Search Results - prineha+narang

7 Results Sort By:
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   |   Inventor(s): Prineha Narang, Scott Smart, Alexander Jurgens
Keywords(s):  
Category(s): Optics & Photonics, Materials, Materials > Nanotechnology, Electrical, Electrical > Quantum Computing, Electrical > Signal Processing
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   |   Inventor(s): Prineha Narang, Haiyue Huang, Mamun Sarker, Alexander Sinitskii
Keywords(s):  
Category(s): Electrical, Electrical > Quantum Computing
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   |   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
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: 2/14/2025   |   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: 2/14/2025   |   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
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: 2/14/2025   |   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