| S# |
Lecture |
Course |
Institute |
Instructor |
Discipline |
| 151 |
Quantum fingerprinting protocol
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 152 |
The Shor-Preskill proof of security of QKD: Step 1 – random CSS codes
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 153 |
Quantum state equality testing: the swap test
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 154 |
The Shor-Preskill proof of security of QKD: Step 2 – no quantum computer needed
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 155 |
Quantum version of the classical repetition code – three qubit bit flip code
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 156 |
The three-qubit phase flip error correction code
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 157 |
Remote Deutsch-Jozsa oracle construction
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 158 |
Three conceptual challenges faced by quantum error correction
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 159 |
Review: classical and quantum coding
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 160 |
What is a noisy quantum state? Introduction to density matrices
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|
| 161 |
Simulating a single quantum computer with two distributed halves
|
Quantum Information Science I, Part 3
|
MIT
|
Prof. Isaac Chuang, Prof. Peter Shor
|
Basic and Health Sciences
|