Magnetic fields induce near-field conductivity at step edges in topological materials, enabling nanoscale imaging of spin-polarized helical edge modes whose infrared response scales linearly with atomic layer thickness.
Exact Solutions of the Sine-Gordon Equation Describing Oscillations in a Long (but Finite) Josephson Junction
28 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.mtrl-sci 4 quant-ph 4 physics.plasm-ph 3 cond-mat.mes-hall 2 math-ph 2 physics.chem-ph 2 physics.optics 2 cond-mat.dis-nn 1 cond-mat.soft 1 cs.IT 1years
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Rigorous security proofs for variable-length QKD, phase-error bounding with imperfect detectors, marginal-constrained entropy accumulation, and authentication reductions place practical QKD on firmer mathematical ground.
Robinson-Trautman waves exhibit an explicit memory effect, with their news-free sector matching boosted rescaled Schwarzschild black holes and the vacuum sector of Euclidean Liouville theory.
Cherenkov and scintillation light were separated in BGO and BSO crystals with SiPMs, yielding up to 150 photoelectrons per GeV from Cherenkov light in electromagnetic showers.
Minimal sufficient Jordan algebras generated by Neyman-Pearson tests characterize sufficiency for positive trace-preserving maps, implying Petz-like recovery and equivalence of interconversion conditions for quantum dichotomies.
An energy scan of isobaric collisions provides a double-ratio method to measure electric charge transport rapidity dependence, with simulations showing exponential decrease and model-dependent slopes distinct from baryon transport.
k-contact geometry supplies explicit Hamiltonian descriptions for multiple dissipative PDEs including damped Klein-Gordon, Allen-Cahn, Fisher-KPP, and complex Ginzburg-Landau equations.
First observation of two-step type-II ultrafast demagnetization in (Cr0.5Mn0.5)2GaC MAX phase film below 250 K, with three-temperature model yielding electron-lattice, spin-lattice and electron-spin couplings and a weakly temperature-dependent spin heat capacity.
MAESTRO couples surrogate optimization transport modeling with external solvers to enable efficient full-physics steady-state plasma predictions in fusion devices.
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.
Oligothiophene-filled BNNTs form weakly emissive, length-dependent heterogeneous ensembles without J-aggregate radiative enhancement, while Nile Red shows dielectric tuning of its charge-transfer state.
A physics-informed DIP method using a simple convolutional autoencoder reconstructs complex in-plane magnetization from NV magnetometry, with optimal mask orientation improving SNR by up to 3 dB.
Silicon-integrated InGaAs quantum dot single-photon sources in electrically contacted circular Bragg gratings demonstrate a record 16 nm quantum-confined Stark shift at O-band with high purity and operation up to 77 K.
Multi-fidelity Monte Carlo using DSMC as high-fidelity and panel methods as low-fidelity control variates reduces relative RMSE in drag mean and second-moment estimates by factors of several when correlations are high.
Non-equilibrium MD simulations show ion-specific shifts in Soret coefficient from thermophilic to thermophobic behavior with rising temperature in alkali halide solutions, linked to water structure and heat of transport.
Electron impact on OCS produces two ion-pair dissociation pathways through hybrid Rydberg-ion-pair superexcited states, with fragment angular distributions showing beta greater than 1 and energy-dependent partial wave shifts.
Reformulating DRL in a moving reference frame enables reliable control of rapid transitions between mode-locked states in a 1D RDE model by separating fast detonation propagation from slower operating-mode dynamics.
A new non-contact steady-state temperature differential radiometry platform measures molybdenum thermal conductivity from 1500-3000 K with 7.9-11% uncertainty and spectral emittance in solid and liquid states over 500-1000 nm.
Ammonia poisons PEM fuel cell cathodes by ammonium ions displacing hydronium at sulfonic acid sites and forming hydronium-absorbing ion clusters via hydrogen bonds, with higher temperatures helping to break up clusters and restore proton transport.
Deterministic dynamics emerges as a strict geometric attractor of contact flow in dissipative systems via the Contact Locking Theorem, with exponential convergence shown on the damped-driven Duffing oscillator.
Electron dynamics in the aromatic pi cloud quench and amplify specific vibrational signals from a single water molecule bound to pyrene anion.
A materials-limited HTS tokamak design achieves net electricity for off-grid uses at 130 MW fusion power with self-consistent high-field plasma parameters and detached divertor operation.
Cryogenic dual-layer graphene phase modulators on SiN waveguides achieve insertion losses below 0.3 dB, modulation lengths under 50 μm, and GHz bandwidths via geometry and material optimization.
A testing method for 3D QRNGs is proposed that undoes the device's unitary evolution to verify unitarity, noise, errors, and theoretical guarantees of strong incomputability and unpredictability.
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Foundations of Future Communication Systems: Innovations in Communication - A Report
The report assembles abstracts of invited talks, presentations, and posters from the FFCS conference on foundational limits and emerging paradigms in communication.