Araştırma Çıktıları / Research Outcomes
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Publication Higgs mechanism for new massive gravity and Weyl-invariant extensions of higher-derivative theories(American Physical Society (APS), 2011-07-19) Suat Dengiz; Bayram TekinPublication Unitarity of Weyl-invariant new massive gravity and generation of graviton mass via symmetry breaking(American Physical Society (APS), 2012-03-06) M. Reza Tanhayi; Suat Dengiz; Bayram TekinPublication Weyl gauging of topologically massive gravity(American Physical Society (APS), 2012-11-06) Suat Dengiz; Ercan Kilicarslan; Bayram TekinPublication Weyl-invariant higher curvature gravity theories inndimensions(American Physical Society (APS), 2012-03-12) M. Reza Tanhayi; Suat Dengiz; Bayram TekinPublication Scattering in topologically massive gravity, chiral gravity, and the corresponding anyon-anyon potential energy(American Physical Society (APS), 2014-01-27) Suat Dengiz; Ercan Kilicarslan; Bayram TekinPublication More on Cotton flow(Springer Science and Business Media LLC, 2015-06) Ercan Kilicarslan; Suat Dengiz; Bayram TekinPublication Faddeev–Jackiw Hamiltonian reduction for free and gauged Rarita–Schwinger theories(Springer Science and Business Media LLC, 2016-10) Suat DengizPublication A noncompact Weyl–Einstein–Yang–Mills model: A semiclassical quantum gravity(Elsevier BV, 2017-08) Suat DengizPublication Note on soft photons and Faddeev–Jackiw symplectic reduction of quantum electrodynamics in the eikonal limit(World Scientific Pub Co Pte Lt, 2018-09-10) Suat DengizIn this note, we go over the recent soft photon model and Faddeev–Jackiw quantization of the massless quantum electrodynamics in the eikonal limit to some extent. Throughout our readdressing, we observe that the gauge potentials in both approaches become pure gauges and the associated eikonal Faddeev–Jackiw quantum bracket matches with the soft quantum bracket. These observations and the fact that the gauge fields in two cases localize in two-dimensional plane (even if it is spatial in soft photon case and (1[Formula: see text]+[Formula: see text]1)-dimensional Minkowski in the eikonal case) imply that there might be an interesting relation between these two distinct perspectives.Publication High temperature behavior of non-local observables in boosted strongly coupled plasma: a holographic study(Springer Science and Business Media LLC, 2020-07) Atanu Bhatta; Shankhadeep Chakrabortty; Suat Dengiz; Ercan KilicarslanAbstractIn this work, we perform a holographic analysis to study non local observables associated to a uniformly boosted strongly coupled large N thermal plasma in d-dimensions. In order to accomplish the holographic analysis, the appropriate dual bulk theory turns out to be $$d+1$$d+1 dimensional boosted AdS-Schwarzschild blackhole background. In particular, we compute entanglement entropy of the boosted plasma at high temperature living inside a strip geometry with entangling width l in the boundary at a particular instant of time. We also study the two-point correlators in the boundary by following geodesic approximation method. For analyzing the effect of boosting on the thermal plasma and correspondingly on both non local observables, we keep the alignment of the width of region of interest both parallel and perpendicular to the direction of the boost. We find our results significantly modified compared to those in un-boosted plasma up to the quadratic order of the boost velocity v. More interestingly, the relative orientation of the boost and the entangling width play a crucial role to quantify the holographic entanglement entropy in the boundary theory. The breaking of rotational symmetry in the boundary theory due to the boosting of the plasma along a specific flat direction causes this interesting feature.