Capacity of entanglement in local operators

Nandy, Pratik

doi:10.1007/jhep07(2021)019

Cited by 23 publications

(41 citation statements)

References 79 publications

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“…Instead, it reaches a maximal value where the entropies are not minimal. This reflects the fact that capacity is a good probe for quantifying partial entanglement structure [37] which was previously suggested in the context of replica wormholes [41][42][43][44].…”

Section: Complex Syk2 Modelsupporting

confidence: 56%

“…We follow the approach outlined in [20,30]. First, we write the capacity for a single many-body eigenstate |m of the form [41]…”

Section: Complex Syk2 Modelmentioning

confidence: 99%

“…We consider a different entanglement measure, the capacity of entanglement (CoE) [36][37][38], first considered in the Kitaev model to describe topologically ordered states [39] and to understand the thermodynamic properties of the entanglement spectrum [40]. Very recently, it has received considerable attention, for example, in local operator excitations [41], random pure states [42], and in the context of holography and black hole information problem, where it is shown to capture partially entangled states in replica wormhole geometry [43,44]. While the EE is the expectation value of the modular Hamiltonian K A = − log ρ A , the CoE is defined as the variance of K A , namely [37,41]…”

Section: Introductionmentioning

confidence: 99%

“…Very recently, it has received considerable attention, for example, in local operator excitations [41], random pure states [42], and in the context of holography and black hole information problem, where it is shown to capture partially entangled states in replica wormhole geometry [43,44]. While the EE is the expectation value of the modular Hamiltonian K A = − log ρ A , the CoE is defined as the variance of K A , namely [37,41]…”

Section: Introductionmentioning

confidence: 99%

“…The second equality comes from the replica method and is useful for holographic computations [36]. It has been shown that in the case of operator excitations, the departure from the maximally entangled state can be captured by its CoE, which can be interpreted as entanglement between quasi-particles [41].…”

Section: Introductionmentioning

confidence: 99%

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Eigenstate capacity and Page curve in fermionic Gaussian states

Bhattacharjee,

Nandy,

Pathak

2021

Preprint

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Capacity of entanglement (CoE), an information-theoretic measure of entanglement, defined as the variance of modular Hamiltonian, is known to capture the deviation from the maximal entanglement. We derive an exact expression for the average eigenstate CoE in fermionic Gaussian states as a finite series, valid for arbitrary bi-partition of the total system. Further, we consider the complex SYK2 model, and we show that the average CoE in the thermodynamic limit upper bounds the average CoE for fermionic Gaussian states. In this limit, the variance of the average CoE becomes independent of the system size. Moreover, when the subsystem size is half of the total system, the leading volume-law coefficient approaches a value of π 2 /8 − 1. We identify this as a distinguishing feature between integrable and quantum-chaotic systems. We confirm our analytical results by numerical computations.

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Section: Complex Syk2 Modelsupporting

confidence: 56%

“…We follow the approach outlined in [20,30]. First, we write the capacity for a single many-body eigenstate |m of the form [41]…”

Section: Complex Syk2 Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Eigenstate capacity and Page curve in fermionic Gaussian states

Bhattacharjee,

Nandy,

Pathak

2021

Preprint

Self Cite

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Probing RG flows, symmetry resolution and quench dynamics through the capacity of entanglement

Arias

Giulio

Keski-Vakkuri

et al. 2023

J. High Energ. Phys.

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We compare the capacity of entanglement with the entanglement entropy by considering various aspects of these quantities for free bosonic and fermionic models in one spatial dimension, both in the continuum and on the lattice. Substantial differences are observed in the subleading terms of these entanglement quantifiers when the subsystem is made by two disjoint intervals, in the massive scalar field and in the fermionic chain. We define c-functions based on the capacity of entanglement similar to the one based on the entanglement entropy, showing through a numerical analysis that they display a monotonic behaviour under the renormalisation group flow generated by the mass. The capacity of entanglement and its related quantities are employed to explore the symmetry resolution. The temporal evolutions of the capacity of entanglement and of the corresponding contour function after a global quench are also discussed.

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Capacity of entanglement and volume law

Mohammadi Mozaffar

2024

J. High Energ. Phys.

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We investigate various aspects of capacity of entanglement in certain setups whose entanglement entropy becomes extensive and obeys a volume law. In particular, considering geometric decomposition of the Hilbert space, we study this measure both in the vacuum state of a family of non-local scalar theories and also in the squeezed states of a local scalar theory. We also evaluate field space capacity of entanglement between interacting scalar field theories. We present both analytical and numerical evidences for the volume law scaling of this quantity in different setups and discuss how these results are consistent with the behavior of other entanglement measures including Renyi entropies. Our study reveals some generic properties of the capacity of entanglement and the corresponding reduced density matrix in the specific regimes of the parameter space. Finally, by comparing entanglement entropy and capacity of entanglement, we discuss some implications of our results on the existence of consistent holographic duals for the models in question.

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Capacity of entanglement in local operators

Cited by 23 publications

References 79 publications

Eigenstate capacity and Page curve in fermionic Gaussian states

Eigenstate capacity and Page curve in fermionic Gaussian states

Probing RG flows, symmetry resolution and quench dynamics through the capacity of entanglement

Capacity of entanglement and volume law

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