「Anti-Stokes photoluminescence from CsPbBr₃ nanostructures embedded in a Cs₄PbBr₆ crystal」の関連論文
-
ISAI: Investigating Solar Axion by Iron-57
-
Studies on gas adsorption in porous polymers via solid-state NMR
-
チタン基板上への同軸型アークプラズマ堆積法によるナノダイヤモンド薄膜の堆積と歯科インプラントへの応用
-
Electrochemical Modulation of Spin State and Magnetism for Geometrically Frustrated Magnetic Materials
-
Observing axions through photon ring dimming of black holes
-
Super-Eddington growth of black holes in the early universe: effects of disc radiation spectra
-
Inducing a Conductive Surface Layer on Nb₂O₅ via Argon-Ion Bombardment: Enhanced Electrochemical Performance for Li-Ion Batteries
-
Project 5 Development on Neutron Imaging Application (R3P5)
-
Quantum Radiation Energy Research Section -
Universal Multistream Radial Structures of Cold Dark Matter Halos
-
磁気熱電効果を用いた金属ナノ構造における熱輸送に関する研究
-
Double nutation cross-polarization between heteronuclear spins in solids
-
Chemical modification utilizing a terminal structure exposed on the specific surface of polymer-metal complex nanocrystals
-
X-ray Study on Supernova Remnants Interacting with Dense Clouds
-
Observation of evanescent spin waves in the magnetic dipole regime
-
Irregular and suppressed elastic deformation by a structural twist in cellulose nanofibre models
-
Project 2 Project Research on Advances in Isotope-Specific Studies Using Muti-Element Mössbauer Spectroscopy (R2P2)
-
Quantum Radiation Energy Research Section -
A computational search for wurtzite-structured ferroelectrics with low coercive voltages
-
Synthesis of infrared Stokes spectra in an evolving solar chromospheric jet
-
Atomic-scale insights into the origin of rectangular lattice in nanographene probed by scanning tunneling microscopy
-
Shift Current Photovoltaics based on A Noncentrosymmetric Phase in in‐plane Ferroelectric SnS
-
Potential of Mechanically Induced Cascaded Long-Period Grating Structure for Reflectometric Pressure, Strain, and Temperature Sensing
-
中性子準弾性散乱による鉱物結晶構造中の水素移動の解析
-
Floquet states in dissipative open quantum systems
-
Long-term Evolution of Nonthermal Emission from Type Ia and Core-collapse Supernova Remnants in a Diversified Circumstellar Medium
-
Project 7 Chemical and electronic properties of Actinide compounds and their applications (R2P7)
-
1. Slow Neutron Physics and Neutron Scattering
-
Reduction in operating voltage of AlGaN homojunction tunnel junction deep-UV light-emitting diodes by controlling impurity concentrations
-
Nuclear Magnetic Resonance Study on Multiple Superconducting Phases in UTe₂
-
二次元WTe₂の非線形光学特性に関する計算
-
Study on Novel Proton Conducting Behavior in Free-Standing Coordination Polymer Membranes
-
Effect of Sintering Temperature on the Thermoelectric Properties of Ag₂Se Fabricated by Spark Plasma Sintering with High Compression
-
Charge Exchange X-Ray Emission Detected in Multiple Shells of Supernova Remnant G296.1-0.5
-
Advanced Laser Science Research Section -
12. Others
-
Thermal treatment of W large-scale fiberform nanostructures
-
Temperature dependence of the Raman spectra of multilayer graphene nanoribbons fabricated by unzipping method
-
Adiabatic evolution of the self-interacting axion field around rotating black holes
-
Properties of scalar wave emission in a scalar-tensor theory with kinetic screening
-
Dzyaloshinskii–Moriya interaction in noncentrosymmetric superlattices
-
Machine-learned search for the stable structures of silicene on Ag(111)
-
Microscopic identification of stepped SiC(0001) and the reaction site of hydrogen-rich epitaxial growth
-
Angle-resolved Photoemission Spectroscopy Study of Many-body Effects on 3D Topological Insulator Bi₂Te₃
-
Electron microscopy in semiconductor inspection
-
耐放射線性電子素子への応用に向けたダイヤモンドベース整流器の材料プロセッシング
-
Static and dynamic characteristics of double transverse coupled cavity VCSELs for high speed modulations
-
Macroscopic Ionic Flow in a Superionic Conductor Na+β-Alumina Driven by Single-Cycle Terahertz Pulses
-
Electric current control of spin helicity in an itinerant helimagnet
-
μSR and DFT Investigations Quantum Electronic States of La2CuO4