Abstract
In MSSM scenarios where the gravitino is the lightest supersymmetric particle (LSP), and therefore a viable dark matter candidate, the stop $\tilde{t}_1$ could be the next-to-lightest superpartner (NLSP). For a mass spectrum satisfying: $m_{\widetilde{G}}+m_t>m_{\tilde{t}_1}>m_{\widetilde{G}}+m_b+m_W$, the stop decay is dominated by the 3-body mode $\tilde{t}_1\rightarrow b\,W\,\tilde{G}$. We calculate the stop life-time, including the full contributions from top, sbottom and chargino as intermediate states. We also evaluate the stop lifetime for the case when the gravitino can be approximated by the goldstino state. Our analytical results are conveniently expressed using an expansion in terms of the intermediate state mass, which helps to identify the massless limit. In the region of low gravitino mass ($m_{\widetilde{G}}\ll m_{\tilde{t}_1}$) the results obtained using the gravitino and goldstino cases turns out to be similar, as expected. However for higher gravitino masses $m_{\widetilde{G}} \lesssim m_{\tilde{t}_1}$ the results for the lifetime could show a difference of O(100)\%.
Highlights
The properties of supersymmetric theories, both in the ultraviolet or the infrared domain have had a great impact in distinct domains of particle physics, including model building, phenomenology, cosmology, and formal quantum field theory [1]
Supersymmetric extensions of the Standard Model can include a discrete symmetry, R parity, that guarantees the stability of the lightest supersymmetric particle (LSP) [2,3], which allows the LSP to be a good candidate for dark matter (DM)
We start by giving some relevant formulas for the input parameters that appear in the Feynman rules of the gravitino within the minimal supersymmetric extension of the Standard Model (MSSM)
Summary
The properties of supersymmetric theories, both in the ultraviolet or the infrared domain have had a great impact in distinct domains of particle physics, including model building, phenomenology, cosmology, and formal quantum field theory [1]. Candidates for the LSP in the minimal supersymmetric extension of the Standard Model (MSSM) include sneutrinos, the lightest neutralino χ10 and the gravitino G. Scenarios with the gravitino LSP as the DM candidate have been considered [6,7,8,9] In such scenarios, the nature of the next-to-lightest supersymmetric particle (NLSP) determines its phenomenology [10,11]. 2.1 we compute the squared amplitudes for the stop decay with gravitino in the final state (t1 → G W b) including the chargino, sbotom and top mediated states. 2.2 we compute the squared amplitudes for the stop decay considering the gravitino–goldstino high energy equivalence theorem that allow us to approximate the gravitino as the derivative of the goldstino. Conclusions are included in Sect. 4; all the analytic full results for the squared amplitudes are in Appendices A and B
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