スポンサーリンク
American Institute of Physics (AIP) | 論文
- Enhanced near infrared emission from the partially vitrified Nd3+ and silver co-doped zeolite Y
- Ultrafast nonlinear optical responses of bismuth doped silicon-rich silica films
- Near infrared photoluminescence from bismuth-doped nanoporous silica thin films
- Near infrared emission from molecule-like silver clusters confined in zeolite A assisted by thermal activation
- Silicon nanocrystals with high boron and phosphorus concentration hydrophilic shell—Raman scattering and X-ray photoelectron spectroscopic studies
- Communication: Coordination structure of bromide ions associated with hexyltrimethylammonium cations at liquid/liquid interfaces under potentiostatic control as studied by total-reflection X-ray absorption fine structure
- Carrier dynamics and photoluminescence quenching mechanism of strained InGaSb/AlGaSb quantum wells
- Drilling to Earth's mantle
- Transition-density-fragment interaction combined with transfer integral approach for excitation-energy transfer via charge-transfer states
- Diffusion model for Knudsen-type compressor composed of periodic arrays of circular cylinders
- Visible luminescence from octadecylsilane monolayers on silica surfaces: Time-resolved photoluminescence characterization
- A theoretical study of crystallochromy: Spectral tuning of solid-state tetracenes
- Study of the spatial distribution of the Langmuir wave amplitude in the turbulent plasma using electron beam shadowgraph technique
- Rarefied gas flow over an in-line array of circular cylinders
- A modification of the laser detonation-type hyperthermal oxygen atom beam source for a long-term operation
- Optically excited near-surface phonons of TiO2 (110) observed by fourth-order coherent Raman spectroscopy
- An extension of Fourier analysis for the n-torus in the magnetic field and its application to spectral analysis of the magnetic Laplacian
- White light emission from transparent SiO2 glass prepared from nanometer-sized silica particles
- Quantum transport simulation of nanoscale semiconductor devices based on Wigner Monte Carlo approach
- Particle Monte Carlo simulation of quantum phenomena in semiconductor nanostructures