Solid state systems for quantum information
PHYS-464
This file is part of the content downloaded from Solid state systems for quantum information.
- ORAL EXAM SCHEDULING - UPDATED (File)
- Announcements (Forum)
- Course overview (File)
- Example questions final exam (File)
- HQC laboratory research topics (File)
- Will you be able to attend the lecture the 11th of March (Choice)
- Slides 1 - Course Introduction (File)
- Slides 1 - Summary of quantum information science (File)
- Notes 1 - Postulate of QM + Brief Recap (File)
- Notes 1 - Quantum Information Processing Extended (File)
- Notes 1 - Single and Two Qubit Gates (File)
- Exercise Session 1 (File)
- Solutions Exercise Session 1 (File)
- Textbook chapter - Quantum mechanics (File)
- Lecture 1 - part 1 (URL)
- Lecture 1 - part 2 (URL)
- Slides - Lecture 2 (File)
- Notes 2 - Quantization of electrical circuits and superconducting resonators (File)
- Notes 2 - Superconductivity, Josephson effect and Cooper pair box (File)
- Textbook chapter - Superconductivity (File)
- Textbook chapter - Quantum circuit theory (File)
- Exercise Session 2 (File)
- Solutions Exercise Session 2 (File)
- quantization coupled resonators template (File)
- quantization_coupled_resonators_solution (File)
- Lecture 2 - Part 1 (URL)
- Lecture 2 - Part 2 (URL)
- Slides - Lecture 3 (File)
- Notes 3 - Superconductivity and Josephson effect (File)
- InputOutput_theory_notes (File)
- Extra: circuit quantization paper 1 (File)
- Extra: circuit quantization paper 2 (File)
- Exercise Session 3 (File)
- Solutions Exercise Session 3 (File)
- Lecture 3 - part 1 (URL)
- Lecture 3 - part 2 (URL)
- Slides - Lecture 4 (File)
- Exercise Session 4 (File)
- Solutions Exercise Session 4 (File)
- CPB template (File)
- CPB solutions (File)
- Lecture 4 - Part 1 (URL)
- Slides - Lecture 5 (File)
- Notes - Lecture 5 (File)
- Exercise Session 5 (File)
- Solutions Exercise Session 5 (File)
- Extra: Charge-insensitive qubit design derived from the Cooper pair box (File)
- Extra: Materials loss measurements using superconducting microwave resonators (File)
- Lecture 5 - Part 1 (URL)
- Lecture 5 - Part 2 (URL)
- Slides - Lecture 5 second part (File)
- Slides - Lecture 6 (File)
- Lecture 5 - Part 3 (URL)
- Lecture 6 - Part 1 (URL)
- Lecture 6 - Part 2 (URL)
- Slides - Lecture 7 (File)
- Extra: paper qubit noise and driving (File)
- Extra material: paper qubit noise (File)
- Exercise Session 7 (File)
- Solutions Exercise Session 7 (File)
- Rabi pulses-Template (File)
- Rabi pulses-Solutions (File)
- Lecture 7 - Part 1 (URL)
- Lecture 7 - Part 2 (URL)
- Slides - Lecture 8 (File)
- Notes - Lecture 8 (File)
- Lecture 8 - part 1 (URL)
- Lecture 8 - part 2 (URL)
- Lecture 8 - Part 3 (URL)
- Zoom link for today's lecture (URL)
- Notes - Lecture 9 (File)
- Exercise Session 9 (File)
- Solutions Exercise Session 9 (File)
- Krantz review (File)
- Lecture 7 - Part 1 (URL)
- Lecture 7 - Part 2 (URL)
- Lecture 9 - Part 1 (URL)
- Lecture 9 - part 2 (URL)
21 April - 27 April - Easter break :)
- Exercise Session 10 (File)
- Solutions Exercise Session 10 (File)
- Coupling superconducting qubits via a cavity bus - Majer (File)
- Atom Photon Bound States (File)
- TwoQubitGatesTemplate (File)
- TwoQubitGatesSolution (File)
- Slides - Lecture 11 (File)
- Notes - Lecture 11 (File)
- Exercise Session 11 (File)
- Solutions Exercise Session 11 (File)
- Lecture 10 - part 2 (URL)
- Slides - Lecture 12 - Introduction to Quantum Dots (File)
- Slides - Lecture 12 (File)
- Notes 12 - Spin Qubits (File)
- Harvey quantum dots and spin qubits review (File)
- Lecture 11 - part 1 (URL)
- Lecture 11 - part 2 (URL)
- Slides - Lecture 13 (File)
- Exercise Session 13 (File)
- Solutions Exercise Session 13 - Ex1 (File)
- Solutions Exercises Session 13 - Ex2, 3, 4 (File)
- Exercise Session 13 - Ex5 template (File)
- Exercise Session 13 - Ex5 Solution (File)
- Lecture 12 - Part 1 (URL)
- Lecture 12 - Part 2 (URL)