在大学物理教学中引入非线性物理的探索与实践

总结了在大学物理教学中引入非线性物理的实践与体会 ,对引入内容、引入方法等问题进行探讨 ,并指出存在和需要解决的问题 .     

Introduction to Focus Issue: nonlinear and stochastic physics in biology

Frank Moss was a leading figure in the study of nonlinear and stochastic processes in biological systems. His work, particularly in the area of stochastic resonance, has been highly influential to the interdisciplinary scientific community. This Focus Issue pays tribute to Moss with articles that describe the most recent advances in the field he helped to create. In this Introduction, we review Moss's seminal scientific contributions and introduce the articles that make up this Focus Issue.     

Computational synergetics and the exploration of nonlinear science

In 1960, S. Ulam demonstrated, in A Collection of Mathematical Problems, how computers would be used as heuristic tools to allow us to explore complex nonlinear dynamical motions and to discover unexpected linkages and new concepts. Recent developments in two-dimensional vortex dynamics illustrate the synergetic working mode.     

Introduction: Nonlinear pattern formation in surface science

(c) 2002 American Institute of Physics.     

Introduction to solitons

As an introduction to the special issue on nonlinear waves, solitons and their significance in physics are reviewed. The soliton is the first universal concept in nonlinear science. Universality and ubiquity of the soliton concept are emphasized.     

《高能物理与核物理》征稿简则

1　办刊方针 :贯彻“百花齐放 ,百家争鸣”的方针 ,报道我国高能物理与核物理研究成果和进展 .发表的论文力求从实验和理论两方面反映我国高能物理与核物理学科的研究水平 ,推动学科的发展与人才的成长 ,促进国内外学术交流 .2　期刊内容 :根据上述方针 ,本刊刊登粒子物理、核物理、宇宙线物理、加速器及同步辐射物理等学科在理论、实验与应用方面的研究论文 .“快报”专栏以最快速度发表最新重要科研成果 .本刊对国家重大项目、重大基金项目与前沿课题取得的突破性创新成果 ,提供多发稿与快发稿的优惠 .本刊为中、英文混合排版 ,同时接受中…     

Introduction to cosmology

An introductory review on cosmology for students specializing in particle physics is presented. Many important subjects are not covered because of lack of space but hopefully the review may serve as a starting point for further studies.     

Network approaches to climate science

<正>Climate and physics are closely related.The governing equations for both the atmosphere and ocean are the Navier-Stokes equations,which describe and quantify the physics of fluids.However,the atmosphere and ocean are very complex due to the interaction of many processes,not necessarily physical,and due to the need to model processes that are smaller than the grid resolution.In spite of this complexity,physicists have successfully addressed a wide swath of it using advanced statistical physics methods and techniques.Climate