Quantum data compression of a qubit ensemble

Lee A. Rozema; Dylan H. Mahler; Alex Hayat; Peter S. Turner; Aephraim M. Steinberg

doi:10.1103/PhysRevLett.113.160504

Quantum data compression of a qubit ensemble

Lee A. Rozema, Dylan H. Mahler, Alex Hayat, Peter S. Turner, Aephraim M. Steinberg

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Data compression is a ubiquitous aspect of modern information technology, and the advent of quantum information raises the question of what types of compression are feasible for quantum data, where it is especially relevant given the extreme difficulty involved in creating reliable quantum memories. We present a protocol in which an ensemble of quantum bits (qubits) can in principle be perfectly compressed into exponentially fewer qubits. We then experimentally implement our algorithm, compressing three photonic qubits into two. This protocol sheds light on the subtle differences between quantum and classical information. Furthermore, since data compression stores all of the available information about the quantum state in fewer physical qubits, it could allow for a vast reduction in the amount of quantum memory required to store a quantum ensemble, making even today's limited quantum memories far more powerful than previously recognized.

Original language	English
Article number	160504
Journal	Physical Review Letters
Volume	113
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.113.160504
State	Published - 17 Oct 2014

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.113.160504

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title = "Quantum data compression of a qubit ensemble",

abstract = "Data compression is a ubiquitous aspect of modern information technology, and the advent of quantum information raises the question of what types of compression are feasible for quantum data, where it is especially relevant given the extreme difficulty involved in creating reliable quantum memories. We present a protocol in which an ensemble of quantum bits (qubits) can in principle be perfectly compressed into exponentially fewer qubits. We then experimentally implement our algorithm, compressing three photonic qubits into two. This protocol sheds light on the subtle differences between quantum and classical information. Furthermore, since data compression stores all of the available information about the quantum state in fewer physical qubits, it could allow for a vast reduction in the amount of quantum memory required to store a quantum ensemble, making even today's limited quantum memories far more powerful than previously recognized.",

author = "Rozema, \{Lee A.\} and Mahler, \{Dylan H.\} and Alex Hayat and Turner, \{Peter S.\} and Steinberg, \{Aephraim M.\}",

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AB - Data compression is a ubiquitous aspect of modern information technology, and the advent of quantum information raises the question of what types of compression are feasible for quantum data, where it is especially relevant given the extreme difficulty involved in creating reliable quantum memories. We present a protocol in which an ensemble of quantum bits (qubits) can in principle be perfectly compressed into exponentially fewer qubits. We then experimentally implement our algorithm, compressing three photonic qubits into two. This protocol sheds light on the subtle differences between quantum and classical information. Furthermore, since data compression stores all of the available information about the quantum state in fewer physical qubits, it could allow for a vast reduction in the amount of quantum memory required to store a quantum ensemble, making even today's limited quantum memories far more powerful than previously recognized.

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Quantum data compression of a qubit ensemble

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