IMOD is partnering with the University of Washington Accelerating Quantum-Enabled Technologies (AQET) program to offer access to a recently developed Quantum Information Science and Engineering (QISE) course.
The aim of this course is to support the development of quantum science curriculums across the United States. A defining feature of the QISE course is that it is developed and delivered by chemists and materials scientists at a level to educate graduate student chemists and materials scientists. The goal is to bridge the gap between physics to chemistry, computer science and engineering, electrical and computer engineering, and materials science and engineering. A dense quantum physics course is typically inaccessible to scientists from other disciplines.
The course introduces students to core concepts, including mathematical and quantum mechanical foundation, qubits, coherence, entanglement, applications, and materials systems.
Intro to QISE: Lecture Series
QISE Lecture 01 – The Power of Qubits
QISE Lecture 02 – The Language of Quantum
QISE Lecture 03 – The Power of Quantum Technology
QISE Lecture 04 – The Power of Quantum Communication
QISE Lecture 05 – Types of Qubit Platforms
QISE Lecture 06 – Quantum Math Foundations
QISE Lecture 07 – Linear Algebra in Quantum
QISE Lecture 08 – Quantum Matrix Properties
QISE Lecture 09 – The Nature of Qubits
QISE Lecture 10 – Measuring and Entangling Qubits
QISE Lecture 11- Quantum Math in Action
QISE Lecture 12 – Manipulating Qubits with Gates
QISE Lecture 13 – Superposition with Quantum Gates
QISE Lecture 14 – Creating Scalable Quantum Systems
QISE Lecture 15 – Quantum Decoherence
QISE Lecture 16 – The DiVincenzo Criteria
QISE Lecture 17- Creating and Representing Quantum States
QISE Lecture 18 – More Quantum Gates
QISE Lecture 19 – Quantum Algorithms in Action
