Lie group diffusion models combine a discrete circuit skeleton selector with continuous diffusion on SU(2) ≃ S³ to synthesize hardware-aware quantum circuits, outperforming baselines on three-qubit Hamiltonian simulation targets.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 3years
2026 3representative citing papers
Proposes ion-tweezer architecture with state-selective dipole-mediated gates enabling temperature-robust entanglement without motional residual.
Builds and releases a verified pipeline for symmetry-respecting excited states of H2O/STO-3G on quantum computers, showing qEOM reaches sub-milli-Hartree accuracy with 3e9 shots after grouping.
citing papers explorer
-
Lie Group Diffusion Models for Hardware-Aware Quantum Circuit Synthesis
Lie group diffusion models combine a discrete circuit skeleton selector with continuous diffusion on SU(2) ≃ S³ to synthesize hardware-aware quantum circuits, outperforming baselines on three-qubit Hamiltonian simulation targets.
-
Quantum computer architecture with ions in tweezer arrays
Proposes ion-tweezer architecture with state-selective dipole-mediated gates enabling temperature-robust entanglement without motional residual.
-
A Reproducible Pipeline for Symmetry-Respecting Excited States on Near-Term Quantum Computers: The H2O/STO-3G Case
Builds and releases a verified pipeline for symmetry-respecting excited states of H2O/STO-3G on quantum computers, showing qEOM reaches sub-milli-Hartree accuracy with 3e9 shots after grouping.