Robert Penner

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Robert Clark Penner
Robert Penner.jpg
Born
Los Angeles, California, United States
Alma materCornell University
Massachusetts Institute of Technology
Scientific career
FieldsMathematics
Physics
Biology
InstitutionsInstitut des Hautes Etudes Scientifiques
Doctoral advisorJames Munkres
David Gabai

Robert Clark Penner is an American mathematician whose work in geometry and combinatorics has found applications in high-energy physics and more recently in theoretical biology. He is the son of Sol Penner, an aerospace engineer.

Biography[]

Robert Clark Penner received his B.S. degree from Cornell University in 1977 and his Ph.D. from the Massachusetts Institute of Technology in 1981, the latter under the direction of James Munkres and David Gabai. In his doctoral studies, he solved a 50 year old problem posed by Max Dehn on the action of the mapping class group on curves and arcs in surfaces, developed combinatorial aspects of Thurston's theory of train tracks and generalized Thurston's construction of pseudo-Anosov maps.[1]

After postdoctoral positions at Princeton University and at the Mittag-Leffler Institute, Penner spent most of the period of 1985–2003 at the University of Southern California. From 2004 until 2012, he worked at Aarhus University, where he co-founded with the .[2] Since 2013 Penner has held the position of the Rene Thom Chair in Mathematical Biology at the Institut des Hautes Etudes Scientifiques.[3]

Throughout his career Penner held various visiting positions around the world including Harvard University, Stanford University, Max-Planck-Institut für Mathematik at Bonn, University of Tokyo, Mittag-Leffler Institute, Caltech, UCLA, Fields Institute, University of Chicago, ETH Zurich, University of Bern, University of Helsinki, University of Strasbourg, University of Grenoble, .

Contributions to mathematics, physics, and biology[]

Penner's research began in the theory of train tracks including a generalization of Thurston's original construction of pseudo-Anosov maps to the so-called Penner-Thurston construction, which he used to give estimates on least dilatations. He then co-discovered the so-called Epstein-Penner decomposition of non-compact complete hyperbolic manifolds with David Epstein, in dimension 3 a central tool in knot theory. Over several years he developed the decorated Teichmüller theory of punctured surfaces including the so-called Penner matrix model, the basic partition function for Riemann's moduli space. Extending the foregoing to orientation-preserving homeomorphisms of the circle, Penner developed his model of universal Teichmüller theory together with its Lie algebra. He discovered combinatorial cocycles with for the first and with for the higher Johnson homomorphisms. Penner has also contributed to theoretical biology in joint work with et al. discovering a priori geometric constraints on protein geometry, and with Michael S. Waterman, , et al. introducing and solving the matrix model for RNA topology.

Main journal publications[]

  • The decorated Teichmüller space of punctured surfaces, Comm. Math. Phys. 113 (1987), no. 2, 299–339.
  • with D.B.A. Epstein: Euclidean decompositions of noncompact hyperbolic manifolds, J. Differential Geom. 27 (1988), no. 1, 67–80.
  • Perturbative series and the moduli space of Riemann surfaces, J. Differential Geom. 27 (1988), no. 1, 35–53.
  • A construction of pseudo-Anosov homeomorphisms, Trans. Amer. Math. Soc. 310 (1988), no. 1, 179–197.
  • Bounds on least dilatations, Proc. Amer. Math. Soc. 113 (1991), no. 2, 443–450.
  • Weil-Petersson volumes, J. Differential Geom. 35 (1992), no. 3, 559–608.
  • Universal constructions in Teichmüller theory, Adv. Math. 98 (1993), no. 2, 143–215.
  • The geometry of the Gauss product, Algebraic Geometry 4, (Festschrift for Yuri Manin) 81 (1996), 2700–2718.
  • with M.S. Waterman: Spaces of RNA secondary structures, Adv. Math. 101 (1993), no. 1, 31–49.
  • with : La forme symplectique de Weil-Petersson et le bord de Thurston de l'espace de Teichmüller, Comptes Rendus Acad. Sci. Paris 312 Série I (1991), 871–874.
  • with R. Kaufmann: Closed/open string diagrammatics, Nucl. Phys. B 748 (2006) 335–379.
  • with : Torelli groups, extended Johnson homomorphisms, and new cycles on the moduli space of curves, Math. Proc. Cambridge Philos. Soc. 144 (2008), no. 3, 651–671.
  • with , : Canonical extensions of the Johnson homomorphisms to the Torelli groupoid, Adv. Math. 221, No.2, (2009) 627–659.
  • with , , , , , , , , , , , : Hydrogen bond rotations as a uniform structural tool for analyzing protein architecture, Nature Communications 5, Article number: 5803 (2014).
  • with , , , , : Topology and prediction of RNA pseudoknots, Bioinformatics 27 (2011) 1076–1085.
  • with , , , : Topological recursion for chord diagrams, RNA complexes, and cells in moduli spaces, Nucl.Phys. B 866 No. 3 (2012) 414–443.
  • Moduli spaces and macromolecules, Bull. Amer. Math. Soc. 53 (2016) 217–268.
  • with : Decorated super-Teichmüller space, J. Differential Geom. 111 (2019), no. 3, 527-566.

Books[]

  • with the assistance of : Combinatorics of Train Tracks, 125, Princeton University Press (1992); second printing (2001).
  • Perspectives in Mathematical Physics, , edited by and Shing-Tung Yau (1994).
  • Discrete Mathematics--proof techniques and mathematical structures, World Scientific Publishing Company (1999); second printing (2001).
  • Woods Hole Mathematics: perspectives in math and physics, edited by and , foreword by Raul Bott, World Scientific Publishing Company (2004).
  • Groups of Diffeomorphisms-in honor of Shigeyuki Morita on the occasion of his 60th birthday, 52 (2008), Mathematical Society of Japan, edited by , , , , , .
  • Decorated Teichmüller theory, (with a foreword by Yuri I. Manin), , European Mathematical Society, Zürich, 2012, xviii+360 pp. ISBN 978-3-03719-075-3.
  • Topology and K-theory: Lectures by Daniel Quillen, Notes by Robert Penner, Springer-Verlag Lecture Notes in Mathematics (2020)

Patents[]

Methods of Digital Filtering and Multi-Dimensional Data Compression Using the Farey Quadrature and Arithmetic, Fan, and Modular Wavelets, US Patent 7,158,569 (granted 2Jan07)[4]

Philanthropy[]

In 2018 Penner endowed the Alexzandria Figueroa and Robert Penner Chair at the IHES in memoriam of Alexzandria Figueroa.[5]

References[]

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