This folder hosts notebooks on the basics of Quantum Information Science.
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Quantum Superposition: introduces how a quantum bit can be both "0" and "1", and how it behaves differently from a probabilistic bit.
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Quantum Amplitude and Phase: shows how to control quantum superposition of a qubit by changing amplitude and phase with quantum gates.
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Quantum Entanglement: introduces the concept of entangled qubits by showing quantum correlation between two qubits by applying CNOT gates.
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Testing Quantum Entanglement: performs experiments to test quantum correlation proving quantum entanglement is different from classical correlation.
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Teleportation and Superdense Coding: shows how quantum entanglement can be used to teleport (sending quantum information without moving) a qubit, and encode two-bit of information in a qubit.
We welcome more elementary examples in this folder.