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相关论文: Three-Dimensional Quantum Gravity Coupled to Gauge…

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The phase structure of four-dimensional simplicial quantum gravity coupled to U(1) gauge fields has been studied using Monte-Carlo simulations. The smooth phase is found in the intermediate region between the crumpled phase and the branched…

高能物理 - 格点 · 物理学 2009-10-31 S. Horata , H. S. Egawa , N. Tsuda , T. Yukawa

The geometry of 4D simplicial quantum gravity with a U(1) gauge field is studied numerically. The phase diagram shows a continuous transition when gravity is coupled with a U(1) gauge field. At the critical point measurements of the…

高能物理 - 格点 · 物理学 2009-10-31 H. S. Egawa , S. Horata , T. Yukawa

We establish the phase diagram of three--dimensional quantum gravity coupled to Ising matter. We find that in the negative curvature phase of the quantum gravity there is no disordered phase for ferromagnetic Ising matter because the…

高能物理 - 格点 · 物理学 2009-10-22 R. L. Renken , S. M. Catterall , J. B. Kogut

We investigate the phase structure of four-dimensional quantum gravity coupled to Ising spins or Gaussian scalar fields by means of numerical simulations. The quantum gravity part is modelled by the summation over random simplicial…

高能物理 - 理论 · 物理学 2009-10-22 J. Ambjorn , Z. Burda , J. Jurkiewicz , C. F. Kristjansen

The phase transition of 4D simplicial quantum gravity coupled to U(1) gauge fields is studied using Monte-Carlo simulations. The phase transition of the dynamical triangulation model with vector field ($N_{V}=1$) is smooth as compared with…

高能物理 - 格点 · 物理学 2015-06-25 H. S. Egawa , S. Horata , N. Tsuda , T. Yukawa

The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of transitions in an expanded phase diagram which includes a coupling mu to the order of the vertices. Monte Carlo renormalization group and…

高能物理 - 格点 · 物理学 2009-10-30 Ray L. Renken , Simon M. Catterall , John B. Kogut

We propose a scalable analog quantum simulator for quantum electrodynamics (QED) in two spatial dimensions. The setup for the U(1) lattice gauge field theory employs inter-species spin-changing collisions in an ultra-cold atomic mixture…

量子气体 · 物理学 2021-09-29 Robert Ott , Torsten V. Zache , Fred Jendrzejewski , Jürgen Berges

The physics of quantum gravity is discussed within the framework of topological quantum field theory. Some of the principles are illustrated with examples taken from theories in which space-time is three dimensional.

广义相对论与量子宇宙学 · 物理学 2009-10-28 John W. Barrett

A framework for quantum field theory coupled to three-dimensional quantum gravity is proposed. The coupling with quantum gravity regulates the Feynman diagrams. One recovers the usual Feynman amplitudes in the limit as the cosmological…

广义相对论与量子宇宙学 · 物理学 2009-11-11 John W. Barrett

(2+1) dimensional gravity is equivalent to an exactly soluble non-Abelian Chern-Simons gauge field theory (E Witten 1988). Regarding this as the topological phase of quantum gravity in (2+1)d, we suggest a topological symmetry breaking by…

高能物理 - 理论 · 物理学 2007-05-23 Wei Chen

The effect of coupling non-compact $U(1)$ gauge fields to four dimensional simplicial quantum gravity is studied using strong coupling expansions and Monte Carlo simulations. For one gauge field the back-reaction of the matter on the…

高能物理 - 格点 · 物理学 2009-10-30 S. Bilke , Z. Burda , A. Krzywicki , B. Petersson , J. Tabaczek , G. Thorleifsson

In this note, we attempt to provide some insights into the structure of non-perturbative descriptions of quantum gravity using known examples of gauge-theory / gravity duality. We argue that in familiar examples, a quantum description of…

高能物理 - 理论 · 物理学 2010-03-24 Mark Van Raamsdonk

In this thesis we investigate some aspects of quantum field theories from a holographic perspective. In the first chapters we examine in detail a one-paremeter family of three-dimensional gauge theories by means of their type IIA gravity…

高能物理 - 理论 · 物理学 2021-07-06 Javier G. Subils

Controlling the continuum limit and extracting effective gravitational physics are shared challenges for quantum gravity approaches based on quantum discrete structures. The description of quantum gravity in terms of tensorial group field…

广义相对论与量子宇宙学 · 物理学 2023-04-07 Luca Marchetti , Daniele Oriti , Andreas G. A. Pithis , Johannes Thürigen

The gravity is classically formulated as the geometric curvature of the space-time in general relativity which is completely different from the other well-known physical forces. Since seeking a quantum framework for the gravity is a great…

高能物理 - 理论 · 物理学 2014-09-29 Cao H. Nam

Four dimensional gauge theories in anti-de Sitter space, including pure Yang-Mills theory, exhibit a quantum phase transition between a deconfined phase and a confined phase as the gauge coupling is varied. We explore various mechanisms by…

高能物理 - 理论 · 物理学 2015-06-11 Ofer Aharony , Micha Berkooz , David Tong , Shimon Yankielowicz

Four-dimensional simplicial quantum gravity is modified either by coupling it to U(1) gauge fields or by introducing a measure weighted by the orders of the triangles. Strong coupling expansion and Monte Carlo simulations are used. Although…

高能物理 - 格点 · 物理学 2009-10-31 S. Bilke , Z. Burda , A. Krzywicki , B. Petersson , J. Tabaczek , G. Thorleifsson

A pedagogical introduction to some of the main ideas and results of field theories on quantized spacetimes is presented, with emphasis on what such field theories may teach us about the problem of quantizing gravity. We examine to what…

高能物理 - 理论 · 物理学 2014-11-20 Richard J. Szabo

We present in detail a four-dimensional unified quantum theory. In this theory, we identify three class of parameters, coordinate-momentum, spin and gauge, as all and as the only fundamental parameters to describe quantum fields. The…

综合物理 · 物理学 2009-11-23 Chang-Yu Zhu , Heng Fan

We explore an extended coupling constant space of 4d regularized Euclidean quantum gravity, defined via the formalism of dynamical triangulations. We add a measure term which can also serve as a generalized higher curvature term and…

高能物理 - 格点 · 物理学 2014-04-08 J. Ambjorn , L. Glaser , A. Goerlich , J. Jurkiewicz
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