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Trapped Ion Quantum Computing
Disentangling magic states with classically simulable quantum circuits
arXiv
Authors: Gerald E. Fux, Benjamin Béri, Rosario Fazio, Emanuele Tirrito
Year
2024
Paper ID
38210
Status
Preprint
Abstract Read
~2 min
Abstract Words
129
Citations
N/A
Abstract
We show that states obtained from deep random Clifford circuits doped with non-Clifford phase gates including T-gates and $sqrt{T}$-gates can be disentangled completely, provided the number of non-Clifford gates is smaller or approximately equal to the number of qubits. This implies that Pauli expectation values of such states can be efficiently simulated classically, despite them exhibiting both extensive entanglement and extensive nonstabilizerness. We prove this result analytically using a quantum error correction formulation, demonstrate its applicability numerically, and discuss consequences for the disentanglability of states generated through Hamiltonian dynamics. We show that this result implies a novel representation of approximate state designs that can also facilitate their efficient generation, and we propose a novel quantum circuit compression scheme for Clifford circuits doped with non-Clifford phase gates.
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- This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
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- We show that states obtained from deep random Clifford circuits doped with non-Clifford phase gates including T-gates and sqrtT-gates can be disentangled completely, provided...
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