Oscillatory integral operators and variable Schr\"odinger propagators: beyond the universal estimates

We consider a class of H\"ormander-type oscillatory integral operators in Rⁿ for n 3 odd with real analytic phase. We derive weak conditions on the phase which ensure Lᵖ bounds beyond the universal p 2 n+1n-1 range guaranteed by Stein's oscillatory integral theorem. This expands and elucidates pioneering work of Bourgain from the early 1990s. We also consider a closely related class of variable coefficient Schr\"odinger propagator-type operators, and show that the corresponding theory differs significantly from that of the H\"ormander-type operators. The main ingredient in the proof is a curved Kakeya/Nikodym maximal function estimate. This is established by combining the polynomial method with certain uniform sublevel set estimates for real analytic functions. The sublevel set estimates are the main novelty in the argument and can be interpreted as a form of quantification of linear independence in the C^ category.