Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States
We propose a tensor network approach known as the locally purified density operator (LPDO) to investigate the classification and characterization of symmetry-protected topological phases in open quantum systems. We extend the concept of injectivity, originally associated with matrix product states a...
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| Format: | Article |
| Language: | English |
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American Physical Society
2025-05-01
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| Series: | Physical Review X |
| Online Access: | http://doi.org/10.1103/PhysRevX.15.021060 |
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| author | Yuchen Guo Jian-Hao Zhang Hao-Ran Zhang Shuo Yang Zhen Bi |
| author_facet | Yuchen Guo Jian-Hao Zhang Hao-Ran Zhang Shuo Yang Zhen Bi |
| author_sort | Yuchen Guo |
| collection | DOAJ |
| description | We propose a tensor network approach known as the locally purified density operator (LPDO) to investigate the classification and characterization of symmetry-protected topological phases in open quantum systems. We extend the concept of injectivity, originally associated with matrix product states and projected entangled pair states, to LPDOs in (1+1)D and (2+1)D systems, unveiling two distinct types of injectivity conditions that are inherent for short-range entangled density matrices. Within the LPDO framework, we outline a classification scheme for decohered average symmetry-protected topological (ASPT) phases, consistent with earlier results obtained through spectrum sequence techniques. However, our approach offers an intuitive and explicit construction of ASPT states with the decorated domain-wall picture emerging naturally. We illustrate our framework with ASPT phases protected by a weak global symmetry and strong fermion parity symmetry and then extend it to a general group structure. Moreover, we derive both the classification data and the explicit forms of the obstruction functions using the LPDO formalism, particularly in the case of nontrivial group extension between strong and weak symmetries, where intrinsic ASPT phases may emerge. We demonstrate constructions of fixed-point LPDOs for ASPT phases in both (1+1)D and (2+1)D and discuss their physical realization in decohered or disordered systems. In particular, we construct examples of intrinsic ASPT states in (1+1)D and (2+1)D using the LPDO formalism. |
| format | Article |
| id | doaj-art-e2c5bf831cee43019c9fb31e1b58067b |
| institution | OA Journals |
| issn | 2160-3308 |
| language | English |
| publishDate | 2025-05-01 |
| publisher | American Physical Society |
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| series | Physical Review X |
| spelling | doaj-art-e2c5bf831cee43019c9fb31e1b58067b2025-08-20T02:26:32ZengAmerican Physical SocietyPhysical Review X2160-33082025-05-0115202106010.1103/PhysRevX.15.021060Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed StatesYuchen GuoJian-Hao ZhangHao-Ran ZhangShuo YangZhen BiWe propose a tensor network approach known as the locally purified density operator (LPDO) to investigate the classification and characterization of symmetry-protected topological phases in open quantum systems. We extend the concept of injectivity, originally associated with matrix product states and projected entangled pair states, to LPDOs in (1+1)D and (2+1)D systems, unveiling two distinct types of injectivity conditions that are inherent for short-range entangled density matrices. Within the LPDO framework, we outline a classification scheme for decohered average symmetry-protected topological (ASPT) phases, consistent with earlier results obtained through spectrum sequence techniques. However, our approach offers an intuitive and explicit construction of ASPT states with the decorated domain-wall picture emerging naturally. We illustrate our framework with ASPT phases protected by a weak global symmetry and strong fermion parity symmetry and then extend it to a general group structure. Moreover, we derive both the classification data and the explicit forms of the obstruction functions using the LPDO formalism, particularly in the case of nontrivial group extension between strong and weak symmetries, where intrinsic ASPT phases may emerge. We demonstrate constructions of fixed-point LPDOs for ASPT phases in both (1+1)D and (2+1)D and discuss their physical realization in decohered or disordered systems. In particular, we construct examples of intrinsic ASPT states in (1+1)D and (2+1)D using the LPDO formalism.http://doi.org/10.1103/PhysRevX.15.021060 |
| spellingShingle | Yuchen Guo Jian-Hao Zhang Hao-Ran Zhang Shuo Yang Zhen Bi Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States Physical Review X |
| title | Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States |
| title_full | Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States |
| title_fullStr | Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States |
| title_full_unstemmed | Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States |
| title_short | Locally Purified Density Operators for Symmetry-Protected Topological Phases in Mixed States |
| title_sort | locally purified density operators for symmetry protected topological phases in mixed states |
| url | http://doi.org/10.1103/PhysRevX.15.021060 |
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