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Simulating Field Theory in the Light-Front Formulation
Online Presentations | 08 Jan 2021 | Contributor(s):: Peter J. Love
I will talk about quantum simulation algorithms based on the light-front formulation of quantum field theory. They will range from ab initio simulations with nearly optimal resource scalings to VQE-inspired methods available for existing devices.
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Quantum Mathematics: Counting, Computing, and Reasoning with Quantum Numbers
Online Presentations | 18 Dec 2020 | Contributor(s):: Zhenghan Wang
In this talk I will explain the basics of wave functions, quantum computing, and speculate on implications for future mathematics.
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Zhenghan Wang
I was born in Tsingtao, China and received my Ph.D in mathematics from UCSD in 1993. I was an assistant Professor of Mathematics at University of Michigan from 1993–1996 and Professors of...
https://nanohub.org/members/310668
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Designing a NISQ Reservoir with Maximal Memory Capacity for Volatility Forecasting
Online Presentations | 28 Oct 2020 | Contributor(s):: Samudra Dasgupta
In this talk, we lay out the systematic design considerations for using a NISQ reservoir as a computing engine. We then show how to experimentally evaluate the memory capacity of various reservoir topologies (using IBM-Q’s Rochester device) to identify the configuration with maximum...
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Samudra Dasgupta
Samudra Dasgupta obtained his B.Tech in Electronics and Electrical Engineering from IIT-Kharagpur 2006, followed by M.S. in Engineering and Applied Sciences from Harvard 2008 and an M.B.A. from...
https://nanohub.org/members/305162
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Nima Lashkari
https://nanohub.org/members/299067
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Physics and Computation (with Nuclear Spins)
Online Presentations | 21 May 2020 | Contributor(s):: Gerardo Ortiz
There is a deep connection between Physics and Computation. Indeed, any computation can be represented as a physical process. In 1981 Richard Feynman raised some provocative questions in connection to the simulation of physical phenomena using a special device called a "Quantum...
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Exploring Synthetic Quantum Materials in Superconducting Circuits
Online Presentations | 30 Apr 2020
Superconducting circuits have emerged as a competitive platform for quantum computation, satisfying the challenges of controllability, long coherence and strong interactions. I will show our recent experiments to apply this toolbox to the exploration of strongly correlated quantum materials made...
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PennyLane - Automatic Differentiation and Machine Learning of Quantum Computations
Online Presentations | 29 Apr 2020 | Contributor(s):: Nathan Killoran
PennyLane is a Python-based software framework for optimization and machine learning of quantum and hybrid quantum-classical computations.
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The Magic of Intelligent Coherent Optical Processing
Online Presentations | 18 Mar 2020 | Contributor(s):: Charles Addison Bouman
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Ranaldo Somma
Dr. Rolando Somma is a scientist working at the forefront of quantum information at Los Alamos National Laboratory (LANL). Rolando received his Ph.D. from the Instituto Balseiro, Argentina, and was...
https://nanohub.org/members/280327
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Advances in Computational and Quantum Imaging Workshop
Workshops | 28 Jan 2020
The purpose of the workshop is to bring different communities together, review recent theoretical and experimental advances and explore synergetic collaborations. The workshop aligns well with the significant investments in quantum technologies through the National Quantum Initiative in the...
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Raphael C. Pooser
Dr. Pooser is an expert in continuous variable quantum optics. He leads the quantum sensing team within the quantum information science group. His research interests include quantum computing,...
https://nanohub.org/members/275623
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Spatial Complexity in Correlated Electronic Systems
Online Presentations | 08 Jan 2020 | Contributor(s):: Erica W. Carlson
I will discuss how understanding the formation of these patterns is vital to our understanding of electronic properties and to our eventual technological control of quantum matter. We have defined new paradigms for interpreting and understanding nanoscale electronic textures observed at the...
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Many-body Expedition from Semiconductors to Atomic BECs
Online Presentations | 11 Dec 2019 | Contributor(s):: Mackillo Kira
Specifically, I will overview how methods of semiconductor quantum optics relate to phenomena in strongly interacting Bose gas. This expedition focuses on the first unitary BEC experiment which demonstrated that a surprisingly large BEC fraction survived a quench from weak to unitary...
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Mackillo Kira
Professor Kira develops systematic many-body and quantum-optics approaches to quantitatively analyze, guide, and explain contemporary experiments that study phenomena encountered in the broad field...
https://nanohub.org/members/273502
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The Algebra of Topological Quantum Computing
Online Presentations | 05 Dec 2019 | Contributor(s):: Qing Zhang
In this talk, I will discuss some recent results in the theory of tensor categories, motivated by this connection with topological quantum computation.
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Universal Variational Quantum Computation
Online Presentations | 28 Oct 2019 | Contributor(s):: Jacob Biamonte
We show that the variational approach to quantum enhanced algorithms admits a universal model of quantum computation.
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Machine Learning for Quantum Control
Online Presentations | 28 Oct 2019 | Contributor(s):: Barry Sanders
We develop a framework that connects reinforcement learning with classical and quantum control, and this framework yields adaptive quantum-control policies that beat the standard quantum limit, inspires new methods for improving quantum-gate design for quantum computing, and suggest new ways to...
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On Topological Quantum Computing
Online Presentations | 28 Oct 2019 | Contributor(s):: Shawn Xingshan Cui
We give an introduction to the theory of topological quantum computing (TQC), which is an approach to realizing quantum computation with non-Abelian anyons.