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Positivity properties of the deformed hermitian-yang--mills and related equations /

By:

Pingali, Vamsi Pritham

Contributor(s):

Advised by Pingali, Vamsi Pritham [Advisor]

Material type: Text

TextLanguage: English Publication details: Bangalore : Indian Institute of Science, 2025.Description: vi, 75 p. : col. ill. ; e-Thesis 692.4 KbSubject(s):

DDC classification:

516.36 BAL

Online resources:

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Dissertation note: PhD;2025;Mathematics Summary: In the first part of the talk, we briefly introduce the deformed Hermitian-Yang-Mills (dHYM) equation and discuss a result regarding the solvability of the twisted dHYM equation on compact Kähler three-folds with slightly negative twisting functions. We then indicate how this result, along with a theorem of Chen and methods introduced by Datar–Pingali, can be used to show that the twisted dHYM equation on compact, projective manifolds can be solved if certain non-uniform numerical positivity conditions analogous to the ones used in the Demailly–Paun characterization of Kähler cones are satisfied. As a corollary, one obtains another proof, in the projective case, of a theorem of Chu–Lee–Takahashi addressing a conjecture of Collins–Jacob–Yau. For the second part of the talk, we turn our attention to Monge-Ampère-positivity (MA-positivity), a notion of positivity introduced by Pingali for the study of a generalization of the complex Monge-Ampère equation to vector bundles. In particular, preservation of MA-positivity along a continuity path turns out to be crucial in proving the existence of solutions to the vector bundle Monge-Ampère (vbMA) equation. We discuss the preservation of MA-positivity for rank-two holomorphic bundles over complex surfaces and rank-two vortex bundles over complex three-folds. Lastly, we mention the existence of counterexamples to an algebraic version of MA-positivity preservation for vector bundles of rank-three and higher over complex manifolds of dimension greater than one.

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Holdings
Item type	Current library	Call number	URL	Status	Date due	Barcode
Thesis	JRD Tata Memorial Library	516.36 BAL (Browse shelf(Opens below))	Link to resource	Not for loan		ET01019

Includes bibliographical references

PhD;2025;Mathematics

In the first part of the talk, we briefly introduce the deformed Hermitian-Yang-Mills (dHYM) equation and discuss a result regarding the solvability of the twisted dHYM equation on compact Kähler three-folds with slightly negative twisting functions. We then indicate how this result, along with a theorem of Chen and methods introduced by Datar–Pingali, can be used to show that the twisted dHYM equation on compact, projective manifolds can be solved if certain non-uniform numerical positivity conditions analogous to the ones used in the Demailly–Paun characterization of Kähler cones are satisfied. As a corollary, one obtains another proof, in the projective case, of a theorem of Chu–Lee–Takahashi addressing a conjecture of Collins–Jacob–Yau. For the second part of the talk, we turn our attention to Monge-Ampère-positivity (MA-positivity), a notion of positivity introduced by Pingali for the study of a generalization of the complex Monge-Ampère equation to vector bundles. In particular, preservation of MA-positivity along a continuity path turns out to be crucial in proving the existence of solutions to the vector bundle Monge-Ampère (vbMA) equation. We discuss the preservation of MA-positivity for rank-two holomorphic bundles over complex surfaces and rank-two vortex bundles over complex three-folds. Lastly, we mention the existence of counterexamples to an algebraic version of MA-positivity preservation for vector bundles of rank-three and higher over complex manifolds of dimension greater than one.

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