Dissipative preparation of thermal states for kagome antiferromagnets demonstrated on IBM hardware up to 79 spins, with simulations showing scalable circuit depths.
Variational gibbs state preparation on trapped-ion devices
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
quant-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Fault-tolerant Iceberg code on trapped-ion hardware achieves beyond-break-even error detection for Toffoli and Bell circuits by filtering errors, yielding higher fidelity than unencoded versions.
Classical emulation of the HHL algorithm via extended UNIQuE scales exponentially only with qubit count and shows runtime advantage over state-vector simulation for small linear systems.
citing papers explorer
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Preparing thermal states of frustrated quantum spin systems using 139 qubits
Dissipative preparation of thermal states for kagome antiferromagnets demonstrated on IBM hardware up to 79 spins, with simulations showing scalable circuit depths.
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Fault-Tolerant Error Detection Above Break-Even for Multi-Qubit Gates
Fault-tolerant Iceberg code on trapped-ion hardware achieves beyond-break-even error detection for Toffoli and Bell circuits by filtering errors, yielding higher fidelity than unencoded versions.
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Extending UNIQuE: Quantum Simulation Speedup for the HHL Algorithm
Classical emulation of the HHL algorithm via extended UNIQuE scales exponentially only with qubit count and shows runtime advantage over state-vector simulation for small linear systems.