Quantum Communication, Quantum Entanglement and All That Jazz Mark M. Wilde Communication Sciences Institute, Ming Hsieh Department of Electrical Engineering,

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Presentation transcript:

Quantum Communication, Quantum Entanglement and All That Jazz Mark M. Wilde Communication Sciences Institute, Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, California Communication Sciences Institute, Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, California 90089

What is a qubit? A qubit is a quantum system with two degrees of freedom. Examples Electron Spin Photon Polarization

What are qubits good for? Simulation of quantum processes such as chemical reactions and molecular dynamics perhaps has the most potential. Shor’s algorithm (1994) breaks the public key cryptography algorithm in polynomial time. Grover’s algorithm (1997) gives a quadratic speedup for database search.

What else are qubits good for? Quantum Key Distribution Zeilinger in Innsbruck Furusawa in Tokyo Quantum Teleportation

More on Teleportation

Tell me more about a qubit Measurement projects the qubit A 2D complex vector represents the state of a qubit: to statew/ prob.to statew/ prob. Represent two qubits joined together with the tensor product:

What can I do to a qubit? Pauli matrices act on a single qubit: The Pauli group acts on multiple qubits: E.g.,

What can I do to two qubits? A Controlled-NOT gate acts on two qubits: Action of CNOT on computational basis: CNOT in an ion trap

What is Quantum Entanglement? Quantum entanglement is the resource that fuels a quantum computer or a quantum communication network.

What is Entanglement useful for? Teleportation Superdense Coding Quantum Key Distribution Quantum Computing Quantum Secret Sharing Quantum Games Quantum Lithography Quantum Sensors “Entanglement” by Ruth Bloch (2000)

Quantum Information and Noise Alice Environment Eve correlates with Alice ’s qubits and destroys the fragile nature of a quantum state Eve

Can We Correct Quantum Errors? Classical Error Correction copies classical information to protect it BUT No-Cloning Theorem prohibits general copying of quantum information. What to do? Classical codes learn about errors by measuring bits BUT Measuring a quantum state destroys its quantum information. What to do? Classical codes do not accumulate small errors over time because classical errors are discrete BUT Quantum errors are continuous and small errors may build up over time. What to do?

Shor’s Solution Measurement projects the encoded qubits and effectively digitizes the errors. Use extra ancilla qubits for redundancy Perform particular measurements that learn only about errors Shor, PRA 52, pp. R2493-R2496 (1995).

Shor Code Perform measurements that learn only about errors Encode qubits with ancillas

Our Novel forms of Quantum Error Correction Entanglement-assisted quantum error correction (Brun, Devetak, Hsieh) Convolutional entanglement distillation (Wilde, Krovi, Brun) Decoherence-free subspaces and subsystems (Lidar) Entanglement-assisted quantum convolutional coding (Wilde, Brun)

Entanglement-Assisted Quantum Error Correction Brun et al., Science 314, (2006).

Classical Convolutional Coding Convolutional Coding techniques have application in cellulardeep space communicationan d Viterbi Algorithm is most popular technique for determining errors

Quantum Convolutional Coding Forney et al., IEEE Trans. Inf. Theory 53, (2007).

Entanglement-Assisted Quantum Convolutional Coding Wilde and Brun, In preparation (2007).

EAQCC Example

Block Entanglement Distillation

Convolutional Entanglement Distillation Wilde et al., arXiv: (2007).

Conclusion Quantum computing and quantum communication are the future of computing and communication Quantum error correction is the way to make quantum computing and communication practical There is still much to explore in these areas