Neural quantum states with a tailored 3D convolutional architecture simulate quench dynamics up to 1000 qubits and verify the 3D quantum Kibble-Zurek mechanism with RG-derived logarithmic corrections and data collapse.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2026 2representative citing papers
An optimized adiabatic-impulse protocol reduces total time for crossing quantum critical points while preserving Kibble-Zurek scaling and attenuating noise-induced anti-Kibble-Zurek defects in the transverse Ising chain.
citing papers explorer
-
Real-time Dynamics in 3D for up to 1000 Qubits with Neural Quantum States: Quenches and the Quantum Kibble--Zurek Mechanism
Neural quantum states with a tailored 3D convolutional architecture simulate quench dynamics up to 1000 qubits and verify the 3D quantum Kibble-Zurek mechanism with RG-derived logarithmic corrections and data collapse.
-
Optimized adiabatic-impulse protocol preserving Kibble-Zurek scaling with attenuated anti-Kibble-Zurek behavior
An optimized adiabatic-impulse protocol reduces total time for crossing quantum critical points while preserving Kibble-Zurek scaling and attenuating noise-induced anti-Kibble-Zurek defects in the transverse Ising chain.