Complex Monge-Ampère equation for positive $(p,p)$ forms on compact Kähler manifolds

Abstract: A complex Monge-Amp`ere equation for differential $(p,p)$ forms is introduced on compact K\"ahler manifolds. For any $1 \leq p < n$, we show the existence of smooth solutions unique up to adding constants. For $p=1$, this corresponds to the Calabi-Yau theorem proved by S. T. Yau, and for $p=n-1$, this gives the Monge-Amp`ere equation for $(n-1)$ plurisubharmonic functions solved by Tosatti-Weinkove. For other $p$ values, this defines a non-linear PDE that falls outside of the general framework of Caffarelli-Nirenberg-Spruck. Further, we define a geometric flow for higher-order forms that preserves their cohomology classes, and extends the K\"ahler-Ricci flow naturally to $(p,p)$ forms. As a consequence of our main theorem, we show that this flow exists in a maximal time interval and can be shown to converge under some assumptions. A modified flow is introduced and the convergence of the associated normalized flow is shown. Some potential applications are also discussed.