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   Ardila, Federico; Denham, Graham; Huh, June (July 2023, Journal of the American Mathematical Society)

   We introduce the conormal fan of a matroid M \operatorname {M} , which is a Lagrangian analog of the Bergman fan of M \operatorname {M} . We use the conormal fan to give a Lagrangian interpretation of the Chern–Schwartz–MacPherson cycle of M \operatorname {M} . This allows us to express the h h -vector of the broken circuit complex of M \operatorname {M} in terms of the intersection theory of the conormal fan of M \operatorname {M} . We also develop general tools for tropical Hodge theory to prove that the conormal fan satisfies Poincaré duality, the hard Lefschetz theorem, and the Hodge–Riemann relations. The Lagrangian interpretation of the Chern–Schwartz–MacPherson cycle of M \operatorname {M} , when combined with the Hodge–Riemann relations for the conormal fan of M \operatorname {M} , implies Brylawski’s and Dawson’s conjectures that the h h -vectors of the broken circuit complex and the independence complex of M \operatorname {M} are log-concave sequences. 

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2. Geomorphology of Lagrangian ridges

   https://doi.org/10.1112/topo.12232  

   Álvarez‐Gavela, Daniel; Eliashberg, Yakov; Nadler, David (June 2022, Journal of Topology)
3. Trisecting non-Lagrangian theories

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   Gukov, Sergei (November 2017, Journal of High Energy Physics)
4. Infinitely many Lagrangian fillings

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   Casals, Roger; Gao, Honghao (January 2022, Annals of Mathematics)
5. Lagrangian combinatorics of matroids

   https://doi.org/10.5802/alco.263  

   Ardila, Federico; Denham, Graham; Huh, June (January 2023, Algebraic Combinatorics)