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CLASSICAL AND QUANTUM GRAVITY

来源: 树人论文网 浏览次数:210次
所属分区:2区
周期:Semimonthly
ISSN:0264-9381
影响因子:3.487
是否开源:No
年文章量:367
录用比:较易
学科方向:天文与天体物理
研究方向:物理
通讯地址:IOP PUBLISHING LTD, DIRAC HOUSE, TEMPLE BACK, BRISTOL, ENGLAND, BS1 6BE
官网地址:http://iopscience.iop.org/0264-9381/
投稿地址:http://mc04.manuscriptcentral.com/cqg-iop
网友分享经验:较快,2-4周

CLASSICAL AND QUANTUM GRAVITY杂志中文介绍

经典和量子引力欢迎关于引力物理学和时空理论所有分支的原创研究文章。这本杂志的读者群很广,包括物理学、数学和宇宙学的引力理论家和实验主义者。所有的文章都应该引起广大读者的兴趣,并且应该包含一个总结,把这些发现放在更广泛的引力物理学的背景下。该期刊的详细报道包括但不限于:经典广义相对论:所有方面包括初值问题,数值相对论的技术和应用,精确解,拓扑和因果结构,奇点,规范和其他形式,Regge演算,twistor,动态三角剖分和其他模拟方法。精确解决方案政策。相对论的应用:包括相对论天体物理学,引力辐射,引力透镜,黑洞和坍塌物体,以及附近的物理过程。实验引力:包括引力波探测,引力理论测试,以及与引力明显相关的数据分析和仪器的文章。更多详情。宇宙学和早期宇宙:包括粒子物理学,大统一理论和相变,膨胀宇宙学,星系形成理论和大规模结构,宇宙微波背景辐射,宇宙弦和拓扑缺陷,以及宇宙拓扑。量子引力:所有方面包括规范和协变量子化,弯曲时空中的量子场论,半经典量子化,拓扑效应,规范和引力异常,量子宇宙学以及黑洞和信息损失的量子理论。超重力,超弦和超对称:包括弦理论的结构,M理论及其衍生,共形场理论,世界表对称性,弦真空,紧凑化和现象学应用,p-brane动力学,弦理论和M理论的非微扰方面。数学物理:与引力相关,特别是规范协变系统,弦和扩展对象,约束哈密顿系统,BRST量化,几何量化,重整化,路径积分,场理论的几何和拓扑,瞬时和非线性sigma模型,以及差分与引力相关的几何。

CLASSICAL AND QUANTUM GRAVITY杂志英文介绍

Classical and Quantum Gravity ,welcomes original research articles on all branches of gravitational physics and the theory of spacetime. The readership of the journal is broad, comprising gravitational theorists and experimentalists in physics, mathematics and cosmology. All articles should be of interest to this broad readership and should contain a summary that places the findings in the wider context of gravitational physics.The detailed coverage of the journal includes, but is not limited to:Classical general relativity: all aspects including initial-value problems, techniques and applications of numerical relativity, exact solutions, topology and causal structure, singularities, canonical and other formalisms, Regge calculus, twistors, dynamical triangulation and other simulation methods. Exact Solutions policy.Applications of relativity: including relativistic astrophysics, gravitational radiation, gravitational lenses, black holes and collapsed objects, and physical processes in their vicinity.Experimental gravitation: including gravitational wave detection, tests of gravitational theories, and articles on data analysis and instrumentation with a clear relevance to gravitation. Further details.Cosmology and the early universe: including particle physics, grand unified theories and phase transitions, inflationary cosmology, theories of galaxy formation and large-scale structure, cosmic microwave background radiation, cosmic strings and topological defects, and cosmic topology.Quantum gravity: all aspects including canonical and covariant quantization, quantum field theory in curved spacetime, semiclassical quantization, topological effects, gauge and gravitational anomalies, quantum cosmology and the quantum theory of black holes and information loss.Supergravity, superstrings and supersymmetry: including the structure of string theory, M-theory and its ramifications, conformal field theory, worldsheet symmetries, string vacua, compactifications and phenomenological applications, p-brane dynamics, nonperturbative aspects of string theory and M-theory.Mathematical physics: relevant to gravitation, specifically gauge-covariant systems, strings and extended objects, constrained Hamiltonian systems, BRST quantization, geometric quantization, renormalization, path integrals, geometry and topology of field theories, instantons and non-linear sigma models, and differential geometry relevant to gravitation.

CLASSICAL AND QUANTUM GRAVITY影响因子

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