Mesoscale & Nanoscale Physics
Quantum transport, nanoscale devices, topological materials, and mesoscopic physics.
cond-mat.mes-hall · 227 papersVariational approach to droplet motion on uneven solid surfaces, including contact line dynamics and evaporation
This paper presents a variational approach using Onsager's principle to model droplet motion, contact line dynamics, and evaporation on uneven surfaces.
Magnon polaritons in a van der Waals ferromagnet coupled to a superconducting resonator
Researchers achieved magnon-photon hybridization in a 2D van der Waals ferromagnet using a superconducting resonator, paving the way for integrated quantum circuits.
Optical signatures of antiferromagnetic correlations in a strongly interacting quantum Hall MoSe2 monolayer
This paper reveals antiferromagnetic correlations in a strongly interacting quantum Hall MoSe2 monolayer, challenging conventional ferromagnetism.
First-principles real-space embedding theory of the superconducting proximity effect
This paper introduces a first-principles real-space embedding theory for simulating the superconducting proximity effect in mesoscopic systems.
Plasmon exciton coupling enhances second order nonlinear response in borophene ZnO hybrid structures
Borophene-ZnO hybrid structures leverage plasmon-exciton coupling to significantly enhance second-order nonlinear optical responses for frequency conversion.
Photon Momentum Enabled Symmetry Breaking and Nonlinear Photocurrents in the Centrosymmetric Dirac Semimetal PdTe
Photon momentum dynamically breaks symmetry in centrosymmetric PdTe, enabling previously forbidden nonlinear photocurrents and revealing bulk quantum geometry.
Permutation-symmetric quantum trajectories
This paper introduces a permutation-symmetric stochastic unraveling method, drastically reducing the computational cost for modeling N-emitter quantum systems.
Cascade of fractional quantum Hall states in 2D system
New fractional quantum Hall states, including 17/33 and 15/31, are discovered in high-mobility GaAs/AlGaAs quantum wells, explained by composite fermion theory.
Diamond membranes: platform for photonic and opto-mechanical applications
Diamond membranes are explored for photonic/optomechanical applications, detailing IR dichroism, femtosecond laser cutting, and light distribution modeling.
Coherence, long-range transport and nuclear polarization in a driven-dissipative dark exciton condensate
Direct evidence of macroscopic coherence and millimeter-scale hydrodynamic transport is shown in a driven-dissipative dark exciton condensate.
Finite-q photon-drag shift current in two-dimensional massive chiral Dirac fermions
This paper reveals how chirality dramatically alters the sign and topology of finite-q photon-drag shift currents in 2D massive chiral Dirac fermions.
Exciton-mediated optical control of liquid-solid friction
This paper presents a microscopic theory showing how excitons can optically control liquid-solid friction in nanofluidic systems, reducing slip.
Effective Gilbert damping in the stochastic Landau-Lifshitz-Gilbert equation
This paper shows that effective Gilbert damping in spin systems varies with temperature and momentum, unlike simple assumptions.
Colossal Magnetoresistance and Phonon Driven Exchange Dynamics in Eu$_5$Sn$_2$As$_6$
This paper investigates colossal magnetoresistance in Eu$_5$Sn$_2$As$_6$, revealing how phonon dynamics and lattice interactions drive electron delocalization.
Electrically controlled Heat Assisted Magnetic Recording in Intercalated 2D Magnets
This paper introduces an all-electronic Heat-Assisted Magnetic Recording (HAMR) method using Joule heating in 2D magnets for efficient data writing and readout.
Twisted Kagome Bilayers: Higher-Order Magic Angles, Topological Flat Bands, and Sublattice Interference
This paper introduces a generalized moiré physics model for twisted kagome bilayers, revealing higher-order magic angles and topological flat bands.
On Fano effect in IR spectra of hydrogenated nanodiamonds
This paper attributes the Fano effect in hydrogenated nanodiamond IR spectra to monohydride bending modes, not C-H stretch vibrations.
Engineering a driven-dissipative bath of altermagnetic quantum magnons for controlling classical dynamics of spins hosting spin waves, domain walls, or skyrmions
This paper engineers a driven-dissipative altermagnetic magnon bath to control classical spin dynamics in ferromagnets, impacting spintronic devices.
Electrical Spin Pumping in Exchange-coupled Molecules
This paper demonstrates remote, all-electrical initialization of electron spins in single molecules using exchange-coupled pairs, crucial for quantum computing.
Genus-protected higher-order topological phases
This paper introduces a new class of higher-order topological phases protected by the system's global topology (genus), independent of lattice symmetries.
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