Soliton-based modeling of nano-ionic currents in transmission line

IF 4.1 2区工程技术 Q1 MECHANICS

Physics of Fluids Pub Date : 2024-09-18 DOI:10.1063/5.0231980

U. Akram, A. Alhushaybari, A. M. Alharthi

引用次数: 0

Abstract

Many nonlinear evolution equations, such as the nano-ionic currents (NIC) equation, are used extensively in many scientific and technological domains particularly in nanoelectronics and bioelectronics. The mathematical modeling of NIC phenomena is vital for understanding their behavior and optimizing device performance. Our research leverages an array of mathematical methods, including multi-wave analysis, periodic wave solutions, lump soliton dynamics, breather wave phenomena, homoclinic breathers, M-shaped waveforms, and rogue wave analysis. Additionally, our investigation encompasses the exploration of single kink and double kink configurations, interactions between periodic and kink waves, interaction between M shaped with kink and rogue, interaction between M shaped with one kink, interaction between M shaped with kink and periodic, interaction between M shaped with two kinks as well as periodic wave interactions with lump waves. To further emphasize the structure of solutions derived from particular parameter choices, we include three-dimensional, two-dimensional, streamplot, and contour graphs.

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基于孤子的输电线纳米离子电流建模

许多非线性演化方程，如纳米离子电流（NIC）方程，被广泛应用于许多科学和技术领域，尤其是纳米电子学和生物电子学领域。NIC 现象的数学建模对于理解其行为和优化设备性能至关重要。我们的研究利用了一系列数学方法，包括多波分析、周期波解、肿块孤子动力学、呼吸波现象、同轴呼吸波、M 型波形和流氓波分析。此外，我们的研究还包括对单扭结和双扭结配置、周期波与扭结波之间的相互作用、M 形扭结波与流氓波之间的相互作用、M 形单扭结波之间的相互作用、M 形扭结波与周期波之间的相互作用、M 形双扭结波之间的相互作用以及周期波与块状波之间的相互作用的探索。为了进一步强调特定参数选择所产生的解的结构，我们还提供了三维、二维、流线图和等值线图。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physics of Fluids 物理-力学

CiteScore

6.50

自引率

41.30%

发文量

2063

审稿时长

2.6 months

期刊介绍： Physics of Fluids (PoF) is a preeminent journal devoted to publishing original theoretical, computational, and experimental contributions to the understanding of the dynamics of gases, liquids, and complex or multiphase fluids. Topics published in PoF are diverse and reflect the most important subjects in fluid dynamics, including, but not limited to: -Acoustics -Aerospace and aeronautical flow -Astrophysical flow -Biofluid mechanics -Cavitation and cavitating flows -Combustion flows -Complex fluids -Compressible flow -Computational fluid dynamics -Contact lines -Continuum mechanics -Convection -Cryogenic flow -Droplets -Electrical and magnetic effects in fluid flow -Foam, bubble, and film mechanics -Flow control -Flow instability and transition -Flow orientation and anisotropy -Flows with other transport phenomena -Flows with complex boundary conditions -Flow visualization -Fluid mechanics -Fluid physical properties -Fluid–structure interactions -Free surface flows -Geophysical flow -Interfacial flow -Knudsen flow -Laminar flow -Liquid crystals -Mathematics of fluids -Micro- and nanofluid mechanics -Mixing -Molecular theory -Nanofluidics -Particulate, multiphase, and granular flow -Processing flows -Relativistic fluid mechanics -Rotating flows -Shock wave phenomena -Soft matter -Stratified flows -Supercritical fluids -Superfluidity -Thermodynamics of flow systems -Transonic flow -Turbulent flow -Viscous and non-Newtonian flow -Viscoelasticity -Vortex dynamics -Waves