Epitaxial single‐crystal growth of transition metal dichalcogenide monolayers via the atomic sawtooth Au surface
Growth of 2D van der Waals layered single‐crystal (SC) films is highly desired not only to
manifest the intrinsic physical and chemical properties of materials, but also to enable the …
manifest the intrinsic physical and chemical properties of materials, but also to enable the …
Coulomb Drag in Moiré Heterostructures
We report on the observation of Coulomb drag between graphene-hexagonal boron nitride
(h-BN) moiré heterostructure with a moiré wavelength of∼ 14 nm and an intrinsic graphene …
(h-BN) moiré heterostructure with a moiré wavelength of∼ 14 nm and an intrinsic graphene …
Electrical control of transient formation of electron-hole coexisting system at silicon metal-oxide-semiconductor interfaces
Recent observations of macroscopic quantum condensation using electron-hole (eh)
bilayers have activated the research of its application to electronics. However, to the best of …
bilayers have activated the research of its application to electronics. However, to the best of …
Coulomb drag induced non-local resistance in double graphene layers
We study the effect of Coulomb drag between graphene layers in presence of viscosity term.
To do this, we use the simple model of Stokes equations for drift velocities in active and …
To do this, we use the simple model of Stokes equations for drift velocities in active and …
Anomalous Coulomb drag between InAs nanowire and graphene heterostructures
Correlated charge inhomogeneity breaks the electron-hole symmetry in two-dimensional
(2D) bilayer heterostructures which is responsible for nonzero drag appearing at the charge …
(2D) bilayer heterostructures which is responsible for nonzero drag appearing at the charge …
Anomalous conductivity due to two-stream instability in bilayer graphene
We investigate the electron-hole two-stream instability (or Coulomb drag) in bilayer
graphene in the hydrodynamic regime, accounting for the effects of temperature, initial drift …
graphene in the hydrodynamic regime, accounting for the effects of temperature, initial drift …
Coulomb drag study in electron-electron bilayer system with a dielectric medium
We have theoretically investigated the drag resistivity in electron-electron bilayer system by
using the random phase approximation (RPA) for weakly interacting regime, at low …
using the random phase approximation (RPA) for weakly interacting regime, at low …
Coulomb drag study in graphene/GaAs bilayer system with the effect of local field correction and dielectric medium
The drag resistivity is measured numerically for electron-electron (ee) and electron-hole (eh)
coupled layer system composed of single layer graphene and two-dimensional (2D) GaAs …
coupled layer system composed of single layer graphene and two-dimensional (2D) GaAs …
Frictional drag effect between massless and massive fermions in single-layer/bilayer graphene heterostructures
The emergence of two-dimensional layered materials offers an excellent opportunity for the
fabrication of double-layer electron systems that are in close proximity but electronically …
fabrication of double-layer electron systems that are in close proximity but electronically …
Drag resistivity in bilayer-graphene/GaAs coupled layer system with the effect of local field corrections
Drag resistivity mediated by Coulomb interaction is a transport phenomenon in a specially
separated bilayer systems. The drag resistivity is numerically analysed for both the n-and p …
separated bilayer systems. The drag resistivity is numerically analysed for both the n-and p …