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Quantum Computing with Trapped Ions - Crystal Noel

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Quantum Computing Courses Condensed Matter Physics Courses String Theory Courses Mathematical Physics Courses Trapped Ions Courses Conformal Field Theory Courses Integrable Models Courses Integrable Deformations Courses Integrable Spin-Chains Courses Integrable Quantum Field Theories Courses

Course Description

Overview

Explore quantum computing with trapped ions in this 43-minute conference talk by Crystal Noel from Duke University. Recorded at the Noisy Intermediate-Scale Quantum Systems: Advances and Applications conference, delve into the latest advancements in integrable models across mathematical physics, condensed-matter physics, and string theory. Discover topics such as integrable deformations of CFTs and IQFTs, integrable spin-chains and their non-equilibrium dynamics, and integrable structures on string worldsheets. Gain insights into the relationship between AdS(d+1)/CFT(d) and CFT(2) structures. Benefit from a comprehensive overview of the field, suitable for integrability practitioners from various backgrounds. Part of the KITP conference series, this talk aims to bridge gaps between different research areas and provide a pedagogical perspective on recent developments in quantum computing and related fields.

Syllabus

Quantum Computing with Trapped Ions ▸ Crystal Noel (Duke)


Taught by

Kavli Institute for Theoretical Physics

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