「On a mathematical modeling and a computer-aided analysis for self-propelled systems」の関連論文
-
原子価異性分子結晶の電子焦電性に関する基礎研究
-
Development of continuum-based particle models of cell growth and proliferation for simulating tissue morphogenesis
-
Geometric Method for Solvable Lattice Spin Systems
-
Complex Plasma Systems Research Section -
Observation of evanescent spin waves in the magnetic dipole regime
-
Modern Microscopic Approaches to Astrocytes
-
Quantum phase transition and resurgence: Lessons from three-dimensional $mathcal{N}=4$ supersymmetric quantum electrodynamics
-
Scanning gate imaging of the quantum Hall system
-
Research on application of a Faster R-CNN based on upper and lower layers in face detection
-
Dynamic Symmetry Conversion in Mixed-Halide Hybrid Perovskite upon Illumination
-
Crystal structure of CmABCB1 multi-drug exporter in lipidic mesophase revealed by LCP-SFX
-
Mechanism of SiN etching rate fluctuation in atomic layer etching
-
Design of a retrofitted pilot-controlled system to conduct flight-deck interval management (本文)
-
Thermal treatment of W large-scale fiberform nanostructures
-
Development and Application of a Numerical Method for Two-Way Fluid-Structure Interactions of Flow-Induced Deformable Fibrous Porous Media
-
Evaluation of shade matching of a novel supra-nano filled esthetic resin composite employing structural color using simplified simulated clinical cavities
-
A multireference coupled-electron pair approximation combined with complete-active space perturbation theory in local pair-natural orbital framework
-
ワイドバンドギャップ酸化物熱電変換材料の性能向上への指針
-
An Artificial Liposome Compartment with Size Exclusion Molecular Transport
-
Generalized Hydrodynamic Limit for the Box–Ball System
-
Non-perturbative Aspects of Higgs Physics in the Standard Model and Beyond
-
8. Neutron Radiography and Radiation Application
-
Phase detection based two-way ranging in sub-GHz band for remote keyless entry systems (本文)
-
Simulation study on parametric dependence of whistler-mode hiss generation in the plasmasphere
-
Study of Drilling Properties in Bone Biomodel
-
Fluency in Real-Time Video Streaming by Learning Human Perceptive Traits to Reveal the Expected Section in Outstanding Quality
-
Development of Nanophotonic Bio/Chemical Sensors Based on Light-Matter Interactions
-
新規ゼオライト骨格を有する固体酸触媒の開発とその触媒特性
-
Computational studies of effects of surface charge on biomembrane and membrane permeability of molecules
-
In situ measurement of ultrasonic behavior during lap spot welding with laser ultrasonic method
-
数値計算を用いたインレット構成に関する小型イオンスラスタおよび中和器内部におけるイオンおよび中性粒子の挙動解析
-
On the assumptions leading to the information loss paradox
-
Predicting global distributions of eukaryotic plankton communities from satellite data
-
Stereoisomer-dependent conversion of dinaphthothienothiophene precursor films
-
Macroscopic Ionic Flow in a Superionic Conductor Na+β-Alumina Driven by Single-Cycle Terahertz Pulses
-
Study of Neutrino-Water Interactions using Nuclear Emulsion Detectors with Improved Event Reconstructions
-
Project 8 Development on Neutron Imaging Application (R2P8)
-
Extended Cuscuton Theory: Formulation and Dark Energy
-
Concentration and Brightness Imaging for Fluorescent Molecules in Cells: Statistical Image Analysis by Empirical Bayes Method
-
Significance of the Alfvén waves in the thermospheric dynamics in the cusp region
-
Matrix Liberation Process II: Relation to Orbital Free Entropy
-
Editorial: Advances and Challenges in Ocean Wave Energy Harvesting
-
Slope stabilization by using filter gabion with drainage pipe
-
Extremely large third-order nonlinear optical effects caused by electron transport in quantum plasmonic metasurfaces with subnanometer gaps
-
Remarks on the principles of statistical fluid mechanics
-
Electric current control of spin helicity in an itinerant helimagnet
-
Investigations of Dynamics in the Quantum Hall Regime by Time-Resolved Measurements
-
Pumping current in a non-Markovian N-state model
-
Glass transition and caking properties of amorphous carbohydrate blend and maca (Lepidium meyenii Walpers) powders
-
Multi-body wave function of ground and low-lying excited states using unornamented deep neural networks