Bibcode
DOI
Jiménez, A.; Roca-Cortés, T.; Severino, Giuseppe; Marmolino, Ciro
Referencia bibliográfica
The Astrophysical Journal, Volume 525, Issue 2, pp. 1042-1055.
Fecha de publicación:
11
1999
Revista
Número de citas
34
Número de citas referidas
27
Descripción
Helioseismic instruments aboard SOHO are making possible a more accurate
way of investigating the internal structure of the Sun. Making use of
the different techniques and characteristics of these instruments, it is
possible to measure solar oscillations as variations of the photospheric
velocity (GOLF, MDI) or as irradiance and radiance fluctuations (VIRGO,
MDI). Among the other advantages of observing solar oscillations
simultaneously with different instruments and techniques, the study of
velocity and irradiance measurements provides information on
nonadiabatic effects in the radiatively cooled solar atmosphere. The
thermodynamical properties of the atmosphere determine a phase shift
between intensity and velocity (downward positive) oscillations of -90
deg in the case of an adiabatic atmosphere. Here we compute the phase
differences and gains between intensity and velocity acoustic modes
measured by SOHO to quantify the nonadiabatic degree of the solar
atmosphere. After correcting the observed phase differences of the solar
background influence, we find not exactly an adiabactic behavior, but
close to it. Finally, we compare our results with three different
theoretical models of the solar atmosphere, finding the best agreement
with a model that includes turbulent pressure associated with convection
and fluctuations of the superadiabatic temperature gradient.