Recent searches for solar axions and large extra dimensions
Abstract
We analyze the data from two recent experiments designed to search for solar axions within the context of multidimensional theories of the Kaluza-Klein type. In these experiments, axions were supposed to be emitted from the solar core, in M1 transitions between the first excited state and the ground state of 57Fe and 7Li. Because of the high multiplicity of axionic Kaluza-Klein states which couple with the strength of ordinary QCD axions, we obtain much more stringent experimental limits on the four-dimensional Peccei-Quinn breaking scale fPQ, compared with the solar QCD axion limit. Specifically, for the 57Fe experiment, fPQ>1x106 GeV in theories with two extra dimensions and a higher-dimensional gravitational scale MH of order 100 TeV, and fPQ>1x106 GeV in theories with three extra dimensions and MH of order 1 TeV (to be compared with the QCD axion limit, fPQ>8x103 GeV). For the 7Li experiment, fPQ>1.4x105 GeV and 3.4x105 GeV, respectively (to be compared with the QCD axion limit, fPQ>1.9x102 GeV). It is an interesting feature of our results that, in most cases, the obtained limit on fPQ cannot be coupled with the mass of the axion, which is essentially set by the (common) radius of the extra dimensions.
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