Generating k EPR-pairs from an n-party resource state

Sergey Bravyi; Yash Sharma; Mario Szegedy; Ronald de Wolf

doi:10.22331/q-2024-05-14-1348

Generating k EPR-pairs from an n-party resource state

Sergey Bravyi, Yash Sharma, Mario Szegedy, Ronald de Wolf

School of Arts and Sciences, Computer Science

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

2 Scopus citations

Abstract

Motivated by quantum network applications over classical channels, we initiate the study of n-party resource states from which LOCC protocols can create EPRpairs between any k disjoint pairs of parties. We give constructions of such states where k is not too far from the optimal n/2 while the individual parties need to hold only a constant number of qubits. In the special case when each party holds only one qubit, we describe a family of n-qubit states with k proportional to log n based on Reed-Muller codes, as well as small numerically found examples for k = 2 and k = 3. We also prove some lower bounds, for example showing that if k = n/2 then the parties must have at least Ω(log log n) qubits each.

Original language	English (US)
Journal	Quantum
Volume	8
DOIs	https://doi.org/10.22331/q-2024-05-14-1348
State	Published - 2024

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics
Physics and Astronomy (miscellaneous)

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abstract = "Motivated by quantum network applications over classical channels, we initiate the study of n-party resource states from which LOCC protocols can create EPRpairs between any k disjoint pairs of parties. We give constructions of such states where k is not too far from the optimal n/2 while the individual parties need to hold only a constant number of qubits. In the special case when each party holds only one qubit, we describe a family of n-qubit states with k proportional to log n based on Reed-Muller codes, as well as small numerically found examples for k = 2 and k = 3. We also prove some lower bounds, for example showing that if k = n/2 then the parties must have at least Ω(log log n) qubits each.",

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AU - Bravyi, Sergey

AU - Sharma, Yash

AU - Szegedy, Mario

AU - de Wolf, Ronald

PY - 2024

Y1 - 2024

N2 - Motivated by quantum network applications over classical channels, we initiate the study of n-party resource states from which LOCC protocols can create EPRpairs between any k disjoint pairs of parties. We give constructions of such states where k is not too far from the optimal n/2 while the individual parties need to hold only a constant number of qubits. In the special case when each party holds only one qubit, we describe a family of n-qubit states with k proportional to log n based on Reed-Muller codes, as well as small numerically found examples for k = 2 and k = 3. We also prove some lower bounds, for example showing that if k = n/2 then the parties must have at least Ω(log log n) qubits each.

AB - Motivated by quantum network applications over classical channels, we initiate the study of n-party resource states from which LOCC protocols can create EPRpairs between any k disjoint pairs of parties. We give constructions of such states where k is not too far from the optimal n/2 while the individual parties need to hold only a constant number of qubits. In the special case when each party holds only one qubit, we describe a family of n-qubit states with k proportional to log n based on Reed-Muller codes, as well as small numerically found examples for k = 2 and k = 3. We also prove some lower bounds, for example showing that if k = n/2 then the parties must have at least Ω(log log n) qubits each.

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Generating k EPR-pairs from an n-party resource state

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