论文标题
部分可观测时空混沌系统的无模型预测
Holographic superconductivity in Einsteinian Cubic Gravity
论文作者
论文摘要
我们研究了$(3+1)$ - 尺寸在爱因斯坦立方引力的背景下的电荷标量场的凝结,其渐近性广告背景具有较高的曲率校正,具有较高的曲率校正,与CFT相对应,与CFT相对应,该校正与CFT相对应,该CFT具有与压力探测器的三分线trift triver Triver tigoint Function $ t_4 $ t_4 $ t_4 $ t_4 $ t_4 $ t _4 $ t _4 $ t _4 $ t_4 $ t_4 $ t_4 $ t_4。正如先前注意到的,对于更高的高斯河网理论,我们观察到,随着较高的曲率耦合的增长,超导相变的临界温度降低。
We study the condensation of a charged scalar field in a $(3+1)$-dimensional asymptotically AdS background in the context of Einsteinian cubic gravity, featuring a holographic superconductor with higher curvature corrections corresponding to a CFT with a non-vanishing value of the stress tensor three-point function $t_4$. As it was previously noticed for higher dimensional Gauss-Bonnet theory, we observe that the critical temperature of the superconducting phase transition is lowered as the higher curvature coupling grows.
