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Search Results - electrical+%3e+quantum+computing
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Online Quantum Process Tomography for Orthogonal Random Unitary Channels (Case No. 2024-078)
Summary UCLA researchers have developed a new method for online quantum process tomography (QPT) that efficiently characterizes orthogonal random unitary channels, extending beyond Pauli channels to capture both incoherent and coherent noise effects in quantum devices. This approach combines efficient Pauli channel tomography with an online-learning...
Published: 9/15/2025
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Inventor(s):
Prineha Narang
,
Scott Smart
,
Alexander Jurgens
Keywords(s):
Category(s):
Optics & Photonics
,
Materials
,
Materials > Nanotechnology
,
Electrical
,
Electrical > Quantum Computing
,
Electrical > Signal Processing
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
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Inventor(s):
Eric Hudson
Keywords(s):
Doping (Semiconductor)
,
Electromagnetism
,
nuclear energy
,
nuclear fusion
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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
Method and Apparatus for Dual-Comb Sensing With Carrier Envelope Phase Stabilized Frequency Comb (Case No. 2025-073)
Summary: Researchers in UCLA’s Electrical and Computer Engineering Department have developed a groundbreaking method to stabilize carrier envelope phase (CEP) shifts, achieving record-low phase noise and ultraprecise frequency detection. Background: Frequency combs enable highly precise optical frequency measurements critical for applications...
Published: 6/27/2025
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Inventor(s):
Sergio Carbajo
,
Mirali Seyed Shariatdoust
Keywords(s):
Frequency conversion
,
high-frequency signals
,
Laser
,
lasers
,
Optical Communication
,
optical transmission
,
Optics
,
quantum communication
,
Quantum Computer
,
quantum processing
,
Radio Frequency
,
radiofrequency signaling
,
RF signal
,
Signal Processing
,
Signal-To-Noise Ratio
Category(s):
Electrical > Signal Processing
,
Optics & Photonics > Lasers
,
Optics & Photonics > Spectroscopy
,
Electrical > Quantum Computing
Method for Simultaneous Nonlinear Frequency Conversion and Spectro-Temporal Shaping of Lightwaves (Case No. 2024-254)
Summary: Researchers in UCLA’s Department of Electrical and Computer Engineering have developed an innovative method for nonlinear frequency conversion and spectro-temporal shaping. This technique operates efficiently at high power levels and offers optical tunability, enabling a wide range of customizable applications. Background: Light frequency...
Published: 8/1/2025
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Inventor(s):
Sergio Carbajo
,
Hao Zhang
Keywords(s):
Adaptive Optics
,
Frequency conversion
,
frequency modulation
,
high-frequency signals
,
high-powered laser systems
,
nonlinear dynamics
,
Nonlinear Optics
,
non-linear optics
,
Nonlinear Optics Molecular Dynamics
,
Optical computing
,
Optics
,
Optoelectronics Waveguide (Electromagnetism)
,
Phase (Waves)
,
Quantum Computer
,
Waveguide
,
Waveguide Light
Category(s):
Electrical > Signal Processing
,
Electrical > Quantum Computing
,
Electrical
,
Optics & Photonics > Spectroscopy
,
Optics & Photonics
,
Optics & Photonics > Lasers
Quantum Computing Portfolio
Press Releases: UCLA Launches New Quantum Innovation Hub to Advance Quantum Science and Engineering UCLA receives $1 million NSF grant to accelerate commercialization of quantum technologies Quantum Tech Portfolio: Scalable Quantum Sensor Arrays (Case No. 2024-080) UCLA researchers led by Professor David Leibrandt have developed a novel scalable,...
Published: 2/14/2025
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Inventor(s):
Keywords(s):
Category(s):
Electrical
,
Electrical > Quantum Computing
Topological Qubits Based on Square-Root Graphene Nanoribbons Induced by Electric Fields (Case No. 2024-192)
Summary: Researchers in the Physical Sciences Division and Electrical and Computer Engineering Department have developed a new class of graphene nanomaterial that can be tuned by electric fields. Background: Graphene nanoribbons (GNRs) are narrow strips of graphene, which is a two-dimensional material composed of a single layer of carbon atoms arranged...
Published: 8/20/2025
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Inventor(s):
Prineha Narang
,
Haiyue Huang
,
Mamun Sarker
,
Alexander Sinitskii
Keywords(s):
Category(s):
Electrical
,
Electrical > Quantum Computing
Scalable Quantum Sensor Arrays (Case No. 2024-080)
Summary: UCLA researchers in the Department of Physics have developed a scalable, multi-pixel quantum sensor capable of sensing vector signals, with utilities in various imaging modalities. Background: The sensor technology market is rapidly expanding, driven by increasing demands across various industries such as healthcare, automotive, and consumer...
Published: 8/20/2025
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Inventor(s):
David Leibrandt
Keywords(s):
Atomic Force Microscopy Optical Tweezers
,
atomic processor
,
Programmable Logic Device
,
quantum communication
,
Sensors
Category(s):
Electrical > Sensors
,
Electrical
,
Electrical > Quantum Computing
A Library of Layered Hybrid Superlattices and Artificial Quantum Solids (Case No. 2024-098)
Summary: UCLA researchers have developed a novel approach for the generation of hybrid superlattices with tunable properties. Background: Heterostructures are composed of two or more semiconductor crystals with interfaces across which chemical makeup changes, and superlattices are simply composed of nanoscale layers that allow quantum confinement...
Published: 2/14/2025
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Inventor(s):
Xiangfeng Duan
,
Yu Huang
,
Jingyuan Zhou
Keywords(s):
Category(s):
Electrical
,
Electrical > Quantum Computing
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Materials
,
Materials > Functional Materials
,
Materials > Semiconducting Materials
Prineha Narang Quantum Computing Portfolio
Lab Interview: Quantum Trailblazers: NarangLab’s Pursuit Technology Portfolio: Contracted Quantum Eigensolver for Excited States (Quantum Algorithm) (Case No. 2023-180) Prineha Narang and her team have developed a new quantum algorithm for calculating the excited states using a contracted quantum eigensolver (ES-CQE). ES-CQE uses a contraction...
Published: 2/14/2025
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Inventor(s):
Prineha Narang
Keywords(s):
Category(s):
Materials
,
Materials > Semiconducting Materials
,
Materials > Functional Materials
,
Electrical
,
Electrical > Quantum Computing
Contracted Quantum Eigensolver for Excited States (Quantum Algorithm) (Case No. 2023-180)
Summary: UCLA researchers from the Division of Physical Sciences and Engineering have developed a quantum algorithm that can calculate excited states in quantum computing. Background: Quantum computing operates based on the principle of superposition. While the bits used in classical computing exist in binary (0 or 1), bits in quantum computing...
Published: 8/27/2025
|
Inventor(s):
Prineha Narang
,
Scott Smart
,
Davis Dave Welakuh Mbangheku
Keywords(s):
Category(s):
Electrical
,
Electrical > Quantum Computing
,
Software & Algorithms
,
Software & Algorithms > Programs
,
Software & Algorithms > Statistical Models
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