On the structure of Brieskorn lattices, II

Morihiko Saito

Journal of Singularities
volume 18 (2018), 248-271

Received: 6 December 2017. Accepted: 21 January 2018.

DOI: 10.5427/jsing.2018.18l

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Abstract:

We give a simple proof of the uniqueness of extensions of good sections for formal Brieskorn lattices, which can be used in a paper of C. Li, S. Li, and K. Saito for the proof of convergence in the non-quasihomogeneous polynomial case. Our proof uses an exponential operator argument as in their paper, although we do not use polyvector fields nor smooth differential forms. We also present an apparently simpler algorithm for an inductive calculation of the coefficients of primitive forms in the Brieskorn-Pham polynomial case. In a previous paper on the structure of Brieskorn lattices, there were some points which were not yet very clear, and we give some explanations about these, e.g. on the existence and the uniqueness of primitive forms associated with good sections, where we present some rather interesting examples. In Appendix we prove the uniqueness up to a nonzero constant multiple of the higher residue pairings in some formal setting which is different from the one in the main theorem. This is questioned by D. Shklyarov.


Author(s) information:

Morihiko Saito
RIMS Kyoto University
Kyoto 606-8502 Japan