Stabilizer Perturbation Theory: A Systematic Construction via Schrieffer-Wolff Transformation
- URL: http://arxiv.org/abs/2509.12621v1
- Date: Tue, 16 Sep 2025 03:32:26 GMT
- Title: Stabilizer Perturbation Theory: A Systematic Construction via Schrieffer-Wolff Transformation
- Authors: Xuzhe Ying, Kangle Li, Hoi Chun Po,
- Abstract summary: Systems of interacting qubits have gained increasing prominence as another class of models for quantum systems.<n>We develop a systematic stabilizer perturbation theory in qubit systems.<n>Our approach relies on the local Schrieffer-Wolff transformation, which we show can be efficiently performed through the binary encoding the Pauli algebra.
- Score: 0.4588028371034407
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Perturbation theories provide valuable insights on quantum many-body systems. Systems of interacting particles, like electrons, are often treated perturbatively around exactly solvable Gaussian points. Systems of interacting qubits have gained increasing prominence as another class of models for quantum systems thanks to the recent advances in experimentally realizing mesoscopic quantum devices. Stabilizer states, innately defined on systems of qudits, have correspondingly emerged as another class of classically simulatable starting point for the study of quantum error-correcting codes and topological phases of matter in such devices. As a step towards analyzing more general quantum many-body problems on these platforms, we develop a systematic stabilizer perturbation theory in qubit systems. Our approach relies on the local Schrieffer-Wolff transformation, which we show can be efficiently performed through the binary encoding the Pauli algebra. As demonstrations, we first benchmark the stabilizer perturbation theory on the transverse field Ising chain in one dimension. The method is then further applied to $\mathbb{Z}_2$ toric code on square lattice and kagome lattice to probe the tendency toward confinement for anyonic excitations.
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