New curvature flows in complex geometry

Abstract: The Anomaly flow is a flow of (2, 2)-forms on a 3-fold which was originally motivated by string theory and the need to preserve the conformally balanced property of a Hermitian metric in the absence of a ∂∂-Lemma. It has revealed itself since to be a remarkable higher order extension of the Ricci flow. It has also led to several other curvature flows which may be interesting from the point of view of both non-Kähler geometry and the theory of non-linear partial differential equations. This is a survey of what … Show more

“…On the complex aspect, the Ricci flow preserves the Kähler condition ( [1]) and is reduced to a scalar equation with Monge-Ampère type, which after suitable normalization converges to a solution of the Calabi conjecture ( [28,1]). The non-Kähler analogue of Ricci flow also generates much interest recently, among them are the Chern-Ricci flow ( [25]), the Anomaly flow ( [11]) and etc, and we refer to [10] for a survey on the recent development of non-Kähler geometric flows. The analytic minimal model program, laid out in [20], predicts how the Kähler-Ricci flow behaves on a projective variety.…”

Kähler–Ricci flow on blowups along submanifolds

“…On the complex aspect, the Ricci flow preserves the Kähler condition ( [1]) and is reduced to a scalar equation with Monge-Ampère type, which after suitable normalization converges to a solution of the Calabi conjecture ( [28,1]). The non-Kähler analogue of Ricci flow also generates much interest recently, among them are the Chern-Ricci flow ( [25]), the Anomaly flow ( [11]) and etc, and we refer to [10] for a survey on the recent development of non-Kähler geometric flows. The analytic minimal model program, laid out in [20], predicts how the Kähler-Ricci flow behaves on a projective variety.…”

Kähler–Ricci flow on blowups along submanifolds

“…[1]) and Goldstein and Prokushkin showed in [26] that for a Ricci-flat base and an appropriate choice of the principal torus bundle, the total space has trivial canonical bundle and admits a balanced metric. Starting from the result of Goldstein and Prokushkin, Fu and Yau showed that the Hull-Strominger system on some principal torus fibrations on K3 manifolds can be reduced to a complex Monge-Ampère type equation for a scalar function on the base, and solved it by means of hard analytical techniques (see also [46,50]).…”

“…Since then, and the work by Li and Yau [41], the successive studies of different analytical and geometrical aspects of the Hull-Strominger system have had an important influence to non-Kähler complex geometry (see for instance [15,24,50]). Up to now the biggest pool of solutions is provided by the choice of ∇ given by the Chern connection [7,8,[16][17][18][19]23,43,44,[46][47][48][49][50], which includes the first solutions found by Fu, Li, Tseng, and Yau.…”

“…Since then, and the work by Li and Yau [41], the successive studies of different analytical and geometrical aspects of the Hull-Strominger system have had an important influence to non-Kähler complex geometry (see for instance [15,24,50]). Up to now the biggest pool of solutions is provided by the choice of ∇ given by the Chern connection [7,8,[16][17][18][19]23,43,44,[46][47][48][49][50], which includes the first solutions found by Fu, Li, Tseng, and Yau. More recently, new examples of solutions of the Hull-Strominger system on non-Kähler torus bundles over K3 surfaces originally considered by Fu and Yau, with the property that the connection ∇ is Hermitian-Yang-Mills have been constructed in [25].…”

Solutions to the Hull–Strominger System with Torus Symmetry

“…For other relevant results on the Anomaly flow, we refer the reader to [4,12,14,37,39]; while, for some results on the Hermitian curvature flow in the homogeneous setting we refer the reader to [3,10,28,36,35,42,43,46,50].…”

The Hull-Strominger system and the Anomaly flow on a class of solvmanifolds