String (In)Stability Issues with Broken Supersymmetry

Q2 Physics and Astronomy
J. Mourad, A. Sagnotti
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引用次数: 8

Abstract

We review the main results of our investigations motivated by the tadpole potentials of ten–dimensional strings with broken supersymmetry. While these are at best partial indications, it is hard to resist the feeling that they do capture some lessons of String Theory. For example, these very tadpole potentials lead to weak-string-coupling cosmologies that appear to provide clues on the onset of the inflation from an initial fast roll. The transition, if accessible to us, would offer a natural explanation for the lack of power manifested by the CMB at large angular scales. In addition, the same tadpole potentials can drive spontaneous compactifications to lower–dimensional Minkowski spaces at corresponding length scales. Furthermore, the cosmological solutions exhibit an intriguing “instability of isotropy” that, if taken at face value, would point to an accidental origin of compactification. Finally, symmetric static AdS× S solutions driven by the tadpole potentials also exist, but they are unstable due to mixings induced by their internal fluxes. On the other hand, the original Dudas–Mourad solution is perturbatively stable, and we have gathered some detailed evidence that instabilities induced by internal fluxes can be held under control in a similar class of weak–coupling type–I IB compactifications to Minkowski space. Invited contribution to the special issue of Letters in High Energy Physics (LHEP) on “Swampland and String Theory Landscape”, edited by I. Antoniadis, K. Benakli and E. Dudas
破缺超对称的弦稳定性问题
我们回顾了由破缺超对称十维弦的蝌蚪势所激发的主要研究结果。虽然这些充其量只是部分迹象,但很难不让人觉得它们确实抓住了弦理论的一些教训。例如,这些蝌蚪势导致了弱弦耦合宇宙学,它似乎提供了从最初的快速滚动开始的暴胀的线索。如果我们能观测到这种转变,就能很自然地解释宇宙微波背景在大角度尺度上表现出的能量不足。此外,相同的蝌蚪电位可以驱动相应长度尺度下的低维闵可夫斯基空间的自发紧化。此外,宇宙学解表现出一种有趣的“各向同性不稳定性”,如果从表面上看,这将指向紧化的偶然起源。最后,也存在由蝌蚪电位驱动的对称静态adsxs溶液,但由于其内部通量引起的混合而不稳定。另一方面,原始的Dudas-Mourad解是微扰稳定的,并且我们已经收集了一些详细的证据,证明由内通量引起的不稳定性可以在类似Minkowski空间的一类弱耦合i型IB紧化中被控制。应邀为《高能物理快报》(LHEP)关于“沼泽和弦理论景观”的特刊撰稿,由I. Antoniadis, K. Benakli和E. Dudas编辑
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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来源期刊
Letters in High Energy Physics
Letters in High Energy Physics Physics and Astronomy-Nuclear and High Energy Physics
CiteScore
1.20
自引率
0.00%
发文量
4
审稿时长
12 weeks
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