Аннотация:
In 1973 B. Josephson received Nobel Prize for discovering a
new fundamental effect in superconductivity concerning a system
of two superconductors separated by a very narrow dielectric:
there could exist a supercurrent tunneling through
this junction (called Josephson junction). One of the known
models of the overdamped Josephson junction used a family
of non-linear first order differential equations. Motivated by
problems on Josephson effect, V. M. Buchstaber, O. V. Karpov
and S. I. Tertychnyi studied this family in a series of papers
(see JETP 2001 and later). They introduced and studied an
equivalent family of dynamical systems on 2-torus. Motivated
by dynamical systems point of view, Yu. S. Ilyashenko and
J. Guckenheimer suggested and studied a subfamily of this
family on 2-torus as an interesting slow-fast system in 2001.
Analogous systems arose in different models of mathematics,
mechanics and physics that a priori were not related one to
the other.
The classical rotation number of the family of dynamical
systems on 2-torus is a function of parameters of the family
(identified with the average voltage through a long time interval).
The $r$-th level set of the rotation number function is called the $r$-th phase-lock area, if it has non-empty interior.
Our family is very atypical: the phase-lock areas exist
only for integer values of the rotation number, in difference
to the classical Arnold tongue picture (the quantization effect
discovered by V. M. Buchstaber, O. V. Karpov and S. I. Tertychnyi
in 2010). The complexification of our family is the
projectivization of a family of classical double confluent Heun
equations: second order linear differential equations on the
Riemann sphere with two irregular singular points at 0 and
infinity.
In the talk we will present results on geometric and analytic
properties of the boundaries of the phase-lock areas. We will
discuss several important geometric conjectures on the phaselock
areas and analytic conjectures on Heun equations and relations
between them. We will present the state of art in this
area including recent works of V. M. Buchstaber, S. I. Tertychnyi,
A. A. Glutsyuk, V. A. Kleptsyn, D. A. Filimonov,
I. V. Schurov.
Acknowledgements. Research of V. M. Buchstaber was
supported by Russian Foundation for Basic Research (RFBR)
grants 14-01-00506, 17-01-00192. Research of A. A. Glutsyuk
was supported by Russian Science Foundation (RSF) grant 18-
41-05003, by Russian Foundation for Basic Research (RFBR)
grants 13-01-00969-a, 16-01-00748, 16-01-00766, and by French
National Research Agency (ANR) grant ANR-13-JS01-0010.