论文标题
部分可观测时空混沌系统的无模型预测
Supersymmetric Quantum Chiral Higher Spin Gravity
论文作者
论文摘要
我们研究了超对称n = 1的量子特性,n = 4尺寸骨性手性较高自旋重力(Hisgras)的4个延伸。我们讨论了光谱,经典的作用,并在轻度仪表中定义了n = 1的feynman规则,n = 4个超空。使用这些Feynman规则,我们为这些系统计算树和一环振幅。对具有n = 2超对称性并具有较高较高自旋场的系统的尺寸还原,并讨论了该系统的量子性能。
We study quantum properties of supersymmetric N=1 and N=4 extensions of the four dimensional bosonic Chiral Higher Spin Gravities (HiSGRAs). We discuss the spectra, the classical actions and define the Feynman rules in N=1 and N=4 superspaces in the light-front gauge. Using these Feynman rules, we compute tree and one-loop amplitudes for these systems. A dimensional reduction to a system with N=2 supersymmetry and with massive higher spin fields is performed and quantum properties of this system are discussed.
