We study the summands of the decomposition theorem for the Hitchin system for GLn, in arbitrary degree, over the locus of reduced spectral curves. A key ingredient is a new correspon- dence between these summands and the topology of hypertoric quiver varieties. In contrast to the case of meromorphic Higgs fields, the intersection cohomology groups of moduli spaces of regular Higgs bundles depend on the degree. We describe this dependence. n , in arbitrary degree, over the locus of reduced spectral curves. A key ingredient is a new correspondence between these summands and the topology of hypertoric quiver varieties. In contrast to the case of meromorphic Higgs fields, the intersection cohomology groups of moduli spaces of regular Higgs bundles depend on the degree. We describe this dependence.
Mauri, M., Migliorini, L. (2025). Hodge-to-singular correspondence for reduced curves. JOURNAL OF THE EUROPEAN MATHEMATICAL SOCIETY, ANCORA IN VERSIONE ONLINE FIRST https://ems.press/journals/jems/articles/online-first, 1-46 [10.4171/jems/1508].
Hodge-to-singular correspondence for reduced curves
Mauri, Mirko
Co-primo
;Migliorini, Luca
Co-primo
2025
Abstract
We study the summands of the decomposition theorem for the Hitchin system for GLn, in arbitrary degree, over the locus of reduced spectral curves. A key ingredient is a new correspon- dence between these summands and the topology of hypertoric quiver varieties. In contrast to the case of meromorphic Higgs fields, the intersection cohomology groups of moduli spaces of regular Higgs bundles depend on the degree. We describe this dependence. n , in arbitrary degree, over the locus of reduced spectral curves. A key ingredient is a new correspondence between these summands and the topology of hypertoric quiver varieties. In contrast to the case of meromorphic Higgs fields, the intersection cohomology groups of moduli spaces of regular Higgs bundles depend on the degree. We describe this dependence.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
