In Sect. 2.1, we discuss general properties of the crosscap state and the partition function on the Klein bottle. We also give a definition of the crosscap entropy and explain its relation to the crosscap overlap. In Sect. 2.2, we compute the crosscap overlap in integrable field theories....
Yang, Gauss-Bonnet correction to Holographic thermalization: two-point functions, circular Wilson loops and entanglement entropy, Phys. Rev. D 88 (2013) 086006 [arXiv:1309.3764] [INSPIRE]. Article ADS Google Scholar H. Liu and S. J. Suh, Entanglement Tsunami: Universal Scaling in Holographic...
On the pure gauge axis (t/μ = 0) the model exhibits a topological phase transition without local order parameters2. Instead, the scaling of non-local Wegner-Wilson loops with their area/perimeter distinguishes the confined from the deconfined phase. Remarkably, the pure gauge model is ...
Using the holographic mapping to a gravity dual, we calculate 2-point functions, Wilson loops, and entanglement entropy in strongly coupled field theories ... V Balasubramanian,A Bernamonti,J De Boer,... - 《Physical Review Letters》 被引量: 467发表: 2011年 Thermalization of mutual and tripa...
对神经意识理论的多尺度整合视角 An integrative, multiscale view on neural theories of consciousness 摘要 意识体验与物质大脑过程之间的关系如何?近年来,意识研究的兴起催生了多种旨在回答这一古老问题的理论,其中一些理论现在正受到热烈讨论。尽管迄今为止,大多数研究人员主要集中在相对独立的环境中开发和验证他们偏好...
(N) Vector Models in the Limitg鈫抔cand Finite TemperatureTHERMO-FIELD DYNAMICSEquilibrium and Non-Equilibrium Thermal PhysicsThe Problem of Ground State in Thermo-Field DynamicsFeynman Diagram Recipes in TFDEntangled States and Diagramatics atT鈮 0Entropy in Inhomogeneous TFDA Formulation of Time-...
We consider these relationships as self-loops for their first arguments, which are aggregated into sub-nodes. The most discussed sub-nodes tend to have a high number of such self-loop relationships, and the descriptive phrases often carry powerful characterizations of these entities. Sub-node-...
We obtain there differential equations that can be used to fix the space-time evolution of the temperature and fluid velocity. Particularly interesting is an equation one can derive in that way for entropy production. This is discussed in subsection 5.3 and also a local form of the second law...
The coefficient d was initially obtained from holographic entanglement entropy [46], and also agrees with a calculation from the superconformal index [51] and explicit supergravity calculations for M = 1 at large N [52–54]. With these results, we get that in the large N limit a22 ∼ M...
Midway through each clip, the lecturer asked the students to discuss the spontaneous change in the system over time and compare the entropy of the system in different states. The students discovered that in every example, entropy could only increase spontaneously. For each of the examples, the ...