实验粒子物理是当今物理学研究的前沿之一。在粒子物理实验中，由粒子源轰击其他粒子产生反应，探测器系统测量反应产物获取实验数据，再通过离线数据分析取得物理结果。在这一过程中，粒子探测器与数据获取是核心环节。 本书作者在广泛、深入掌握本学科发展的基础上，结合自己多年的实际工作经验，详细地介绍了粒子物理实验中常用的各种类型的探测器，包括多丝正比室、多种类型的漂移室、闪烁计数器、硅微条探测器、切伦科夫计数器、穿越辐射探测器、量能器、大型谱仪等，以及读出电子学与仪器的总线标准，触发判选系统和在线数据获取系统。本书对粒子探测器的物理基础、性能、应用的叙述简明扼要，包括了近20年来本领域的新发展的内容，注意实用性。 本书适合于从事粒子物理实验与核物理实验的科研人员，大学相关专业高年级学生、

Recent years have brought a revival of work on string theory, which haeen a source of fascination since its origins nearly twenty years ago.There seems to be a widely perceived need for a systematic, pedagogical exposition of the present state of knowledge about string theory. We hope that thiook will help to meet this need. To give a prehensive account of such a vast topic as string theory would scarcely be possible,even in two volumes with the length to which these have grown. Indeed,we have had to omit many important subjects, while treating others only sketchily. String field theory is omitted entirely (though the subject of chapter 11 is closely related to light-cone string field theory). Conformal field theory is not developed systematically, though much of the background material needed to understand recent papers on this subject is presented in chapter 3 and elsewhere.

Recent years have brought a revival of work on string theory, which haeen a source of fascination since its origins nearly twenty years ago.There seems to be a widely perceived need for a systematic, pedagogical exposition of the present state of knowledge about string theory. We hope that thiook will help to meet this need. To give a prehensive account of such a vast topic as string theory would scarcely be possible,even in two volumes with the length to which these have grown. Indeed,we have had to omit many important subjects, while treating others only sketchily. String field theory is omitted entirely (though the subject of chapter 11 is closely related to light-cone string field theory). Conformal field theory is not developed systematically, though much of the background material needed to understand recent papers on this subject is presented in chapter 3 and elsewhere.

Recent years have brought a revival of work on string theory, which haeen a source of fascination since its origins nearly twenty years ago.There seems to be a widely perceived need for a systematic, pedagogical exposition of the present state of knowledge about string theory. We hope that thiook will help to meet this need. To give a prehensive account of such a vast topic as string theory would scarcely be possible,even in two volumes with the length to which these have grown. Indeed,we have had to omit many important subjects, while treating others only sketchily. String field theory is omitted entirely (though the subject of chapter 11 is closely related to light-cone string field theory). Conformal field theory is not developed systematically, though much of the background material needed to understand recent papers on this subject is presented in chapter 3 and elsewhere.

本书系统地总结了冲击波压缩科学在力学、物理和化学方面的研究成果，从冲击波压缩的基本概念出发，讲述了冲击波压缩科学的起源、良性学说和灾变学说，冲击波压缩下固体的弹性、塑性、加载波和卸载波等力学响，应，固体的压电、铁电、铁磁、电阻率、电极化等物理性质，以及冲击波压缩下固体的活化、改性、化学合成等化学效应。本书从力学、物理和化学的多学科角度，阐述了固体的强度效应、局域变形、高浓度缺陷等特性在冲击波压缩过程中的意义，介绍了冲击波压缩科学的发展方向。 本书可作为力学、物理、化学、材料科学、地球和天体科学等专业高年级本科生和研究生的参考书，也可供动高压物理、爆炸与冲击动力学研究领域的科研人员参考使用，对国防、民用工程和新材料开发领域的工程技术人员有着重要的参考价值。

本书内容涵盖粒子物理基础、宇宙线的物理（加速、相互作用）和天文（起源、传播）问题及其探测方法。针对目前广为采用的大气簇射实验，本书侧重讨论了大气簇射中宇宙线各成分（包括强子、光子、μ子和中微子）的理论模型及数值模拟方法。书中的理论分析简明直观，密切结合实验，具有较强的针对性。读者通过本书可以对宇宙线这个学科有整体和适当深度的了解。本书适合作为物理学专业高年级本科生和研究生的入门教材。对粒子物理标准模型和天文学有基础性的了解有助于对本书的理解。本书亦适合工作在宇宙线领域的专家学者参考。

Recent years have brought a revival of work on string theory, which haeen a source of fascination since its origins nearly twenty years ago.There seems to be a widely perceived need for a systematic, pedagogical exposition of the present state of knowledge about string theory. We hope that thiook will help to meet this need. To give a prehensive account of such a vast topic as string theory would scarcely be possible,even in two volumes with the length to which these have grown. Indeed,we have had to omit many important subjects, while treating others only sketchily. String field theory is omitted entirely (though the subject of chapter 11 is closely related to light-cone string field theory). Conformal field theory is not developed systematically, though much of the background material needed to understand recent papers on this subject is presented in chapter 3 and elsewhere.