Quantum jump method

What is Quantum Annealing?

An explanation of quantum annealing at D-Wave including the applications and the relationship with other forms of quantum computing. Find out more on our website https://www.dwavesys.com/quantum-computing Get one free minute of direct access to a D-Wave quantum computer when you sign up f

From playlist Videos I made for D-Wave Systems

How to Get Classical Physics from Quantum Mechanics

We tend to think of Classical Physics as straightforward and intuitive and Quantum Mechanics as difficult and conceptually challenging. However, this is not always the case! In classical mechanics, a standard technique for finding the evolution equations for a system is the method of least

From playlist Quantum Mechanics

Quantum field theory, Lecture 2

This winter semester (2016-2017) I am giving a course on quantum field theory. This course is intended for theorists with familiarity with advanced quantum mechanics and statistical physics. The main objective is introduce the building blocks of quantum electrodynamics. Here in Lecture 2

From playlist Quantum Field Theory

Linear algebra for Quantum Mechanics

Linear algebra is the branch of mathematics concerning linear equations such as. linear functions and their representations in vector spaces and through matrices. In this video you will learn about #linear #algebra that is used frequently in quantum #mechanics or #quantum #physics. ****

From playlist Quantum Physics

Quantum Theory - Full Documentary HD

Check: https://youtu.be/Hs_chZSNL9I The World of Quantum - Full Documentary HD http://www.advexon.com For more Scientific DOCUMENTARIES. Subscribe for more Videos... Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physica

From playlist TV Appearances

Quantum Tunneling

Quantum tunneling explained with 3D simulations of Schrodinger’s equation for quantum wave functions. My Patreon page is at https://www.patreon.com/EugeneK

From playlist Physics

Dynamical large deviations and open quantum systems - J. Garrahan - PRACQSYS 2018 - CEB T2 2018

Juan Garrahan (School of Physics and Astronomy and Centre for the Mathematics and Theoretical Physics of Quantum Non-Equilibrium Systems, University of Nottingham, Nottingham, United Kingdom) / 02.07.2018 Dynamical large deviations and open quantum systems I will explain how, in systems

From playlist 2018 - T2 - Measurement and Control of Quantum Systems: Theory and Experiments

Quantum Computing for Beginners | How to get started with Quantum Computing

Quantum computing is the use of quantum-mechanical phenomena such as superposition and entanglement to perform computation. A quantum computer is used to perform such computation, which can be implemented theoretically or physically. The field of quantum computing is actually a sub-field

From playlist Quantum Physics

15. Unraveling Open System Quantum Dynamics

MIT 8.422 Atomic and Optical Physics II, Spring 2013 View the complete course: http://ocw.mit.edu/8-422S13 Instructor: Wolfgang Ketterle In this lecture, the professor discussed motivation for single quantum systems, QMCWF, and models for dephasing. License: Creative Commons BY-NC-SA Mor

From playlist MIT 8.422 Atomic and Optical Physics II, Spring 2013

Large deviations and quantum non- equilibrium by Juan P Garrahan

Large deviation theory in statistical physics: Recent advances and future challenges DATE: 14 August 2017 to 13 October 2017 VENUE: Madhava Lecture Hall, ICTS, Bengaluru Large deviation theory made its way into statistical physics as a mathematical framework for studying equilibrium syst

From playlist Large deviation theory in statistical physics: Recent advances and future challenges

Yu Tong - Heisenberg-limited ground state energy estimation & early fault-tolerant quantum computers

Recorded 26 January 2022. Yu Tong of the University of California, Berkeley, presents "Heisenberg-limited ground state energy estimation for early fault-tolerant quantum computers" at IPAM's Quantum Numerical Linear Algebra Workshop. Abstract: Under suitable assumptions, the quantum phase

From playlist Quantum Numerical Linear Algebra - Jan. 24 - 27, 2022

Peter Zoller: Introduction to quantum optics - Lecture 2

Abstract: Quantum optical systems provides one of the best physical settings to engineer quantum many-body systems of atoms and photons, which can be controlled and measured on the level of single quanta. In this course we will provide an introduction to quantum optics from the perspective

From playlist Mathematical Physics

Kirone Mallick - Bethe Ansatz technique and application (2)

PROGRAM: BANGALORE SCHOOL ON STATISTICAL PHYSICS - V DATES: Monday 31 Mar, 2014 - Saturday 12 Apr, 2014 VENUE: Raman Research Institute, Bangalore PROGRAM LINK: http://www.icts.res.in/program/BSSP2014 This advanced level school was started in 2010 at the Raman Research Institute, Banga

From playlist Bangalore School on Statistical Physics - V

Dynamical fluctuations in classical and quantum systems by Carlos Perez Espigares

Large deviation theory in statistical physics: Recent advances and future challenges DATE: 14 August 2017 to 13 October 2017 VENUE: Madhava Lecture Hall, ICTS, Bengaluru Large deviation theory made its way into statistical physics as a mathematical framework for studying equilibrium syst

From playlist Large deviation theory in statistical physics: Recent advances and future challenges

AQC 2016 - Simulated Quantum Annealing Can Be Exponentially Faster Than Classical

A Google TechTalk, June 27, 2016, presented by Elizabeth Crosson (Caltech) ABSTRACT: Simulated Quantum Annealing Can Be Exponentially Faster Than Classical Simulated Annealing: Cost functions with thin, high energy barriers can exhibit exponential separations between the run-time of class

From playlist Adiabatic Quantum Computing Conference 2016

Peter Zoller: Introduction to quantum optics - Lecture 1

Abstract: Quantum optical systems provides one of the best physical settings to engineer quantum many-body systems of atoms and photons, which can be controlled and measured on the level of single quanta. In this course we will provide an introduction to quantum optics from the perspective

From playlist Mathematical Physics

Thermal properties of frustrated quantum magnets by Frederic Mila

PROGRAM FRUSTRATED METALS AND INSULATORS (HYBRID) ORGANIZERS: Federico Becca (University of Trieste, Italy), Subhro Bhattacharjee (ICTS-TIFR, India), Yasir Iqbal (IIT Madras, India), Bella Lake (Helmholtz-Zentrum Berlin für Materialien und Energie, Germany), Yogesh Singh (IISER Mohali, In

From playlist FRUSTRATED METALS AND INSULATORS (HYBRID, 2022)

Jean Michel Raimond - Chats de Schrödinger de lumière et décohérence

From playlist Trimestre: Le Monde Quantique - Colloque d'ouverture et séminaires

Nandini Ananth - Quantum dynamics from classical trajectories - IPAM at UCLA

Recorded 14 April 2022. Nandini Ananth of Cornell University, Chemistry, presents "Quantum dynamics from classical trajectories" at IPAM's Model Reduction in Quantum Mechanics Workshop. Abstract: Semiclassical approximations based on the path integral formulation of quantum mechanics emplo

From playlist 2022 Model Reduction in Quantum Mechanics Workshop

Peter Zoller: Introduction to quantum optics - Lecture 4

Abstract: Quantum optical systems provides one of the best physical settings to engineer quantum many-body systems of atoms and photons, which can be controlled and measured on the level of single quanta. In this course we will provide an introduction to quantum optics from the perspective

From playlist Mathematical Physics