Active particle motion in Poiseuille flow through rectangular channels

Physical Review E American Physical Society (APS) 110:3 (2024) 034603

Authors:

Rahil N Valani, Brendan Harding, Yvonne M Stokes

Quantum-like behavior of an active particle in a double-well potential

Chaos Solitons & Fractals Elsevier 186 (2024) 115253

Authors:

Rahil N Valani, Álvaro G López

Electron-phonon coupling and competing Kekulé orders in twisted bilayer graphene

Physical Review B American Physical Society 110:8 (2024) 85160

Authors:

Yves H Kwan, Glenn Wagner, Nick Bultinck, Steven Simon, Erez Berg, Siddharth Ashok Parameswaran

Abstract:

Recent scanning tunneling microscopy experiments in twisted bilayer [K. P. Nuckolls et al., Nature (London) 620, 525 (2023)] and trilayer [H. Kim et al., Nature (London) 623, 942 (2023)] graphene have revealed the ubiquity of Kekulé charge-density wave order in magic-angle graphene. Most samples are moderately strained and show “incommensurate Kekulé spiral” (IKS) order involving a graphene-scale charge density distortion uniaxially modulated on the scale of the moiré superlattice, in accord with theoretical predictions. However, ultralow strain bilayer samples instead show graphene-scale Kekulé charge order that is uniform on the moiré scale. This order, especially prominent near filling factor 𝜈=−2, is unanticipated by theory which predicts a time-reversal breaking Kekulé current order at low strain. We show that including the coupling of moiré electrons to graphene-scale optical zone-corner (ZC) phonons stabilizes a uniform Kekulé charge ordered state at |𝜈|=2 with a quantized topological (spin or anomalous Hall) response. Our work clarifies how this phonon-driven selection of electronic order emerges in the strong-coupling regime of moiré graphene.

Universal mechanistic rules for de novo design of enzymes

(2024)

Authors:

Michalis Chatzittofi, Jaime Agudo-Canalejo, Ramin Golestanian

Charge pumps, boundary modes, and the necessity of unnecessary criticality

(2024)

Authors:

Abhishodh Prakash, SA Parameswaran