Quantum Information Science I, Part 1

A brief introduction to computational complexity

A set of commuting measurements for Mermin's magic square game

A tensor product state in the Hadamard basis

Bell's argument as a classical game between Alice and Bob

Brief introduction to quantum measurements

Cloning implies faster-than-light communication

Combining measurement and tensor products

Common single qubit gates

Composition of rotations and Bloch's theorem

Computation must be robust against noise

Continuous rotations of the Bloch sphere

Einstein, Podolsky, and Rosen's issues with quantum entanglement

Expectation value of two-qubit total spin operator

Gates for quantum circuits

Global phases and quantum states

History of quantum mechanics and quantum computation

Inner product of two-qubit states

Lemma: commuting matrices and simultaneous diagonalizability

Mathematical pre-requisites for QM

Mathematical representation of quantum states

Measurement expressed using partial inner products

Measurement operators as Hermitian matrices

Mermin's magic square game – classical limit

Mermin's magic square game – quantum protocol and analysis

Mermin's magic square game – quantum setup