The second uses a parent-Hamiltonian embedding of random matrix-product states (MPSs) [33], enabling controlled tuning of scar state entanglement

to embed a product eigenstate at finite energy density into an otherwise chaotic spectrum

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quant-ph · 2026-02-24 · unverdicted · novelty 7.0

σ-VQE uses low-depth circuits and an energy-selective cost function to preferentially prepare quantum many-body scar states on NISQ devices.

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$\sigma$-VQE: Excited-state preparation of quantum many-body scars with shallow circuits quant-ph · 2026-02-24 · unverdicted · none · ref 1
σ-VQE uses low-depth circuits and an energy-selective cost function to preferentially prepare quantum many-body scar states on NISQ devices.