Advanced Material Engineering
Dielectric
AI Synthesis & Market Narrative
Dielectric materials are central to advanced engineering, enabling dynamic control of laser-driven electron acceleration and forming the basis for new density functionals that achieve gold-standard accuracy in energy level calculations.
Correlated Linguistic Patterns
["dielectric laser accelerator schemes"
"photonic structure"
"programmable optical pulses"
"non-contact friction"
"nanomechanical resonators"
"dielectric materials"
"Dielectric-dependent hybrid functional"]
Driving Media Context
Dynamic control of laser driven electron acceleration in a photonic structure using programmable optical pulses
Control of the phase field is essential to enhance the efficiency of dielectric laser accelerator schemes. Here, the authors introduce a software-tunable app...
Non-contact friction in ultracoherent nanomechanical resonators near dielectric materials
Understanding loss mechanisms in nanomechanical resonators has enabled ultracoherent devices with improved sensitivity. Now these resonators are found to be ...
Dielectric-dependent hybrid functional based on meta-GGA
A density functional is proposed that combines a modern treatment of semilocal interactions with an exact constraint for long-range dielectric screening. The...
A fully solution-processed organic microcavity laser in the strong light-matter coupling regime
We report organic microcavities fabricated entirely by solution processing that operate in the strong coupling regime and exhibit polariton lasing. The platf...
Every truly fast USB-C cable is suspiciously short, and physics is the reason
The reason fast USB-C cables are suspiciously short has nothing to do with manufacturers.
Hyperbranched dielectric polymer networks exhibiting giant energy storage density at 250 °C
To overcome charge transfer and achieve efficient capacitive energy storage in dielectric polymers at thermal extremes, hyperbranched networks are designed t...
Broadband Radiative Heat Transfer Suppression via Dispersion-Engineered Metasurfaces
Radiative heat transfer control is crucial for energy efficiency but limited by bandwidth trade-offs. Here, the authors demonstrate dielectric metasurface pa...
IBM Debuts First Sub-1 Nanometer Chip Technology
IBM unveiled a major semiconductor breakthrough with the introduction of the world’s first sub-1 nanometer (nm) chip technology, featuring a revolutionary tr...
Enhanced energy storage performance of confined co-doping dielectric films via nanoparticle self-assembly in ferroelectric phases
The authors present a confined co-doping strategy for polymer-based dielectric films by incorporating BaTiO3 and Al2O3 nanoparticles into the ferroelectric c...
Ultrafast, reconfigurable all-optical beam steering and spatial light modulation
Resonant light coupling in silicon-based metasurfaces amplifies a typically weak, subfemtosecond optical non-linearity to enable pulse-limited, all-optical b...
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