Related Organizations at Stanford
SystemX Alliance: a collaboration between Stanford University and industrial firms. They have multiple focus areas, including quantum computing. Sometimes, they have talks and seminars related to quantum computing. You can receive news about seminars hosted by SystemX Alliance by joining their mailing list here.
Ginzton Lab: an interdisciplinary research lab that explores quantum science and engineering, photonic science and engineering, and nanoscience and engineering.
Q-Farm: the newly launched Quantum Fundamentals, ARchitecture and Machines initiative will build upon existing strengths in theoretical and experimental quantum science and engineering at Stanford and SLAC National Accelerator Laboratory.
Educational Material (Stanford-only access)
Hands-On Workshop - Quantum Computing with Qiskit: The SystemX Alliance organized an event where IBM Q researchers came to Stanford to teach students how to program on their quantum computer.
Online Courses
Quantum Computing Course at Brilliant.org — an interactive course made in collaboration with Microsoft and Alphabet X.
MIT’s three-course series on quantum information science on edX
Stanford Courses
Below are a list of courses related to quantum computing. Note that not all of these classes are always offered, so whoever is interested in specific classes will have to contact the faculty listed to plan ahead.
| Course number | Course name | Faculty contact |
| APPPHYS 203 | Atoms, Fields, and Photons | Simon, Safavi-Naeini |
| APPPHYS 204 | Quantum Materials | Fisher, Suzuki |
| APPPHYS 228 | Quantum Hardware | Safavi-Naeini, Schuster |
| APPPHYS 282 | Ultracold Quantum Physics | Ben Lev |
| APPPHYS 283 | Ultrafast Quantum Physics | Philip Bucksbaum |
| APPPHYS 280 | Phenominology of Superconductors | Charlotte Bøttcher |
| APPPHYS 284 | Introduction to Superconducting Circuits | David Schuster |
| APPPHYS 483 | Optics and Electronics Seminar | Martin Fejer |
| CHEM 261 | Computational Chemistry | Markland |
| CS 254/254B | Computational Complexity I, II | Tan |
| CS 259Q | Quantum Computing | Adam Bouland |
| CS 359D | Quantum Complexity Theory | Bouland |
| EE 222/223 | Applied Quantum Mechanics I, II | Miller |
| EE 224 | Quantum Control and Engineering | Joonhee Choi |
| EE 276 | Information Theory | Weissman |
| EE 336 | Nanophotonics | Weissman |
| EE 340 | Quantum Photonics | Jelena Vuckovic |
| MATH 275A | Quantum Algorithms for Scientific Computation | Lexing Ying |
| MATSCI 331 | Atom-Scale Computational MatSci | Austin Sendek |
| MUSIC 222A | Quantum Computer Music | Scott Oshiro |
| PHYSICS 14N | Quantum Information (Introsem) | Hari Manoharan |
| PHYSICS 134, 234 | Advanced Topics in Quantum Mechanics I, II | Hayden |
| PHYSICS 230/231 | Graduate Quantum Mecahnics I, II | Hayden |
| PHYSICS 330/331/332 | Quantum Field Theory I, II, III | Peskin, Stanford, Silverstein |
| PHYSICS 430 | Quantum Error Correction | Jeongwan Haah |
| PHYSICS 470 | Topics in Modern Condensed Matter Theory I: Many Body Quantum Dynamics | Khemani |
| PHYSICS 472 | Quantum Information Theory and Many-Body Physics | Xiaoliang Qi |
| STATS 311 | Information Theory and Statistics | Weissman |