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Quantum entanglement is a quantum phenomenon where two or more qubits are sharing information about their states, in such a way that qubits can't be described as individual subsystems. Quantum entanglement is a fundamental concept in quantum computing and it can be also a powerful tool.
In this module, you transfer the state of a qubit from one location to another without physically moving the qubit itself. This process, known as quantum teleportation, relies heavily on the principles of quantum entanglement. You'll use Q# and the Azure Quantum Development Kit to create and manipulate entangled qubits. To perform the teleportation, you use operations like Controlled-NOT (CNOT), Hadamard (H), and Pauli X and Z to create Bell states.
By the end of this module, you'll be able to:
To get the most out of this module, it's recommended to have the Explore quantum superposition with Q# module completed. This module introduces the basic concepts of Dirac notation, qubit states, and quantum gates.
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