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Autori principali: Magoulas, Ilias, Evangelista, Francesco A.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.13485
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author Magoulas, Ilias
Evangelista, Francesco A.
author_facet Magoulas, Ilias
Evangelista, Francesco A.
contents Conservation of symmetries plays a crucial role in both classical and quantum simulations of many-body systems, enabling the tracking of states with specific symmetry properties and leading to substantial reductions in the number of optimization parameters. The design of efficient quantum circuits that enforce all symmetries typically encountered in chemistry has remained elusive, mainly due to the interplay of point group and spin symmetries. By exploiting Lie algebraic techniques, we derive exact product formulas representing symmetry-adapted unitaries. These decompositions allow us to design the most efficient symmetry-preserving quantum circuits to date. Finally, we introduce a minimum universal symmetry-adapted operator pool to further reduce the required quantum resources.
format Preprint
id arxiv_https___arxiv_org_abs_2511_13485
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spin-Adapted Fermionic Unitaries: From Lie Algebras to Compact Quantum Circuits
Magoulas, Ilias
Evangelista, Francesco A.
Quantum Physics
Chemical Physics
Conservation of symmetries plays a crucial role in both classical and quantum simulations of many-body systems, enabling the tracking of states with specific symmetry properties and leading to substantial reductions in the number of optimization parameters. The design of efficient quantum circuits that enforce all symmetries typically encountered in chemistry has remained elusive, mainly due to the interplay of point group and spin symmetries. By exploiting Lie algebraic techniques, we derive exact product formulas representing symmetry-adapted unitaries. These decompositions allow us to design the most efficient symmetry-preserving quantum circuits to date. Finally, we introduce a minimum universal symmetry-adapted operator pool to further reduce the required quantum resources.
title Spin-Adapted Fermionic Unitaries: From Lie Algebras to Compact Quantum Circuits
topic Quantum Physics
Chemical Physics
url https://arxiv.org/abs/2511.13485