@Mathematical Institute, Tohoku University

@Address: 6-3Aoba, Aramaki, Aoba-ku, Sendai-shi, JAPAN, 980-8578
@Tel: +81-022-795-6401 / Fax: +81-022-795-6400
@
Japanese/Graduate School of Information Sciences/Graduate School.Faculty of Science/Tohoku University

Professors
  • Shigetoshi BANDO, Ph.D.
    Differential geometry, with analytical method, in particular interested in Einstein metrics. Einstein metrics on real manifolds, Einstein-Kaehler metrics Einstein-Hermitian metrics on holomorphic vector bundles.

  • Masaki HANAMURA, Ph.D.
    Algebraic Geometry. In particular, algebraic cycles, cohomology theories, and theory of motifs.

  • Masanori ISHIDA, D.Sc.
    Algebraic geometry. In particular, complexes of modules associated to toric algebraic varieties.

  • Motoko KOTANI, D.Sc.
    Differential geometry. In particular, harmonic maps and related topics. Interested also in Graph theory.

  • Hideo KOZONO, D.Sc.
    Mathematical Physics and Functional Analysis.

  • Reiko Miyaoka, D.Sc.
    Differential geometry, In particular, Wave fronts, Special Geometry and related topics.

  • Seiki NISHIKAWA, D.Sc.
    Differential geometry. In particular, geometric variational problems, that is, nonlinear problems arising in geometry and topology studied from the point of view of global analysis.

  • Takayoshi OGAWA, D.Sc.
    Real analysis, Harmonic analysis and Applied analysis related to Partial differential equations.

  • Takashi SHIOYA, D.Sc.
    Riemannian geometry and geometric analysis. Especially, convergence of Riemannian manifolds, geometry and analysis on metric (measure) spaces.

  • Izumi TAKAGI, D.Sc.
    Nonlinear partial differential equations. In particular, reaction-diffusion equations which model biological pattern formation; and mathematical models of shape transformation in red blood cells.

  • Masayoshi TAKEDA, D.Sc.
    Probability theory. In particular, symmetric Markov processes generated by Dirichlet forms and large deviation theory.

  • Kazuyuki TANAKA, Ph.D.
    Mathematical logic and theory of computation. More specifically, models of first and second order arithmetic, reverse mathematics, descriptive set theory, higher-order computation.

  • Nobuo TSUZUKI,
    Number theory, Arithmetic geometry

  • Eiji YANAGIDA, D.Eng.
    Nonlinear analysis, in particular, reaction-diffusion systems,
    nonlinear parabolic and elliptic problems, and dynamical systems.

  • Akihiko YUKIE, Ph.D.
    Invariant theory and number theory.

Associate Professors
  • Yohji AKAMA, D.Sc.
    Tiling, Computational Learning, Information Security.

  • Hiroyuki CHIHARA, D.Sc.
    Partial differntial equations. In particular, the initial value problems for dispersive-type equations describing nonlinear waves.

  • Nobuo HARA, D.Sc.
    Commutative Algebra and Algebraic Geometry. In particular, ring-theoretic study of singularities of algebraic varieties in positive characteristic.

  • Yuu HARIYA, D.Sc.
    Probability theory. In particular, analysis on Wiener space.

  • Kazuhiro ISHIGE, D.Sc.
    Partial differential equations. In particular, parabolic equations.

  • Masaharu ISHIKAWA, Ph.D.
    Topology and Singularity Theory. In particular, topology of singularities coming from complex polynomial maps and its generalization in low-dimensional topology.

  • Hiroyasu IZEKI, D.Sc.
    Differential geometry. In particular, conformally flat manifolds and Kleinian groups from the viewpoint of conformal geometry of the ideal boundary.

  • Shinichi Kobayashi,


  • Makoto NAKAMURA, D.Sc.
    Partial differential equations. In particular, the well-posedness of initial value problems for nonlinear dispersive equations.

  • Shoetsu OGATA, D.Sc.
    Algebraic geometry. In particular, topological investigation on cusp singularities and degenerations of curves.

  • Satoru SHIMIZU, D.Sc.
    Several complex variables. In particular, the geometry of complex bounded domains with groups of automorphisms including Reinhardt domains, tube domains and so on.

  • Sumio YAMADA, Ph.D.
    Geometry and partial differential equations. In particular, 1) harmonic map and its applications in understanding geometry of moduli spaces, 2) minimal subvarieties, 3) general relativity.

  • Takao YAMAZAKI,
    Arithmetic geomety, number theory, algebraic geometry. Arithmetic of varieties over local fields.
  • Takeshi YAMAZAKI,


Lecturers
  • Koji HASEGAWA, D.Sc.
    Representation theory and its application to integrable systems. Working on: quantum groups, the Yang-Baxter equation and the two-dimensional solvable lattice statistical models.

Assistant Professors
  • Kazuhiro HORIHATA, D.Sc.
    Nonlinear partial differential equations. In particular, its applications to differential geometry and physics such as harmonic mappings on the Minkowski space and Ginzburg-Landau equations.

  • Yuya KODA, D.Sc.
    Topology and Knot Theory. In particular, invariants of knots and 3-manifolds..

  • Gen KUROKI, D.Sc.
    Representaion theory and quantum integrable systems. Application of affine Lie algebras, Virasoro algebras, vertex algebras, and quantum groups to conformal field theory, quantum isomonodromic systems, and quantum integrable systems.

  • Takeo Nishinou, D.Sc.
    Symplectic geometry, algebraic geometry and mathematical physics.

  • Atsushi SATO, D.Sc.
    Number theory. In particular, rational points on algebraic varieties defined over algebraic number fields, and Diophantine geometry.

  • Tokushi SATO, D.Sc.
    Nonlinear partial differential equations. In particular, singular solutions to semilinear elliptic equations in Euclidean spaces and the structure of the solution spaces by means of nonlinear functional analysis.

  • Keita Yokoyama, D.Sc.
    Mathematical logic. In particular, first and second order arithmetic, reverse mathematics and non-standard analysis.

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