ALF is a new function derived from the ideal free energy in MDFT that quantifies local angular order of solvent molecules, providing complementary information to polarization and charge density.
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Thermal conductivity of superconducting MgB 2
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Experimental measurement of correlation-induced photoionization delays up to 430 as in argon around the Cooper-like minimum.
A thermodynamic analysis of magnetization data in specific Ni-Mn-Cu-Ga Heusler alloys identifies three types of magneto-structural transitions and computes a large (>=50 K) difference in Curie temperatures between austenite and martensite phases.
An upper bound on concurrence is derived for fixed local polarizations in two-qubit systems, saturated by pure states in some cases, and applied to show reduced maximal entanglement in polarized q qbar pairs from parity-violating Z decays.
Plasmon coupling in nanoparticle-microgel hybrids exhibits re-entrant behavior with NP loading, driven by colloidal stability and interparticle distance, yielding two distinct coupling regimes.
Charge disproportionation stabilizes the monoclinic semiconducting state in Fe₂PO₅ and enables its room-temperature d-wave altermagnetism.
RbSCN exhibits collective ferroelastic domain switching at T* < Tc when temperature-dependent critical pinning stress falls below applied stress, with pseudospin model calculations matching observed T*.
Reservoir engineering modifies the susceptibility of a weakly driven two-level medium to control transmission modulation and angular selectivity in electromagnetically induced gratings.
Nonlinear elasticity appears in InP nanocrystals at high optical fluence as sum- and difference-frequency generation in acoustic modes, correlated with oxidation and confirmed by time-resolved XRD.
A reduced Fokker-Planck model for octupole dynamics in Mn3Sn accurately reproduces switching behavior and computes ultra-low error probabilities in field-driven thermal switching.
New gas-phase measurements of C 1s binding energies in anthrone agree with ΔSCF calculations, and a benchmark of 44 core levels in molecules with 10-40 atoms yields a mean absolute error of 0.19 eV.
Oxygen vacancies stabilize the ferroelectric orthorhombic phase o-III in small Hf0.5Zr0.5O2 nanoparticles via chemical strain and reduced depolarization fields.
Cr substitution induces hole doping and Hund's correlations in BaFe2As2, with superconductivity suppressed by local-moment competition instead of Fermi-surface evolution.
Pretrained UMA model reproduces chemisorbed S and O coverage under 15 eV O+ and O2+ bombardment on WS2 without fine-tuning; fine-tuning lowers energy MAE to 4.5e-3 eV/atom and force MAE to 0.076 eV/Å.
Composition changes in FeNiCoCrCu high-entropy alloys produce materials with Curie temperatures of 110 K and 420 K and an entropy change of 1.24 J/kgK under 1.6 T, supported by DFT and Monte Carlo modeling that links Cu content to magnetic dilution.
CrSi2N4 monolayer is stable with 0.58-2.16 eV indirect bandgap, high absorption, 3.5 mW/mK² thermoelectric power factor, and strain-reduced hydrogen adsorption energy to 0.46 eV for better HER.
Extending the Haldane model to the dice lattice induces flat-band topological transitions at φ^c = π/6 and 5π/6, with flux-dependent Chern numbers and quantized Hall plateaus.
Theoretical computation of phase diagram, 1/3 magnetization plateau, residual entropy, and field-dependent magnetocaloric regimes for triangular spin-1/2 cluster with DM interaction.
The paper reviews the importance of the depairing current density Jd as a fundamental boundary in superconductors comparable to Tc and Bc2, explains the pulsed-current measurement method, and discusses its use in interfacial superconducting systems.
A literature survey of supramolecular assembly at organic-semiconductor interfaces and its effects on transistors, LEDs, and photovoltaics, plus simulation challenges.
Comparative experimental notes on zero-field remanent magnetization behaviors in a superconductor and hard ferromagnets, with notes on possible implications for diamond anvil cell setups.
DFT study reports that As substitution and interstitial doping in MoS2 monolayer introduce midgap defect states and shift the Fermi level to produce p-type or n-type character depending on site.
Review summarizing innovations in phase-change memory energy efficiency via material scaling and thermal confinement, with discussion of attojoule-scale theoretical limits constrained by parasitics.
Review summarizing how electron-phonon, electron-electron, and spin correlations in manganites affect energy conversion processes beyond single quasiparticle and rigid band pictures.
citing papers explorer
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Effect of electron correlations on attosecond photoionization delays in the vicinity of the Cooper minima of argon
Experimental measurement of correlation-induced photoionization delays up to 430 as in argon around the Cooper-like minimum.
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Evaluating Superconductors through Current Induced Depairing
The paper reviews the importance of the depairing current density Jd as a fundamental boundary in superconductors comparable to Tc and Bc2, explains the pulsed-current measurement method, and discusses its use in interfacial superconducting systems.