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##  105 results 

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### 2021

Ruben Verresen, Mikhail D. Lukin, and Ashvin Vishwanath. 2021. “[Prediction of Toric Code Topological Order from Rydberg Blockade](/publications/prediction-toric-code-topological-order-rydberg-blockade)”. Phys. Rev. X. doi:10.1103/PhysRevX.11.031005



 

 

Ruben Verresen, Mikhail D. Lukin, and Ashvin Vishwanath. 2021. “[Prediction of Toric Code Topological Order from Rydberg Blockade](/publications/prediction-toric-code-topological-order-rydberg-blockade)”. Phys. Rev. X. doi:10.1103/PhysRevX.11.031005



 

 

 

- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevX.11.031005)
 
- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevX.11.031005)
 
 

Dominic Else and T. Senthil. 2021. “[Critical Drag As a Mechanism for Resistivity](/publications/critical-drag-mechanism-resistivity)”



 

 

Dominic Else and T. Senthil. 2021. “[Critical Drag As a Mechanism for Resistivity](/publications/critical-drag-mechanism-resistivity)”



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
- [ descriptionPublisher's Version](https://arxiv.org/abs/2106.15623)
 
 Critical drag is thus a mechanism for resistivity that, unlike conventional mechanisms, is unrelated to broken symmetries. We furthermore argue that an emergent symmetry that has the appropriate mixed anomaly with electric charge is in fact an inevitable... 

 

 

- [ descriptionPublisher's Version](https://arxiv.org/abs/2106.15623)
 
 

 



### 2020

Dayou Yang, Andrey Grankin, Lukas M. Sieberer, Denis V. Vasilyev, and Peter Zoller. 2020. “[Quantum Non-Demolition Measurement of a Many-Body Hamiltonian](/publications/quantum-non-demolition-measurement-many-body-hamiltonian)”. Nature Communications, 11, Pp. 775. doi:10.1038/s41467-020-14489-5



 

 

Dayou Yang, Andrey Grankin, Lukas M. Sieberer, Denis V. Vasilyev, and Peter Zoller. 2020. “[Quantum Non-Demolition Measurement of a Many-Body Hamiltonian](/publications/quantum-non-demolition-measurement-many-body-hamiltonian)”. Nature Communications, 11, Pp. 775. doi:10.1038/s41467-020-14489-5



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 In an ideal quantum measurement, the wave function of a quantum system collapses to an eigenstate of the measured observable, and the corresponding eigenvalue determines the measurement outcome. If the observable commutes with the system Hamiltonian... 

 

 

 

Andrew C. Potter, J. T. Chalker, and Victor Gurarie. 2020. “[Quantum Hall Network Models As Floquet Topological Insulators](/publications/quantum-hall-network-models-floquet-topological-insulators)”. Phys. Rev. Lett., 125, Pp. 086601. doi:10.1103/PhysRevLett.125.086601



 

 

Andrew C. Potter, J. T. Chalker, and Victor Gurarie. 2020. “[Quantum Hall Network Models As Floquet Topological Insulators](/publications/quantum-hall-network-models-floquet-topological-insulators)”. Phys. Rev. Lett., 125, Pp. 086601. doi:10.1103/PhysRevLett.125.086601



 

 

 

- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.086601)
 
- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.086601)
 
 

Youssef Kora, Massimo Boninsegni, Dam Thanh Son, and Shiwei Zhang. 2020. “[Tuning the Quantumness of Simple Bose Systems: A Universal Phase Diagram](/publications/tuning-quantumness-simple-bose-systems-universal-phase-diagram)”. ArXiv:2008.03644



 

 

Youssef Kora, Massimo Boninsegni, Dam Thanh Son, and Shiwei Zhang. 2020. “[Tuning the Quantumness of Simple Bose Systems: A Universal Phase Diagram](/publications/tuning-quantumness-simple-bose-systems-universal-phase-diagram)”. ArXiv:2008.03644



 

 

 

 

Dung Xuan Nguyen and Dam Thanh Son. 2020. “[Electrodynamics of Thin Sheets of Twisted Material](/publications/electrodynamics-thin-sheets-twisted-material)”. ArXiv:2008.02812



 

 

Dung Xuan Nguyen and Dam Thanh Son. 2020. “[Electrodynamics of Thin Sheets of Twisted Material](/publications/electrodynamics-thin-sheets-twisted-material)”. ArXiv:2008.02812



 

 

 

 

Nick Bultinck, Eslam Khalaf, Shang Liu, Shubhayu Chatterjee, Ashvin Vishwanath, and Michael P. Zaletel. 2020. “[Ground State and Hidden Symmetry of Magic-Angle Graphene at Even Integer Filling](/publications/ground-state-and-hidden-symmetry-magic-angle-graphene-even-integer-filling)”. Phys. Rev. X, 10, Pp. 031034. doi:10.1103/PhysRevX.10.031034



