computing, Energy & Environment, Energy & Environment > Thermal, Materials > Nanotechnology, Materials > Fabrication Technologies, Materials > Semiconducting Materials
Use of the Thorium-229 Nuclear Transition in a Nonlinear Optical Crystal or Fiber (Case No. 2024-241 and 2025-172)
Summary: Researchers in the Department of Physics and Astronomy at UCLA have developed a novel technique to harness thorium-229 using nonlinear optical crystals and fibers to generate necessary wavelengths in a vacuum-free and defect-resistant system. Background: Isomeric nuclear transition is a phenomenon that occurs when atoms transition from...
Published: 7/17/2025   |   Inventor(s): Eric Hudson
Keywords(s): Doping (Semiconductor), Electromagnetism, nuclear energy, nuclear fusion, Particle Physics, Quantum Computer, quantum network, thermonuclear fusion, Wavelength
Category(s): Chemical > Chemical Processing & Manufacturing, Electrical > Quantum Computing, Materials > Functional Materials, Optics & Photonics > Fiber Optics
Polyqubit Encoding for Quantum Information Processing (Case No. 2023-006)
Summary: UCLA researchers in the Physics and Astronomy Department have developed a quantum information processing method that encodes multiple qubits within single atoms in trapped atom quantum processors, enabling efficient qubit manipulation for enhanced computational capacity. Background: Quantum computing is an emerging technology with immense...
Published: 6/27/2025   |   Inventor(s): Wesley Campbell, Eric Hudson
Keywords(s): advanced computing methods, atomic processor, Electronics & Semiconductors, information storage, polyqubit, polyqubit encoding, polyqubit processing, Quantum Computer, quantum error correction (QEC), quantum processing, quantum processor, qubit-host-limited (QHL), system control resources, trapped ion quantum processor
Category(s): Electrical, Electrical > Quantum Computing