Edx Quantum Mechanics Courses List

This course covers the fundamentals of one-dimensional quantum mechanics, including scattering, phase-shifts, time delays, Levinson's theorem, and resonances. Students will learn about barrier penetration and the Ramsauer-Townsend effect, as well as the application of central potentials to solve scattering problems. The course provides a comprehensive introduction to the principles of quantum mechanics. View all

This course provides an introduction to the use of quantum mechanics in science and engineering. It covers topics such as spin, identical particles, the quantum mechanics of light, and the basics of quantum information. Students will gain an understanding of the fundamentals of quantum mechanics and its applications in modern technology. View all

This course provides an in-depth look at quantum mechanics and its mathematical foundations. In Part 1, students will be introduced to the basics of wave mechanics and the variational principle. They will learn about the Schrödinger equation, wave functions, and the Heisenberg uncertainty principle. Additionally, they will explore the concept of angular momentum and its application to quantum systems. View all

This course explores the concepts of entanglement and angular momentum in quantum mechanics. It covers topics such as tensor product states, Bell inequalities, and representations of angular momentum. Students will gain an understanding of the spectrum of central potentials and the application of angular momentum in quantum mechanics. View all

This course explores the dynamics of quantum mechanics, including Heisenberg's uncertainty principle and compatible operators. Students will gain an understanding of the Schrodinger and Heisenberg pictures of quantum mechanics, as well as coherent and squeezed states of the harmonic oscillator. The course also covers the application of these concepts to various physical systems. View all

This course covers the fundamentals of quantum mechanics, including de Broglie waves, wavefunctions, probability interpretation, the Schrodinger equation, inner products, Hermitian operators, and expectation values. Students will gain an understanding of these concepts and how they are used to describe the behavior of particles on the quantum level. View all

This course explores the concept of topology in condensed matter, focusing on the idea that certain quantities remain unchanged in insulating systems with localized particles. When these quantities are altered, the system becomes conducting and propagating particles are created. The course examines how these changes can be used to tie quantum knots. View all

This course provides a comprehensive overview of quantum mechanics and its mathematical foundations. It equips students with the necessary skills to conduct research in quantum mechanics and to comprehend the latest advancements in the field. View all

This course provides an overview of quantum chemistry, exploring the application of quantum theory to atoms, molecules, and materials. Students will gain an understanding of wavefunctions, probability, special notations, and approximations, as well as the fundamentals of quantum mechanics. With this knowledge, they will be able to explore the fascinating world of the quantum. View all

This course introduces students to the fundamentals of quantum mechanics and quantum computation. It covers topics such as qubits, quantum gates, entanglement, quantum algorithms, and the experimental realization of quantum computers. The course is free and lectures are available with transcripts. Students can watch the lectures at their own pace. View all

This course provides an overview of the hardware of a quantum computer, exploring its potential applications and how it could revolutionize the way we think about information and our daily lives. It helps students understand the fundamentals of quantum computing and the implications of its use. View all

This course provides an overview of the two main methods used to determine the geometrical structure of molecules: molecular mechanics and quantum mechanics. It covers topics such as the principles of quantum mechanics, the Schrödinger equation, and the application of these principles to the study of molecular structure. Students will gain an understanding of the fundamentals of quantum mechanics and its application to molecular structure. View all

This course provides an introduction to the quantum states and dynamics of photons. It covers topics such as squeezed states of light, teleportation, non-classical states of light, single photons, and metrology with light. Students will gain an understanding of the quantum description of light and its applications. View all

This course explores the architecture, algorithms, and protocols of a quantum computer and quantum internet. It covers topics such as micro-architectures, compilers, and programming languages, as well as the basics of quantum computing and communication. Students will gain an understanding of how to control and operate a large-scale quantum computer. View all

This course provides an introduction to quantum mechanics by exploring the Schrodinger equation in one-dimensional potentials. Students will learn to calculate energy eigenstates and bound states, and gain an understanding of the physical implications of these results. The course is designed to give a comprehensive overview of quantum physics. View all

This 9 week course provides an introduction to quantum mechanics for college-level students with a background in physical science or engineering. It covers topics such as wave functions, operators, and the Schrödinger equation, and is designed to equip students with the knowledge and skills to apply quantum mechanics in their own fields. View all

This five-unit course provides a unified framework for understanding the essential physics that govern materials at atomic scales. Students will learn how to relate these processes to the macroscopic world, starting with the basics of quantum mechanics and progressing to more advanced topics such as electronic structure and thermodynamics. Through lectures, simulations, and problem sets, students will gain a comprehensive understanding of the properties of atoms and materials. View all

This advanced graduate physics course covers topics such as designing new quantum algorithms, exploring multi-party quantum protocols, and understanding quantum bits and quantum logic gates. Students will gain a deeper understanding of quantum mechanics and its applications. View all

This course is designed for physics majors and provides an in-depth look into modern condensed matter physics. Students will explore topics such as Bose-condensates and superconductivity, as well as gain an understanding of quantum mechanics and its applications in engineering. View all

This course introduces students to the fundamentals of quantum science and technology. It covers topics such as quantum physics, engineering solutions, and the disruptive potential of emerging quantum systems. Students will gain an understanding of the challenges and opportunities of this rapidly advancing field. View all

This advanced course provides an overview of the rapidly growing field of Topological Quantum Matter. It covers both theoretical and experimental aspects, with a focus on the physical understanding of the material rather than technical details. The course is divided into topics such as topological insulators, fractional quantum Hall effect, and Majorana fermions. It provides a comprehensive introduction to the field for students and researchers. View all

This course provides an introduction to the fundamentals of nanoelectronics, focusing on quantum transport. It covers topics such as the active region of transistors, which are only a few hundred atoms in length, and how they are used in everyday devices like smartphones. Students will gain an understanding of the principles of nanoelectronics and how they are applied in modern technology. View all

Discover the fundamentals of Applications of Quantum Mechanics View all

Learn the basics of Quantum Mechanics View all

A simple conceptual introduction to quantum mechanics and quantum computation. View all

Aprende sobre la gravedad cuántica de lazos o bucles, uno de los enfoques que se están estudiando para aplicar las reglas de la mecánica cuántica al campo gravitatorio descrito por la teoría de la relatividad general de Albert Einstein. View all