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      Palatini-Higgs inflation with non-minimal derivative coupling

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          Abstract

          The predictions of standard Higgs inflation in the framework of the metric formalism yield a tensor-to-scalar ratio \(r \sim 10^{-3}\) which lies well within the expected accuracy of near-future experiments \( \sim 10^{-4}\). When the Palatini formalism is employed, the predicted values of \(r\) get highly-suppressed \(r\sim 10^{-12}\) and consequently a possible non-detection of primordial tensor fluctuations will rule out only the metric variant of the model. On the other hand, the extremely small values predicted for \(r\) by the Palatini approach constitute contact with observations a hopeless task for the foreseeable future. In this work, we propose a way to remedy this issue by extending the action with the inclusion of a generalized non-minimal derivative coupling term between the inflaton and the Einstein tensor of the form \(m^{-2}(\phi) G_{\mu\nu}\nabla^{\mu}\phi \nabla^{\nu}\phi\). We find that with such a modification, the Palatini predictions can become comparable with the ones obtained in the metric formalism, thus providing ample room for the model to be in contact with observations in the near future.

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          Author and article information

          Journal
          14 August 2020
          Article
          2008.06371
          6675b0bb-9e64-4348-b06e-788b724b8cea

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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          Custom metadata
          23 pages, 2 figures, 1 table
          gr-qc astro-ph.CO

          Cosmology & Extragalactic astrophysics,General relativity & Quantum cosmology

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