In this paper we introduce a general version of the Loewner differential equation which allows us to present a new and unified treatment of both the radial equation introduced in 1923 by K. Loewner and the chordal equation introduced in 2000 by O. Schramm. In particular, we prove that evolution families in the unit disc are in one to one correspondence with solutions to this new type of Loewner equations. Also, we give a Berkson-Porta type formula for non-autonomous weak holomorphic vector fields which generate such Loewner differential equations and study in detail geometric and dynamical properties of evolution families.
Bracci, F., Contreras, M., Diaz Madrigal, S. (2012). Evolution families and the Loewner equation I: the unit disc. JOURNAL FÜR DIE REINE UND ANGEWANDTE MATHEMATIK, 672, 1-37 [10.1515/CRELLE.2011.167].
Evolution families and the Loewner equation I: the unit disc
BRACCI, FILIPPO;
2012-01-01
Abstract
In this paper we introduce a general version of the Loewner differential equation which allows us to present a new and unified treatment of both the radial equation introduced in 1923 by K. Loewner and the chordal equation introduced in 2000 by O. Schramm. In particular, we prove that evolution families in the unit disc are in one to one correspondence with solutions to this new type of Loewner equations. Also, we give a Berkson-Porta type formula for non-autonomous weak holomorphic vector fields which generate such Loewner differential equations and study in detail geometric and dynamical properties of evolution families.File | Dimensione | Formato | |
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