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Bounding the resources for thermalizing
many-body localized systemsCarlo Sparaciari* Marcel Goihl** Paul Boes** Jens Eisert** Nelly Ng**
Bounding the resources for thermalizing many-body localized systems
* Department of Computing, Imperial College London
** Dahlem Center for Complex Quantum Systems, Freie Universität Berlin
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Motivation
Thermalization is hindered in systems exhibiting many-body localization (MBL)
• How robust is the MBL phase? Can we get quantitative bounds?
Internal dynamics External interactions
Bounding the resources for thermalizing many-body localized systems
Low disorder region
Thermal environment
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Main results: an overview
• Quantifying the robustness of MBL phase
– Finding upper and lower bounds to size of external thermal reservoir
• Connecting quantum information tools to physical processes
– Applying the convex split lemma to a stochastic collision model
• Deriving numerical results for 1D spin lattice
Bounding the resources for thermalizing many-body localized systems
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Index
• Many-body localization and thermalization
• The convex split lemma and stochastic collision models
• Numerical results for the disordered Heisenberg chain
• Conclusions and outlooks
Bounding the resources for thermalizing many-body localized systems
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Index
• Many-body localization and thermalization
• The convex split lemma and stochastic collision models
• Numerical results for the disordered Heisenberg chain
• Conclusions and outlooks
Bounding the resources for thermalizing many-body localized systems
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Many-body localization[1]
• Finite-temperature phase of matter exhibiting
– Absence of thermalization
– Quasi-local constant of motion
– Entanglement area law
– …
• Example, 1D spin chain of L sites with
Bounding the resources for thermalizing many-body localized systems
[1] Dmitry A. Abanin, Ehud Altman, Immanuel Bloch, and Maksym Serbyn, Rev. Mod. Phys. 91, 021001 (2019)
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Thermalization setting
Consider a finite sized region of a spin lattice exhibiting MBL
How big is the thermal bath we use to -thermalize the region ?
Bounding the resources for thermalizing many-body localized systems
Allowed operations
Unitaries or mixture of unitaries
s.t.
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Index
• Many-body localization and thermalization
• The convex split lemma and stochastic collision models
• Numerical results for the disordered Heisenberg chain
• Conclusions and outlooks
Bounding the resources for thermalizing many-body localized systems
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Convex split lemma[2-3]
Consider a Hilbert space , the quantum states , and the state
For any , if then,
Bounding the resources for thermalizing many-body localized systems
• Quantum max-divergence :
• Smoothed quantum max-divergence :
• -ball :
[2] Anurag Anshu, Min-Hsiu Hsieh, Rahul Jain, Phys. Rev. Lett. 121, 190504 (2018)
[3] Anurag Anshu, Vamsi Krishna Devabathini, Rahul Jain, Phys. Rev. Lett. 119, 120506 (2017)
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Convex split lemma and stochastic collision models
Consider the state
• can be obtained from with the Poisson process
• The resulting channel is
Bounding the resources for thermalizing many-body localized systems
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Thermalization with stochastic collision models
• Coming back to the region of the MBL spin lattice
If the size of the bath is
then the map will -thermalizes the system,
Bounding the resources for thermalizing many-body localized systems
…
NOTE: Swaps are allowed as they preserve the energy
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Converse bound on thermalization
General stochastic collision model
• probability distribution
• energy-preserving unitary
Bounding the resources for thermalizing many-body localized systems
Consider the Hilbert space , the Hamiltonian , and the states .
If a map can -thermalize the system
then the size of the bath .
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Index
• Many-body localization and thermalization
• The convex split lemma and stochastic collision models
• Numerical results for the disordered Heisenberg chain
• Conclusions and outlooks
Bounding the resources for thermalizing many-body localized systems
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Numerical results
Bounding the resources for thermalizing many-body localized systems
Lattice with Hamiltonian
Given sub-region , we compare
• Infinite time-average
• Gibbs state
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Numerical results
• scales linearly in
• The linear coefficient highlights the
phase transition
• The critical value of the disorder is
in line with known results[4-5]
Bounding the resources for thermalizing many-body localized systems
[4] David J. Luitz, Nicolas Laflorencie, Fabien Alet, Phys. Rev. B 91, 081103 (2015)
[5] Johnnie Gray, Sougato Bose, Abolfazl Bayat, Phys. Rev. B 97, 201105 (2018)
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Index
• Many-body localization and thermalization
• The convex split lemma and stochastic collision models
• Numerical results for the disordered Heisenberg chain
• Conclusions and outlooks
Bounding the resources for thermalizing many-body localized systems
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Conclusions
• Connection between convex split lemma and thermalization
• Quantitative bounds to the robustness of the MBL phase
– For the models of interaction considered, the size of the bath is
• Linear scaling of for the disordered Heisenberg chain of sites
– Hinting at robustness of the MBL phase
Bounding the resources for thermalizing many-body localized systems
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Outlooks
• Adapting other quantum information tools to obtain better bounds
– Results in randomness extraction, bounds on the seed
• Exploit the analytical feature of the states describing an MBL system
– Entropic properties of matrix product states (MPS)
• Extending the class of models for which the lower bound applies
Bounding the resources for thermalizing many-body localized systems