On the Instanton Contributions to the Masses and Couplings of E6 Singlets

Abstract

We consider the gauge neutral matter in the low--energy effective action for string theory compactification on a \ with (2,2) world--sheet supersymmetry. At the classical level these states (the 's of E6) correspond to the cohomology group H1(, End\>T). We examine the first order contribution of instantons to the mass matrix of these particles. In principle, these corrections depend on the \ parameters ti through factors of the form e2 i ti and also depend on the complex structure parameters. For simplicity we consider in greatest detail the quintic threefold 4[5]. It follows on general grounds that the total mass is often, and perhaps always, zero. The contribution of individual instantons is however nonzero and the contribution of a given instanton may develop poles associated with instantons coalescing for certain values of the complex structure. This can happen when the underlying \ is smooth. Hence these poles must cancel between the coalescing instantons in order that the superpotential be finite. We examine also the \ couplings involving neutral matter \ and neutral and charged fields , which have been little investigated even though they are of phenomenological interest. We study the general conditions under which these couplings vanish classically. We also calculate the first--order world--sheet instanton correction to these couplings and argue that these also vanish.

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