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Introduction to Quantum Science & Technology

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Free Online Course: Introduction to Quantum Science & Technology provided by edX is a comprehensive online course, which lasts for 17 weeks long, 7-10 hours a week. The course is taught in English and is free of charge. Upon completion of the course, you can receive an e-certificate from edX. Introduction to Quantum Science & Technology is taught by Mahdi Hosseini.

Purdue University via edX
17 weeks long, 7-10 hours a week
In progress
Overview

  • Emerging quantum systems are disruptive technologies redefining computing and communication. Teaching quantum physics to engineers and educating scientists on engineering solutions are critical to address fundamental and engineering challenges of the quantum technologies.

    This course provides an introduction to various quantum technologies by overviewing laws of quantum physics, quantum systems and their engineering challenges. In particular, the course reviews various implementation of quantum communication and computation and basic science and engineering behind the technology.

    Students will have an opportunity to complete tasks using Microsoft Azure Quantum in the cloud.

Syllabus

  • Section A: Overview of Q Technologies

    • Quantum Engineering
    • Motivation: Quantum Computing
    • Motivation: Quantum Communication
    • Motivation: Quantum Sensing

    Section B: Fundamentals of Quantum Mechanics

    • The Birth of Quantum Mechanics
    • Postulates of Quantum Mechanics
    • Hamiltonian and Schrodinger Equation
    • Dirac Notation
    • Density Operator

    Section C: Essential Concepts in Quantum Mechanics

    • Operators in Quantum Mechanics
    • Heisenberg Uncertainty
    • Wave Particle Duality
    • Coherence
    • Entanglement

    Section D: Quantum Resources: EM Waves

    • Quantum EM Fields
    • Polarization of Optical Fields
    • EM Resonators
    • Single Photon Detection
    • E-Field Detection
    • Quantum Light

    Section E: Quantum Resources: Atoms

    • Two-Level Atom
    • Introduction to Light-Atom Interactions
    • Trapping and Cooling Atoms
    • Three-Level Atoms
    • Rydberg Atoms
    • Trapped Ions

    Section F: Quantum Resources: Superconducting Devices

    • Fundamentals of Superconductors
    • Superconducting Two-Level Systems
    • Superconducting Qubits
    • Superconducting Circuits and Challenges

    Section G: Quantum Sensing

    • Light Interferometry – LIGO
    • Particle Interferometry – Ramsey Measurement
    • Sensing Via Defects in Diamond

    Section H: Quantum Communication

    • Quantum Cryptography
    • Quantum Teleportation
    • Quantum Memory
    • Entanglement Distribution

    Section I: Quantum Computation

    • Introduction to Classical Computing
    • Introduction to Quantum Computing
    • Experimental Implementation of Quantum Computation
    • Deterministic Two-Qubit Logic Gates
    • Single and Two-Qubit Photonic Gates
    • Superconducting Gates
    • Quantum Logic Operation Using Trapped Ions
    • Quantum Logic Operation Using Rydberg Atom
    • Linear Optics Quantum Computing
    • Engineering Quantum Systems

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