Quantum Mechanics 1.1: Introduction
In this video I provide some motivation behind the development of quantum mechanics, kicking off a new series on everything you've been wondering about quantum mechanics! Twitter: https://twitter.com/SciencePlease_
From playlist Quantum Mechanics
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
SciAm Special: How Do Quantum Computers Work?
Jargon is easy; metaphors are tough -- try describing quantum computers to folks who have never heard of them. One of our editors gives it his best shot in fifth episode of the Instant Egghead segment of Scientific American's new video podcast. (iTunes, RSS)
From playlist Scientific American Channel
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
Are You GOOD At Quantum Physics?
How Quickly Can You Solve THIS Quantum Physics Problem?!? #Quantum #Mechanics #Light #Frequency #NicholasGKK #Shorts
From playlist Quantum Mechanics
What Is Quantum Computing | Quantum Computing Explained | Quantum Computer | #Shorts | Simplilearn
đ„Explore Our Free Courses With Completion Certificate by SkillUp: https://www.simplilearn.com/skillup-free-online-courses?utm_campaign=QuantumComputingShorts&utm_medium=ShortsDescription&utm_source=youtube Quantum computing is a branch of computing that focuses on developing computer tech
From playlist #Shorts | #Simplilearn
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
Understanding Quantum Mechanics #1: Itâs not about discreteness
This must be one of the most common misunderstandings about quantum mechanics, that quantum mechanics is about making things discrete. But is an understandable misunderstanding because the word âquantumâ suggests that quantum mechanics is about small amounts of something. Indeed, if you as
From playlist Understanding Quantum Mechanics
Andrew Childs - Efficient quantum algorithm for dissipative nonlinear differential equations
Recorded 24 January 2022. Andrew Childs of the University of Maryland presents "Efficient quantum algorithm for dissipative nonlinear differential equations" at IPAM's Quantum Numerical Linear Algebra Workshop. Abstract: While there has been extensive previous work on efficient quantum alg
From playlist Quantum Numerical Linear Algebra - Jan. 24 - 27, 2022
Why Canât We Classically Describe Quantum Systems? - Chinmay Nirkhe
Computer Science/Discrete Mathematics Seminar I Topic: Why Canât We Classically Describe Quantum Systems? Speaker: Chinmay Nirkhe Affiliation: MIT-IBM Watson AI Lab Date: March 13, 2023 A central goal of physics is to understand the low-energy solutions of quantum interactions between pa
From playlist Mathematics
Jarrod McClean - Dequantization and quantum advantage in learning from experiments - IPAM at UCLA
Recorded 25 January 2022. Jarrod McClean of Google presents "Dequantization and quantum advantage in learning from experiments" at IPAM's Quantum Numerical Linear Algebra Workshop. Abstract: Quantum technology has the potential to revolutionize how we acquire and process experimental data
From playlist Quantum Numerical Linear Algebra - Jan. 24 - 27, 2022
Ewin Tang - On quantum linear algebra for machine learning - IPAM at UCLA
Recorded 25 January 2022. Ewin Tang of the University of Washington presents "On quantum linear algebra for machine learning" at IPAM's Quantum Numerical Linear Algebra Workshop. Abstract: We will discuss quantum singular value transformation (QSVT), a simple unifying framework for quantum
From playlist Quantum Numerical Linear Algebra - Jan. 24 - 27, 2022
Quantum Exceptional Points:Challenges and Opportunities by Yogesh N Joglekar
PROGRAM NON-HERMITIAN PHYSICS (ONLINE) ORGANIZERS: Manas Kulkarni (ICTS, India) and Bhabani Prasad Mandal (Banaras Hindu University, India) DATE: 22 March 2021 to 26 March 2021 VENUE: Online Non-Hermitian Systems / Open Quantum Systems are not only of fundamental interest in physics a
From playlist Non-Hermitian Physics (ONLINE)
Computational Phenomena in Physics - Scott Aaronson
Lens of Computation on the Sciences - November 22, 2014 Computational Phenomena in Physics - Scott Aaronson, Massachusetts Institute of Technology Scott Aaronson will discuss the quest to understand the limits of efficient computation in the physical universe, and how that quest has been
From playlist Lens of Computation on the Sciences
Dynamics of quantum entanglement by Sthitadhi Roy
Vigyan Adda Dynamics of quantum entanglement Speaker: Sthitadhi Roy (ICTS-TIFR) When: 4:30 pm to 5:30 pm Thursday, 02 February 2023 Where: Online Abstract: Quantum entanglement is one of the central tenets of quantum mechanics. In fact, it can be understood as the notion that distin
From playlist Vigyan Adda
Basics of quantum measurement with quantum light by Michael Hatridge
DATE: 04 June 2018 to 13 June 2018 VENUE:Ramanujan Lecture Hall, ICTS Bangalore Non-Hermitian Physics-"Pseudo-Hermitian Hamiltonians in Quantum Physics (PHHQP) XVIII" is the 18th meeting in the series that is being held over the years in Quantum Physics. The scope of the program on Non-H
From playlist Non-Hermitian Physics - PHHQP XVIII
Peter Zoller: Introduction to quantum optics - Lecture 3
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
Benjamin Anderson-Sackaney - Tracial and G-invariant States on Quantum Groups
For a discrete group G, the tracial states on its reduced group $C^*$-algebra $C^â_r (G)$ are exactly the conjugation invariant states. This makes the traces on $C^â_r (G)$ amenable to group dynamical techniques. In the setting of a discrete quantum group ${\mathbb G}$, there is a quantum
From playlist Annual meeting âArbre de NoĂ«l du GDR GĂ©omĂ©trie non-commutativeâ
The Interpretations of Quantum Mechanics
An introduction to the Interpretations of Quantum Mechanics. The first 500 people to sign up via my link will get two FREE months of Skillshare Premium: https://skl.sh/domainofscience The interpretations of quantum physics are a collection of attempts of many physicists to try and make qua
From playlist The Map of Quantum Physics Expanded