IQIS Lecture 8.5 — Nine-qubit code
IQIS Lecture 1.2 — Probability amplitudes (continued)
IQIS Lecture 3.8 — Entanglement, interference, and visibility
IQIS Lecture 8.11 — Stabilizers
IQIS Lecture 8.6 — Inverting quantum channels
IQIS Lecture 8.10 — Pauli operators in error correction
IQIS Lecture 8.1 — Overview of quantum error correction
IQIS Lecture 7.5 — Kraus representations
IQIS Lecture 8.14 — Seven-qubit code and transversal constructions
IQIS Lecture 8.13 — Stabilizer codes
IQIS Lecture 8.3 — Three-qubit repetition code for bit-flip errors
IQIS Lecture 8.4 — Three-qubit repetition code for phase-flip errors
IQIS Lecture 7.11 — Choi matrix
Quantum Error Correction Core Concepts: Overview of Logical Qubits
Uncomputing the computable in quantum computation
L28-2 Photonic Qubits
QEC11 Day1 1 Brun
Grzegorz Rajchel Mieldzioć: Fidelity of a quantum operation
Intro to Quantum Computation: L12 - Stabilizers and the Gottesman-Knill Theorem (UPB Spring 2021)
Spring School on Quantum Error Correction Day 2, Introduction to QEC: Kenneth Brown (Duke)
Calderbank-Shor-Steane codes
Quantum Error Correction
L29-1 Quantum Error Correction and Shor's 9 qubit Code
QuTech360 w/ Mohamed Abobeih: Fault-tolerant operation of logical qubit in diamond quantum processor
Jonathan Conrad: Good Gottesman-Kitaev-Preskill codes from the NTRU cryptosystem
