《固态物理学(卷)(英文版)》内容简介：Learning solid-state physics requires a certain degree of maturity, since it involvestying together diverse concepts from many areas of physics. The obiective is tounderstand, in a basic way, how solid materialehave. To do this one needotha good physical and mathematical background. One definition of soid-statephysics is that it is the study of the physical （e.g. the electrical, dielectric,magic, elastic, and thermal） properties of solids in terms of basic physical laws.In one sense, solid=state physics is more like chemistry than some other branchesof physicecause it focuses on mon properties of large classes of materials.It is typical that solid=state physics emphasizes how physical properties link to theelectronic structure. In thiook we will emphasize crystalline solids （which areperiodic 3D arrays of atoms）.

《固态物理学(卷)(英文版)》内容简介：Learning solid-state physics requires a certain degree of maturity, since it involvestying together diverse concepts from many areas of physics. The obiective is tounderstand, in a basic way, how solid materialehave. To do this one needotha good physical and mathematical background. One definition of soid-statephysics is that it is the study of the physical （e.g. the electrical, dielectric,magic, elastic, and thermal） properties of solids in terms of basic physical laws.In one sense, solid=state physics is more like chemistry than some other branchesof physicecause it focuses on mon properties of large classes of materials.It is typical that solid=state physics emphasizes how physical properties link to theelectronic structure. In thiook we will emphasize crystalline solids （which areperiodic 3D arrays of atoms）.

本书共由“宴席菜谱、传统小吃、山珍美味、特色菜肴、清真美食、巍山特产”六个部分构成。“宴席菜谱”部分主要介绍了巍山各种宴席的菜谱组成、材料选用、制作方法、营养价值；“传统小吃”部分侧重介绍了巍山各种特色小吃的文化内涵、小吃特点、食用方法；“山珍美味”部分介绍了产自巍山的各种野生菜蔬和各种野生菌类以及烹饪、食用方法；“特色菜肴”部分介绍了用巍山传统烹饪方法制作出的各种菜肴；“清真美食”部分介绍了巍山回族的饮食文化、餐饮特点以及清真食品；“巍山特产”部分则是为您选购特产的购物指南。

《全景科普新热点丛书：蔚蓝旖旎的海洋世界》是一部包罗万象的知识宝典，内容包括了工业、农业、海洋、航天、环境、信息、生命科学及科学未知等各个门类，知识丰富。分类合理，符合青少年的阅读特点。是促使他们健康成长、全面发展的有力保证。《全景科普新热点丛书》也是一条色彩瑰丽的艺术长廊，三千多幅精美清晰的图片，寓教于乐，既能辅助文字理解，又能带来美的享受，既丰富知识，又陶冶情操。本丛书知识全面、视角新颖、体例科学、编写权威。可激发青少年的好奇心，满足他们的求知欲。是他们探索世界的工具。一卷在手。终生受益。拥有这样一部百科全书。已成为青少年未来人生丰富多彩的保证和一架通向成功之路的桥梁。

Thisbookhasgrownoutofoursomewhatdisorganizedattemptstoteachthephysicsandelectronicsofmesoscopievicesoverthepastdecade.Fortunately,thesehaveevolvedintoamoreconsistentapproach,andthebooktryiestobalanceexperimentsandtheoryinthecurrentunderstandingofmesoscopicphysics.Wheneverpossible,weattempttofirstintroducetheimportantexperimentalresultsinthisfieldfollowedbytherelevanttheoreticalapproaches.Thefocusofthebookisonelectronictransportinnanostructuresystems,andthereforebynecessitywehaveomittedmanyimportantaspectsofnanostructuressuchastheiropticalproperties,ordetailsofnanostructurefabrication.Duetolengthconsiderations,manygermaopicsrelatedtotransportitselfhavenotreceivedfullcoverage,orhavebeenreferredtobyreference.Also,duetoenormityoftheliteraturerelatedtothisfield,wehavenotincludedanexhavstivebibiographyofnanostructuretransport.Rather,wehavetriedtorefertheinterestedreadertoprehensivereviewarticlesandbookchapterswhenpossible.

本书共由“宴席菜谱、传统小吃、山珍美味、特色菜肴、清真美食、巍山特产”六个部分构成。“宴席菜谱”部分主要介绍了巍山各种宴席的菜谱组成、材料选用、制作方法、营养价值；“传统小吃”部分侧重介绍了巍山各种特色小吃的文化内涵、小吃特点、食用方法；“山珍美味”部分介绍了产自巍山的各种野生菜蔬和各种野生菌类以及烹饪、食用方法；“特色菜肴”部分介绍了用巍山传统烹饪方法制作出的各种菜肴；“清真美食”部分介绍了巍山回族的饮食文化、餐饮特点以及清真食品；“巍山特产”部分则是为您选购特产的购物指南。

全书由晶体结构、固体的结合、晶格振动与晶体的热学性质、能带理论、晶体中电子在电场和磁场中的运动、金属电子论、半导体电子论、固体的磁性、固体的光吸收、超导电的基本现象和基本规律、固体中的元激发、晶体的缺陷和扩散、相图等组成。

Solid State Physics is the study of the state of solids. Its development is acpanied by the development of modern science and technology. It contains many fundamental concepts that are essential to a great number of branches of science, including those within as well as those outside physics. An exhausted list of these branches is intimidating. Here we just name a few: Condensed matter physics, material science, semiconductor physics, laser physics, spin-tronics, physical optics, electric engineering, and electronic engineering. In solids, there exist a variety of particles (including quasiparticles and elementary excitations) and interactions among them. These particles and interactions determine the potential applications of various solids. For example, the peculiar band structure of electrons in semiconductors lead to transis-tors that are the heart of everything electronic; the electron-photon interactions lead to laser diodes, photodiodes, and CCDs (coupled charge diodes); the electron-phonon interaction