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Showing 1–6 of 6 results

Advanced filters: Author: Sean Hartnoll Clear advanced filters

Quantum connections

Theoretical high-energy and condensed-matter physics share various ideas and tools. New connections between the two have been established through quantum information, providing exciting prospects for theoretical advances and even potential experimental studies. Six scientists discuss different directions of research in this inter-disciplinary field.

Sean Hartnoll
Subir Sachdev
Julian Sonner
Reviews17 May 2021
Nature Reviews Physics

Volume: 3, P: 391-393
On the Planckian bound for heat diffusion in insulators

At high temperature, the heat diffusion in an insulator is expected to be dominated by entirely classical phonon dynamics. But theoretical study shows that the transport lifetime is subject to a quantum-mechanical bound related to the sound velocity.

Connie H. Mousatov
Sean A. Hartnoll
Research16 Mar 2020
Nature Physics

Volume: 16, P: 579-584
Interaction-driven localization in holography

Strongly interacting condensed-matter systems are often computationally intractable. By introducing a periodic lattice to a holographic model developed by string theorists, it becomes possible to study anisotropic materials that are insulating in certain directions but conducting in others.

Aristomenis Donos
Sean A. Hartnoll
Research11 Aug 2013
Nature Physics

Volume: 9, P: 649-655
Theory of universal incoherent metallic transport

Linear resistivity across many strongly correlated materials at high temperatures has no satisfactory explanation. A universal framework of incoherent metallic transport in which quantities are bounded could be the way forward.

Sean A. Hartnoll
Research23 Dec 2014
Nature Physics

Volume: 11, P: 54-61
Unconventional magneto-transport in ultrapure PdCoO₂ and PtCoO₂

Nabhanila Nandi
Thomas Scaffidi
Andrew P. Mackenzie
ResearchOpen Access18 Dec 2018
npj Quantum Materials

Volume: 3, P: 1-6
Phonons, electrons and thermal transport in Planckian high T_c materials

Connie H. Mousatov
Sean A. Hartnoll
ResearchOpen Access28 Sept 2021
npj Quantum Materials

Volume: 6, P: 1-6