Bibcode
Collados, M.
Referencia bibliográfica
"12th European Solar Physics Meeting, Freiburg, Germany, held September, 8-12, 2008. Online at http://espm.kis.uni-freiburg.de/, p.6.3"
Fecha de publicación:
9
2008
Número de citas
0
Número de citas referidas
0
Descripción
The European Solar Telescope (EST) is a project for a 4 meter-class
ground-based telescope, to be located in the Canary Islands. The project
is promoted by the European Association for Solar Telescopes (EAST), a
consortium formed by research organizations from 15 European countries.
EST will be optimized for studies of magnetic coupling between the deep
photosphere and upper chromosphere. The project has been approved for
funds by the European Union, within the FP-7 framework, to produce the
design of all systems and subsystems of the telescope during the next
three years. This includes the optical and optomechanical design of the
telescope itself and of the instruments and their control. MCAO will be
included in the optical path in a natural way to compensate for
atmospheric disturbances in an optimum way. The design of EST will
strongly emphasize the use of a large number of visible and
near-infrared instruments simultaneously which will influence the
telescope design from the very beginning. This communication will center
mainly on the scientific objectives that EST will address. Generally
speaking, they involve understanding how the magnetic field emerges
through the solar surface, interacts with the plasma dynamics to
transfer energy between different regions, and finally releases it in
the form of heat or as violent events in the solar chromosphere and
corona. Among the many topics of interest, one may cite, as described in
the EST Science Requirements Document: small-scale flux emergence in
quiet sun regions, large-scale magnetic structures, magnetic flux
cancellation processes, polar magnetic fields, magnetic topology of the
photosphere and chromosphere, conversion of mechanical to magnetic
energy in the photosphere, wave propagation from photosphere to
chromosphere, energy dissipation in the chromosphere at small and large
scales, etc. The present status and future perspectives of the project
will also be outlined.