A PVW-based framework predicts viscoelastic crack delay times and crack evolution under arbitrary loads while introducing a path-independent J-integral that yields a generalized Griffith criterion for delayed fracture.
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physics.chem-ph 7 cond-mat.mes-hall 4 cond-mat.mtrl-sci 4 cs.LG 4 physics.optics 4 quant-ph 3 cond-mat.soft 2 cs.CV 2 math.NA 2 physics.flu-dyn 2roles
background 23representative citing papers
Nanopillar geometry activates otherwise suppressed optical transitions in SiC divacancy and NV centers by transforming the excitation polarization inside the sub-wavelength structure.
Electrochemical oxidation strips Pb from Au2PbP2 to produce the polar noncentrosymmetric superconductor Au2Pb0.914P2 with Tc=1.52 K via Jahn-Teller-driven structural rearrangement.
3D Monte Carlo photon transport in spinodal aerogels shows the solid phase receives 50-70% more light than volume averages at high porosities due to channelling, producing a 34% shift in kinetic descriptors compared to diffusion approximations.
A nanophotonic-enhanced SHG platform with a new overlap-integral formalism enables quantitative probing of light-driven interfacial dynamics, showing electrolyte-dependent spectral shifts and intensity-dependent susceptibility changes at silicon-oxide-electrolyte interfaces.
VQE-PDFT hybrid framework computes electron transfer in ErCRY4 cryptochrome protein with rates aligning to experiments using quantum circuits and QM/MM modeling.
A graph-based technique splits ambiguous instances into multiple points in DR projections to reduce partial neighborhood embedding and reveal hidden memberships.
Drift-React produces full minimum energy pathways for reactions in a single step via SE(3) drifting fields, matching TS accuracy of iterative models with orders-of-magnitude speedup on Transition1x and Halo8 datasets.
Sparse sampling of reflectance with five strategically chosen near-IR bandpass filters combined with a multivariate Gaussian model enables non-destructive thickness mapping of 3R-MoS2 on PDMS up to 691 nm with average 8.3 nm 95% CI width.
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.
DenSNet learns the Hohenberg-Kohn map to electron density with equivariant networks and delta-learning, then maps density to energy, producing stable MD trajectories whose infrared spectra match experiment and DFT on ethanol, ethanethiol, resorcinol, and polythiophene oligomers.
In polydisperse colloidal rod suspensions the average orientation relaxation time after flow cessation decreases with increasing pre-shear rate as the dominant rod subpopulation shifts from long to short rods.
A new asymptotically gauge-invariant HHO discretization for magnetic Schrödinger equations on polyhedral meshes achieves optimal convergence and stable ground states.
Q-SFD, a QUBO formulation for simultaneous fragment docking with an added inter-fragment distance term, approximately doubles top-1 recovery of reconstruction-feasible pose pairs and places at least one feasible pair in the top-5 for over 90% of benchmark cases without losing pose accuracy.
Hybrid semiconductor-dielectric microresonator with quantum dot delivers 11% end-to-end efficiency for polarized telecom C-band single photons.
Short-range order in GeSn alloys directly influences bandgap and can be tuned by annealing, as measured by a new ML-enabled EXAFS analysis linked to photoluminescence data.
Felis toolkit delivers zero-shot absolute binding free energy calculations with ligand ranking performance comparable to state-of-the-art relative methods across 43 protein targets and 859 ligands.
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.
DMET combined with SQD on IBM Eagle hardware achieves chemical accuracy for ground-state energies of low-symmetry ligand-like molecules.
Continuous cavity-length tuning in MeLPPP microcavities maps the strong-to-weak coupling crossover, revealing an 18-fold lasing-threshold increase, a universal V-shaped emission blueshift, and persistent vibron-mediated relaxation.
Bayesian E(3)-equivariant MLPs with joint energy-force NLL loss achieve competitive accuracy while enabling uncertainty-guided active learning, OOD detection, and calibration.
Fine-tuned MACE MLIPs achieve lower mean absolute errors on catalytic reaction energies and barriers than from-scratch models, with a large fine-tuned model performing best on both metallic and oxide systems including out-of-distribution cases.
MicroDiffuse3D is a foundation model that restores 3D microscopy images under sparse super-resolution, joint degradation, and low-SNR denoising, reporting 10.58% segmentation and 15.59% line-profile gains over baselines.
citing papers explorer
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Seeing the forbidden: overcoming optical selection rules through nanophotonic integration
Nanopillar geometry activates otherwise suppressed optical transitions in SiC divacancy and NV centers by transforming the excitation polarization inside the sub-wavelength structure.
-
Three-dimensional photon transport in spinodal photocatalytic aerogels: how bicontinuous morphology controls kinetic rate constants
3D Monte Carlo photon transport in spinodal aerogels shows the solid phase receives 50-70% more light than volume averages at high porosities due to channelling, producing a 34% shift in kinetic descriptors compared to diffusion approximations.
-
Sparse Spectral Imaging for Thickness Mapping of 3R-MoS$_2$ on PDMS
Sparse sampling of reflectance with five strategically chosen near-IR bandpass filters combined with a multivariate Gaussian model enables non-destructive thickness mapping of 3R-MoS2 on PDMS up to 691 nm with average 8.3 nm 95% CI width.
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Mapping the strong-to-weak coupling crossover in polymer-film microcavity lasers
Continuous cavity-length tuning in MeLPPP microcavities maps the strong-to-weak coupling crossover, revealing an 18-fold lasing-threshold increase, a universal V-shaped emission blueshift, and persistent vibron-mediated relaxation.