 

 

Nick Bultinck, Eslam Khalaf, Shang Liu, Shubhayu Chatterjee, Ashvin Vishwanath, and Michael P. Zaletel. 2020. “[Ground State and Hidden Symmetry of Magic-Angle Graphene at Even Integer Filling](/publications/ground-state-and-hidden-symmetry-magic-angle-graphene-even-integer-filling)”. Phys. Rev. X, 10, Pp. 031034. doi:10.1103/PhysRevX.10.031034



 

 

 

- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevX.10.031034)
 
- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevX.10.031034)
 
 

Andreas Elben, Richard Kueng, Hsin-Yuan Huang, Rick Van Bijnen, Christian Kokail, Marcello Dalmonte, Pasquale Calabrese, Barbara Kraus, John Preskill, Peter Zoller, and Benoît Vermersch. 2020. “[Mixed-State Entanglement from Local Randomized Measurements](/publications/mixed-state-entanglement-local-randomized-measurements)”. ArXiv:2007.06305



 

 

Andreas Elben, Richard Kueng, Hsin-Yuan Huang, Rick Van Bijnen, Christian Kokail, Marcello Dalmonte, Pasquale Calabrese, Barbara Kraus, John Preskill, Peter Zoller, and Benoît Vermersch. 2020. “[Mixed-State Entanglement from Local Randomized Measurements](/publications/mixed-state-entanglement-local-randomized-measurements)”. ArXiv:2007.06305



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
- [ descriptionPublisher's Version](http://arxiv.org/abs/2007.06305)
 
 We propose a method for detecting bipartite entanglement in a many-body mixed state based on estimating moments of the partially transposed density matrix. The estimates are obtained by performing local random measurements on the state, followed by post... 

 

 

- [ descriptionPublisher's Version](http://arxiv.org/abs/2007.06305)
 
 

Pranay Gorantla, Ho Tat Lam, Nathan Seiberg, and Shu-Heng Shao. 2020. “[More Exotic Field Theories in 3+1 Dimensions](/publications/more-exotic-field-theories-31-dimensions)”. ArXiv:2007.04904



 

 

Pranay Gorantla, Ho Tat Lam, Nathan Seiberg, and Shu-Heng Shao. 2020. “[More Exotic Field Theories in 3+1 Dimensions](/publications/more-exotic-field-theories-31-dimensions)”. ArXiv:2007.04904



 

 

 

 

Colin Rylands, Yudan Guo, Benjamin L. Lev, Jonathan Keeling, and Victor Galitski. 2020. “[Photon-Mediated Peierls Transition of a 1D Gas in a Multimode Optical Cavity](/publications/photon-mediated-peierls-transition-1d-gas-multimode-optical-cavity)”. Phys. Rev. Lett., 125, Pp. 010404. doi:10.1103/PhysRevLett.125.010404



 

 

Colin Rylands, Yudan Guo, Benjamin L. Lev, Jonathan Keeling, and Victor Galitski. 2020. “[Photon-Mediated Peierls Transition of a 1D Gas in a Multimode Optical Cavity](/publications/photon-mediated-peierls-transition-1d-gas-multimode-optical-cavity)”. Phys. Rev. Lett., 125, Pp. 010404. doi:10.1103/PhysRevLett.125.010404



 

 

 

- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.010404)
 
- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.010404)
 
 

Efim B. Rozenbaum, Leonid A. Bunimovich, and Victor Galitski. 2020. “[Early-Time Exponential Instabilities in Nonchaotic Quantum Systems](/publications/early-time-exponential-instabilities-nonchaotic-quantum-systems)”. Phys. Rev. Lett., 125, Pp. 014101. doi:10.1103/PhysRevLett.125.014101



 

 

Efim B. Rozenbaum, Leonid A. Bunimovich, and Victor Galitski. 2020. “[Early-Time Exponential Instabilities in Nonchaotic Quantum Systems](/publications/early-time-exponential-instabilities-nonchaotic-quantum-systems)”. Phys. Rev. Lett., 125, Pp. 014101. doi:10.1103/PhysRevLett.125.014101



 

 

 

- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.014101)
 
- [ descriptionPublisher's Version](https://link.aps.org/doi/10.1103/PhysRevLett.125.014101)
 
 

Dam Thanh Son, Mikhail Stephanov, and Ho-Ung Yee. 2020. “[The Phase Diagram of Ultra Quantum Liquids](/publications/phase-diagram-ultra-quantum-liquids)”. ArXiv:2006.01156



 

 

Dam Thanh Son, Mikhail Stephanov, and Ho-Ung Yee. 2020. “[The Phase Diagram of Ultra Quantum Liquids](/publications/phase-diagram-ultra-quantum-liquids)”. ArXiv:2006.01156



 

 

 

 

 



 

 

 

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