Antonella
Marini
Professor, Department of Mathematics at Yeshiva College
Wilf campus - Belfer Hall
Room#536
2495 Amsterdam Avenue
New York, NY 10033
Antonella Marini was born in Italy. She did her graduate studies in Mathematics at the University of Chicago, specializing in boundary value problems in gauge theories. She has worked at the Courant Institute of NYU as a Postdoctoral Fellow, at the University of Utah as a full time Instructor, at the University of L'Aquila as a tenured Researcher and as a tenured Associate Professor.
Her research involves the areas of Geometric Analysis, Partial Differential Equations and Mathematical Physics. More specifically, it focuses on nonlinear partial differential equations and boundary value problems arising in gauge theories, such as Yang-Mills and Yang-Mills-Higgs theory, bosonic field theories and nonlinear Hodge and Hodge-Frobenius Theory. Other research interests include the Calculus of Variations, harmonic maps, Ginzburg Landau vortices, quantum field theories (related to her work on gauge theories); elliptic--hyperbolic equations and applications (related to her work on the Hodge-Frobenius equations). Her teaching interests include Ordinary and Partial Differential Equations with applications to modeling in environmental and biological sciences, Calculus and Advanced Calculus, Topology, Linear Algebra, Abstract Algebra, Real and Complex Variables, Functional Analysis, Geometric Analysis, Morse Theory, Differential Geometry and Lie Groups.
Instructorship Award at the University of Utah.
Selected publications on Boundary Value problems in Gauge Theories, Quantum Mechanics and Field Theory:
[M], Moncrief V., Maitra R., A Euclidean signature semi-classical program. Commun. Analysis and Geometry, to appear.
Moncrief V., [M], Maitra R., Orbit space curvature as a source of mass in quantum gauge theory. Ann. Math. Sci. Appl., 4 (2019), no. 2, 313-366. 81T13 (81S10)
[M], Maitra R., Moncrief V., Euclidean signature semi-classical methods for bosonic field theories: interacting scalar fields. Ann. Math. Sci. Appl. 1 (2016), no. 1, 3鈥55. 81Q20 (35J10)
Moncrief V., [M], Maitra R., Modified semi-classical methods for nonlinear quantum oscillations problems. J. Math. Phys. 53 (2012), no. 10, 103516, 51 pp. 81Q20
Isobe T., [M], Small coupling limit and multiple solutions to the Dirichlet problem for Yang-Mills connections in four dimensions. I. J. Math. Phys. 53 (2012), no. 6, 063706, 39 pp. 53C07 (81T13)
[M], A boundary value problem for monopoles over a 3-dimensional disk. Int. J. Geom. Methods Mod. Phys. 1 (2004), no. 4, 405鈥422. 58E15 (53C07 58E50)
[M], Sadun L., Spherically symmetric solutions of a boundary value problem for monopoles. J. Math. Phys. 44 (2003), no. 3, 1071鈥1083. 58E15 (53C07 81T13)
[M], Regularity theory for the generalized Neumann problem for Yang-Mills connections鈥攏on-trivial examples in dimensions 3 and 4. Math. Ann. 317 (2000), no. 1, 173鈥193. 58E15 (53C07)
Isobe T., [M], On topologically distinct solutions of the Dirichlet problem for Yang-Mills connections. Calc. Var. Partial Differential Equations 5 (1997), no. 4, 345鈥358. 58E15 (53C07)
[M], Elliptic boundary value problems for connections: a non-linear Hodge theory. Workshop on the Geometry and Topology of Gauge Fields (Campinas, 1991). Mat. Contemp. 2 (1992), 195鈥205. 58G20 (53C07)
[M], Dirichlet and Neumann boundary value problems for Yang-Mills connections. Comm. Pure Appl. Math. 45 (1992), no. 8, 1015鈥1050. 58E15 (35Q99)
[M], Boundary value problems for Yang-Mills connections. C. R. Acad. Sci. Paris S茅r. I Math. 312 (1991), no. 7, 503鈥508. 58E15 (53C07 58G20)
Bauman P., [M], Nesi V., Univalent solutions of an elliptic system of partial differential equations arising in homogenization, Indiana Univ. Math. J. 50 (2001), no. 2, 747鈥757. 35J45 (31A05 35B27)
Wilf campus - Belfer Hall
Room#536
2495 Amsterdam Avenue
New York, NY 10033