An electrically-injected GaN waveguide polariton laser operates at room temperature in mode-locked regime, breaking the transparency condition and enabling short cavities with partial injection.
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Record deep-strong coupling (normalized ratio >1.6) realized in 3D Kane fermion Landau polaritons, with gauge-invariant theory showing emergent A² term that precludes superradiant quantum phase transition.
High-harmonic emission in solids is made programmable by tuning effective nonlinear order and intrinsic emission phase within a photon-pathway framework, unifying modulation types across materials.
CASSCF-NEVPT2 calculations map the excited-state fine structure, pseudo-Jahn-Teller distortion, singlet-triplet crossings, and pressure dependence of the V_B^- center in hBN.
ARPES on NiPS3 reveals a many-body feature at the valence band edge matching mixed d7 and d8L multiplet states from NiS6 cluster diagonalization, indicating local Ni-S physics beyond mean-field theory.
Plasma etch recipe produces photonic-grade diamond-on-insulator films from bonded SCD membranes and enables 5 nm resolution thickness mapping via colorimetry on standard microscope images.
Thickness reduction in CsV3Sb5 drives a crossover from conventional to chiral nonreciprocal superconductivity that breaks inversion and time-reversal symmetries in the 2D limit.
NISQ quantum simulation of spin-wave spectra in 2D chromium tri-halide magnets achieves agreement with classical benchmarks at quasi-constant wall-time scaling.
Analysis of LaBi2 thin films using the Kharitonov-Feigel'man framework resolves field-enhanced superconductivity in the thin limit and estimates spin exchange scattering's role alongside other depairing mechanisms.
A synthesis of van der Waals Josephson junction research showing how 2D material diversity and symmetry control open routes to novel quantum devices and sensors.
Quantum confinement in 2D hexagonal crystals like graphene and TMDs produces discrete electronic and excitonic spectra with strongly amplified interactions that enable correlated quantum states.
citing papers explorer
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Electrically-injected room-temperature waveguide polariton laser
An electrically-injected GaN waveguide polariton laser operates at room temperature in mode-locked regime, breaking the transparency condition and enabling short cavities with partial injection.
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Deep Strong light-matter Coupling in 3D Kane Fermions
Record deep-strong coupling (normalized ratio >1.6) realized in 3D Kane fermion Landau polaritons, with gauge-invariant theory showing emergent A² term that precludes superradiant quantum phase transition.
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Programmable high-harmonic emission in solids through photon pathways
High-harmonic emission in solids is made programmable by tuning effective nonlinear order and intrinsic emission phase within a photon-pathway framework, unifying modulation types across materials.
-
An extended ab initio theory of the V$_{\text{B}}^-$ center in hBN: excited states, Jahn-Teller distortion, and pressure dependence
CASSCF-NEVPT2 calculations map the excited-state fine structure, pseudo-Jahn-Teller distortion, singlet-triplet crossings, and pressure dependence of the V_B^- center in hBN.
-
Evidence for Many-Body States in NiPS$_3$ Revealed by Angle-Resolved Photoelectron Spectroscopy
ARPES on NiPS3 reveals a many-body feature at the valence band edge matching mixed d7 and d8L multiplet states from NiS6 cluster diagonalization, indicating local Ni-S physics beyond mean-field theory.
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Plasma Etch Process Optimization for Photonic-Grade Diamond-on-Insulator Substrates and Thickness Evaluation using Colorimetry
Plasma etch recipe produces photonic-grade diamond-on-insulator films from bonded SCD membranes and enables 5 nm resolution thickness mapping via colorimetry on standard microscope images.
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Thickness-driven crossover from conventional to chiral nonreciprocal superconductivity in kagome metal CsV3Sb5
Thickness reduction in CsV3Sb5 drives a crossover from conventional to chiral nonreciprocal superconductivity that breaks inversion and time-reversal symmetries in the 2D limit.
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Quantum Simulation of Magnetic Materials: from Ab-Initio to NISQ
NISQ quantum simulation of spin-wave spectra in 2D chromium tri-halide magnets achieves agreement with classical benchmarks at quasi-constant wall-time scaling.
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Pair-Breaking and Dimensionality in Spin-Orbit Coupled Superconductors
Analysis of LaBi2 thin films using the Kharitonov-Feigel'man framework resolves field-enhanced superconductivity in the thin limit and estimates spin exchange scattering's role alongside other depairing mechanisms.
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New frontiers in quantum science and technology using van der Waals Josephson junctions
A synthesis of van der Waals Josephson junction research showing how 2D material diversity and symmetry control open routes to novel quantum devices and sensors.
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Correlated Quantum Phenomena in Confined Two-Dimensional Hexagonal Crystals
Quantum confinement in 2D hexagonal crystals like graphene and TMDs produces discrete electronic and excitonic spectra with strongly amplified interactions that enable correlated quantum states.