QuICS

Site Link

https://quics.umd.edu

Hero

Special Problems in Advanced Physics; Seminar in Quantum Physics, Information, and Technology (PHYS798Q, Spring 2022)

Read more about Special Problems in Advanced Physics; Seminar in Quantum Physics, Information, and Technology (PHYS798Q, Spring 2022)

Friday Quantum Seminars. 1 credit.

Introduction to Quantum Technology (PHYS467, Fall 2022)

Read more about Introduction to Quantum Technology (PHYS467, Fall 2022)

Investigates the physical systems used to implement quantum computers. Covers basics of atomic clocks, laser interferometers, quantum key distribution, quantum networks, and three types of qubits (ion-based, superconductor-based, and semiconductor-based).

Quantum Boot Camp (ENEE489F/CHPH499F/CMSC488A/PHYS499F, Fall 2022)

Read more about Quantum Boot Camp (ENEE489F/CHPH499F/CMSC488A/PHYS499F, Fall 2022)

Designed for computer science, engineering and mathematics majors. Introduces basic concepts and techniques widely used in quantum information science.

Introduction to Quantum Information Processing (CMSC657, Fall 2022)

Read more about Introduction to Quantum Information Processing (CMSC657, Fall 2022)

An introduction to the field of quantum information processing. Students will be prepared to pursue further study in quantum computing, quantum information theory, and related areas.

The Foundation of End-to-End Quantum Applications (CMSC858O, Fall 2022)

Read more about The Foundation of End-to-End Quantum Applications (CMSC858O, Fall 2022)

Advanced Topics in Theory of Computing; Quantum Complexity (CMSC858L, Spring 2023)

Read more about Advanced Topics in Theory of Computing; Quantum Complexity (CMSC858L, Spring 2023)

Introduction to Quantum Computing (CMSC457/PHYS457, Spring 2023)

Read more about Introduction to Quantum Computing (CMSC457/PHYS457, Spring 2023)

An introduction to the concept of a quantum computer, including algorithms that outperform classical computation and methods for performing quantum computation reliably in the presence of noise. As this is a multidisciplinary subject, the course will cover basic concepts in theoretical computer science and physics in addition to introducing core quantum computing topics.

Quantum Technology (PHYS720/ENEE789M, Spring 2023)

Read more about Quantum Technology (PHYS720/ENEE789M, Spring 2023)

A good grounding in electromagnetism and quantum mechanics is necessary; familiarity with density matrices and master equations will be helpful. Physical principles behind emerging quantum technologies, from quantum-limited amplifiers to atomic simulators. Examination of current and emerging platforms for quantum technologies, including neutral atom, ion trap, superconducting circuit, photonic, and spin-based approaches. Focus on hurdles for implementing quantum devices for new applications.