Basic Information
2 of 4 Experiments With Quantum Systems. Experiment Will Be Carried Out For 6 Weeks. List of Experiments# * Nitrogen Vacancies As Quantum Sensor, Odmr Measurements and Dynamic Decoupling. * Interference From Single Photons, Quantum Optics With Single Photons, Quantum Key Distribution. *quantum Computing With Nmr. * Single Two Qubit. Single Nitrogen Vacancy Qubit, Odmr With Single Photon Detectors and Quantum Sensing. Learning Outcomes# The Course Is Intended For Students With Relatively Advnaced Background in Quantum Information and Quantum Technology That Want To Get Experience With Both Basic and Advanced Experiments in This Field. At The End of The Course, The Student Will Be Able To# 1. Know In Practice at Least Two Experiments Which Are Basic For Modern Quantum Technology. 2. Understand The Practical Problems That Limit The Capabilities of Quantum Systems in The Real World and Experience Minimization of These Limitations.
Faculty: Chemistry
|Graduate Studies
Pre-required courses
(44157 - Electrical Engineering Lab 1a and 44158 - Electrical Engineerng Lab 1b and 114020 - Physics Lab. 1m and 114032 - Physics Lab. 1h and 114081 - Physics Lab. 1 and 124601 - Physical Chemistry Lab. 1 and 124610 - Physical Chemistry Lab 1) or (46243 - Quantum Technologies and 116031 - Quantum Information Theory and 127446 - Introduction to Molecular Quantum Tech and 236990 - Introduction to Quantum Information Processing)
Course with no extra credit
126604 - Quantum Technology Lab A 116356 - Quantum Technologies Labs