A single-SLM platform creates programmable synthetic velocities at a time-varying ITO interface, producing continuously tunable space-time diffraction in scattered light across sub- and superluminal regimes.
Additionally, sub-picosecond modulations of media have been used as a broadband gate for measuring femtosecond optical pulses [40, 41]
7 Pith papers cite this work. Polarity classification is still indexing.
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Extended two-temperature model with competing nonlinear interband process captures high-fluence dynamics of plasma frequency and damping in ITO, explaining anomalous non-monotonic modulations.
Five-state HEOM simulation of Y6 dimers identifies an aggregation-enabled intermolecular charge-transfer route to triplets that is absent in the monomer and shows Marcus theory fails on long-time yields.
A Bayesian model for multi-feature contact matrices that uses tensor structures and contingency table theory to satisfy structural constraints and impute missing contact features, validated on simulations and US/German survey data.
Dynamic rephasing in a telecom ORCA warm vapor quantum memory extends coherence time by 50x and supports four independent time-bin modes at room temperature.
Hybrid QM/ML forcefield framework couples DFT with MLIPs to enable scalable, chemically accurate simulations of solute-dislocation interactions, demonstrated on Sn/Fe segregation in Zr and magnetic effects in steel.
A theoretical framework for the origin of interstitial electrons enables descriptors for high-throughput discovery of new electrides and unifies understanding of related phenomena across material types.
citing papers explorer
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Programmable Synthetic Motion at a Time-Varying Interface
A single-SLM platform creates programmable synthetic velocities at a time-varying ITO interface, producing continuously tunable space-time diffraction in scattered light across sub- and superluminal regimes.
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Intraband and Interband Competition Drives Ultrafast Modulations of Indium Tin Oxide
Extended two-temperature model with competing nonlinear interband process captures high-fluence dynamics of plasma frequency and damping in ITO, explaining anomalous non-monotonic modulations.
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Quantum dynamic simulation of triplet formation in an effective model of Y6 (BTP-4F)
Five-state HEOM simulation of Y6 dimers identifies an aggregation-enabled intermolecular charge-transfer route to triplets that is absent in the monomer and shows Marcus theory fails on long-time yields.
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Bayesian Modeling and Prediction of Generalized Contact Matrices
A Bayesian model for multi-feature contact matrices that uses tensor structures and contingency table theory to satisfy structural constraints and impute missing contact features, validated on simulations and US/German survey data.
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Dynamic rephasing in a telecom warm vapor quantum memory
Dynamic rephasing in a telecom ORCA warm vapor quantum memory extends coherence time by 50x and supports four independent time-bin modes at room temperature.
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A Hybrid Quantum Mechanics Machine Learning Forcefield (QM/ML) Framework for Accurate Solute-Dislocation Interaction Simulations
Hybrid QM/ML forcefield framework couples DFT with MLIPs to enable scalable, chemically accurate simulations of solute-dislocation interactions, demonstrated on Sn/Fe segregation in Zr and magnetic effects in steel.
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Theory and Discovery of Electrides
A theoretical framework for the origin of interstitial electrons enables descriptors for high-throughput discovery of new electrides and unifies understanding of related phenomena across material types.