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Theory of Liquid Film Growth and Wetting Instabilities on Graphene

Helium in quasi-one-dimensional confinement presents an excellent platform to study the emergence of a Tomonaga-Luttinger liquid over a broad range of interaction strengths.

Theory of Liquid Film Growth and Wetting Instabilities on Graphene

An extension of Dzyaloshinskii–Lifshitz–Pitaevskii (DLP) theory to include the polarization of quasi-two dimensional materials in a layered dielectric sandwich and characterizatize a class of critical wetting phenomena where film growth is arrested.

Adsorption by design: Tuning atom-graphene van der Waals interactions via mechanical strain

We design a framework for determining the close distance physics between a single uniaxially strained graphene sheet and adorption adatoms from long distance effects within the continuum limit.

THE ALFALFA "ALMOST DARKS" CAMPAIGN: PILOT VLA HI OBSERVATIONS OF FIVE HIGH MASS-TO-LIGHT RATIO SYSTEMS

Pilot follow-up observation of "dark" galaxy candidates using the Very Large Array.