A method using dressed creation operators from MLWFs enables selective preparation and detection of quasiparticles in lattice theories, tested via MPS on hardcore QCD ladders to separate known excitations from resonances.
Schollwöck, The density-matrix renormalization group, Rev
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Entanglement structure provides a natural distributed representation for quantum wavefunctions that reduces Hamiltonian applications to local contractions and enables near-linear scaling in simulations.
Quantum calculations on an ab initio-parametrized Heisenberg model for hematite give a closer match to the experimental low-temperature spin-flop field than classical approximations.
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Preparation and detection of quasiparticles for quantum simulations of scattering
A method using dressed creation operators from MLWFs enables selective preparation and detection of quasiparticles in lattice theories, tested via MPS on hardcore QCD ladders to separate known excitations from resonances.
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Entanglement-informed distributed wavefunction approach to scalable quantum many-body systems
Entanglement structure provides a natural distributed representation for quantum wavefunctions that reduces Hamiltonian applications to local contractions and enables near-linear scaling in simulations.
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Quantum fluctuations determine the spin-flop transition in hematite
Quantum calculations on an ab initio-parametrized Heisenberg model for hematite give a closer match to the experimental low-temperature spin-flop field than classical approximations.