Search Results - electrical+%3e+quantum+computing

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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: 8/23/2024 | 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: 5/13/2024 | 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: 8/7/2024 | Inventor(s): Xiangfeng Duan, Yu Huang, Jingyuan Zhou

Keywords(s):

Category(s): Electrical, Electrical > Quantum Computing, 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: 3/27/2024 | 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: 9/18/2024 | Inventor(s): Prineha Narang, Scott Smart, Davis Welakuh

Keywords(s):

Category(s): Electrical, Electrical > Quantum Computing, Software & Algorithms, Software & Algorithms > Programs, Software & Algorithms > Statistical Models

Simulation of Open Quantum Systems via Low-Depth Convex Unitary Evolutions (Case No. 2023-183)

Intro Sentence: UCLA researchers in the Division of Physical Sciences & Engineering have developed an efficient and cost-effective method for the improved simulation of open quantum systems. Background: Open quantum systems are quantum systems that interact with their surroundings and possess dynamics that can be influenced by these interactions,...

Published: 3/25/2024 | Inventor(s): Prineha Narang, Joseph Peetz, Scott Smart, Spyridon Tserkis

Keywords(s):

Category(s): Electrical, Electrical > Quantum Computing, Software & Algorithms, Software & Algorithms > Artificial Intelligence & Machine Learning, Electrical > Signal Processing

Molecular Quantum Random Access Memory (Case No. 2023-182)

Summary: UCLA Researchers have developed a molecular quantum information system, showcasing its potential for room-temperature operation and scalability compared to current quantum random access memory (qRAM). Background: Quantum computing stands as an emerging technology with immense market significance. Leveraging the unique properties of quantum...

Published: 9/18/2024 | Inventor(s): Prineha Narang, Paul Weiss, Tianhan Liu, Peng Xiong, Yuwaraj Adhikari

Keywords(s):

Category(s): Electrical, Electrical > Quantum Computing, Software & Algorithms, Software & Algorithms > Communication & Networking, Electrical > Signal Processing

Scalable Multi-Party Networks for High-Rate Entanglement Distribution and Quantum Communications (Case No. 2024-011)

Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a multiparty network for improved quantum communications. Background: Fully secure quantum networks are essential in achieving efficient and rapid quantum computing. These networks connect distant quantum computers and increase the computational volume...

Published: 6/4/2024 | Inventor(s): Chee Wei Wong, Murat Sarihan, Xiang Cheng, Kai-Chi Chang

Keywords(s): Communication & Networking, energy-efficient wireless communication, entanglement, multiparty network, quantum communication, Quantum Computer, quantum key, quantum network, quantum processing, quantum processor, scalable communication

Category(s): Electrical, Electrical > Quantum Computing, Electrical > Sensors, Software & Algorithms, Software & Algorithms > Communication & Networking, Software & Algorithms > Security & Privacy

Quantum Cross-Resonator Spectrometer (Case No. 2023-181)

Summary: UCLA researchers in the Division of Physical Sciences and Engineering have developed a novel method of characterizing the complex dielectric function of a material. Background: The complex dielectric function is a measure of a material’s response to static or alternating electromagnetic fields and describes the microscopic behavior...

Published: 9/23/2024 | Inventor(s): Prineha Narang, Ioannis Petrides, Jonathan Curtis, Amir Yacoby, Marie Wesson

Keywords(s): Quantum Computer, quantum processing, quantum processor

Category(s): Electrical, Materials, Materials > Semiconducting Materials, Electrical > Quantum Computing

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: 11/7/2023 | 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

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