Hamiltonian Simulation and Universal Quantum (...) - T. Cubitt - Main Conference - CEB T3 2017
Toby Cubitt (UCL) / 14.12.2017 Title: Hamiltonian Simulation and Universal Quantum Hamiltonians Abstract: Physical (or "analogue") Hamiltonian simulation involves engineering a Hamiltonian of interest in the laboratory, and studying its properties experimentally (somewhat analogous to b
From playlist 2017 - T3 - Analysis in Quantum Information Theory - CEB Trimester
Moving on from Lagrange's equation, I show you how to derive Hamilton's equation.
From playlist Physics ONE
Hamiltonian Mechanics in 10 Minutes
In this video I go over the basics of Hamiltonian mechanics. It is the first video of an upcoming series on a full semester university level Hamiltonian mechanics series. Corrections -4:33 the lagrangian should have a minus sign between the first two terms, not a plus.
From playlist Summer of Math Exposition 2 videos
A solar system, a simulation made with Excel
An Excel simulation of the solar system. You can see how things are recursively computed: the mutual gravity force from the locations, the accelerations, the velocities, and finally the updated locations. The solar eclipse is also shown. This is clip is intended to illustrate Chapter 24 Ap
From playlist Physics simulations
Joan ELIAS MIRÓ - Precise calculations with the Renormalized Hamiltonian Truncation approach
https://indico.math.cnrs.fr/event/2435/
From playlist Workshop “Hamiltonian methods in strongly coupled Quantum Field Theory”
The spherical pendulum in the Hamiltonian formalism
We continue with the spherical pendulum animation and discuss the difference between the major analytical mechanics approaches. Who won? You decide.
From playlist Programming
Andreas LÄUCHLI - Numerical Hamiltonian truncation approach to the \phi^4 theory in 1+1d and beyond
https://indico.math.cnrs.fr/event/2435/
From playlist Workshop “Hamiltonian methods in strongly coupled Quantum Field Theory”
Let's Learn Physics: Chaos in Phase Space
We have seen how Hamiltonian mechanics can be used to solve for the dynamics of physical systems. It turns out that there is quite a bit of hidden power in this formalism in that we can prove some fairly general statements about physics as a whole. We will see one of these results, known a
From playlist Let's Learn (Classical) Physics: ZAP Physics Livestreams
Quantum Metrology II by Girish Agarwal
Dates: Thursday 03 Jan, 2013 - Saturday 05 Jan, 2013 Venue: ICTS-TIFR, IISc Campus, Bangalore The school aims to provide students and researchers an introduction to the field of quantum information, computation and communication. Topics that will be covered include introduction to quantu
From playlist Mini Winter School on Quantum Information and Computation
Quantum Simulations I by Barry Sanders
Dates: Thursday 03 Jan, 2013 - Saturday 05 Jan, 2013 Venue: ICTS-TIFR, IISc Campus, Bangalore The school aims to provide students and researchers an introduction to the field of quantum information, computation and communication. Topics that will be covered include introduction to quantu
From playlist Mini Winter School on Quantum Information and Computation
AQC 2016 - Floquet Quantum Annealing with Superconducting Circuit
A Google TechTalk, June 29, 2016, presented by Oleksandr Kyriienko (Niels Bohr Institute) ABSTRACT: The successful application of a quantum annealing procedure largely relies on the possibility to implement a non-trivial Hamiltonian in a fully controlled system. The circuit QED platform ha
From playlist Adiabatic Quantum Computing Conference 2016
MagLab Theory Winter School 2018: Rajibul Islam - Quantum Simulation with Trapped Ions I
The National MagLab held it's sixth Theory Winter School in Tallahassee, FL from January 8th - 13th, 2018.
From playlist 2018 Theory Winter School
AQC 2016 - Testing Adiabatic Quantum Computers Using Simple Quantum Simulation
A Google TechTalk, June 29, 2016, presented by Peter Love (Tufts University) ABSTRACT: Validation of Adiabatic Quantum computers is a significant problem. One of the advantages of the Adiabatic model is that it does not require the rapid pulsed controls necessary in the gate model of quan
From playlist Adiabatic Quantum Computing Conference 2016
Di Fang - Time-dependent Hamiltonian Simulation of Highly Oscillatory Dynamics - IPAM at UCLA
Recorded 24 January 2022. Di Fang of the University of California, Berkeley, presents "Time-dependent Hamiltonian Simulation of Highly Oscillatory Dynamics" at IPAM's Quantum Numerical Linear Algebra Workshop. Abstract: Highly oscillatory dynamics are ubiquitous in nature and practical app
From playlist Quantum Numerical Linear Algebra - Jan. 24 - 27, 2022
Nathan Wiebe - Quantum Simulation - IPAM at UCLA
Recorded 23 February 2023. Nathan Wiebe of the University of Toronto presents "Quantum Simulation" at IPAM's Winter School on Contemporary Quantum Algorithms and Applications. Learn more online at: http://www.ipam.ucla.edu/programs/special-events-and-conferences/winter-school-on-contempora
From playlist 2023 Winter School on Contemporary Quantum Algorithms and Applications
25. Statistical Foundation for Molecular Dynamics Simulation
MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012 View the complete course: http://ocw.mit.edu/2-57S12 Instructor: Gang Chen License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012
Physics of Quantum Annealing - Hamiltonian and Eigenspectrum
In this video we delve into the physics that describe quantum annealing: the Hamiltonian and Eigenspectrum. These are useful pictures of what is going on in the quantum annealing process. Find out more on our website https://www.dwavesys.com/quantum-computing Get one free minute of direct
From playlist Videos I made for D-Wave Systems
HEDS | Using quantum computers to simulate a toy problem of laser-plasma interaction
HEDS Seminar Series- Yuan Shi – August 5th, 2021 LLNL-VIDEO-836250
From playlist High Energy Density Science Seminar Series
Unpacking the Schrödinger Equation
We've talked about the Schrödinger equation before, but we really didn't dig into it with any depth at all. Now it's time to really get in there and do the math. What is the Hamiltonian operator? What is the time-independent Schrödinger equation? What we can we do with this equation? Let's
From playlist Modern Physics