Classical and Quantum solutions in Scalar field cosmology via the Eisenhart lift and linearization

Andronikos Paliathanasis
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Abstract

This study introduces a novel approach for solving the cosmological field equations within scalar field theory by employing the Eisenhart lift. The field equations are reformulated as a system of geodesic equations for the Eisenhart metric. In the case of an exponential potential, the Eisenhart metric is shown to be conformally flat. By applying basic geometric principles, a new set of dynamical variables is identified, allowing for the linearization of the field equations and the derivation of classical cosmological solutions. However, the quantization of the Eisenhart system reveals a distinct set of solutions for the wavefunction, particularly in the presence of symmetry breaking at the quantum level.
通过艾森哈特提升和线性化实现标量场宇宙学中的经典和量子解
本研究介绍了一种在标量场理论中利用艾森哈特提升求解宇宙学场方程的新方法。场方程被重新表述为艾森哈特度量的大地方程组。在指数势的情况下,艾森哈特度量被证明是保角平坦的。通过应用基本几何原理,确定了一组新的动力学变量,从而实现了场方程的线性化和经典宇宙学解的推导。然而,艾森哈特系统的量子化揭示了一组不同的波函数解,特别是在量子水平对称性破缺的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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