Condensed Matter Theory

Transport properties of multilayer graphene

Physical Review B American Physical Society 101 (2020) 245438

Authors:

Glenn Wagner, Dung Ngyuen, Steven Simon

Abstract:

We apply the semi-classical Boltzmann formalism for the computation of transport properties to multilayer graphene. We compute the electrical conductivity as well as the thermal conductivity and thermopower for Bernal-stacked multilayers with an even number of layers. We show that the window for hydrodynamic transport in multilayer graphene is similar to the case of bilayer graphene. We introduce a simple hydrodynamic model which we dub the multi-fluid model and which can be used to reproduce the results for the electrical conductivity and thermopower from the semi-classical Boltzmann equation.

Reconfigurable T‐junction DNA origami

Angewandte Chemie Wiley (2020) ange.202006281

Authors:

Katherine Young, Behnam Najafi, William Sant, Sonia Contera, Ard Louis, Jonathan Doye, Andrew Turberfield, Jonathan Bath

On the low-energy description for tunnel-coupled one-dimensional Bose gases

(2020)

Authors:

Yuri D van Nieuwkerk, Fabian HL Essler

Finite temperature and quench dynamics in the Transverse Field Ising Model from form factor expansions

(2020)

Authors:

Etienne Granet, Maurizio Fagotti, Fabian HL Essler

Cooperatively enhanced reactivity and “stabilitaxis” of dissociating oligomeric proteins

Proceedings of the National Academy of Sciences of the United States of America Proceedings of the National Academy of Sciences 117:22 (2020) 11894-11900

Authors:

Jaime Agudo-Canalejo, Pierre Illien, Ramin Golestanian