2,661 research outputs found
CCD PHOTOMETRY OF RR LYRAE STARS IN M5 AS A TEST FOR THE PULSATIONAL SCENARIO
In this paper we present new CCD investigations of RR Lyrae pulsators in the
Oo.I globular cluster M5. B V curves of light for 15 RR Lyrae are presented.
With the addition of further 11 curves of light by Storm, Carney and Beck
(1991) one is dealing with a sample of 26 well studied cluster pulsators whose
properties have been implemented with similar data for RR Lyrae in clusters M3,
M15, M68 to allow a comparison with the theoretical scenario recently presented
by Bono and Stellingwerf (1994). On this basis, we discuss the distribution of
stars in the period amplitude diagram, disclosing a substantial reduction of
Sandage's period shift. We suggest that theoretical constraints concerning
periods and amplitudes could allow information on masses and luminosity of the
pulsators directly from Bailey's diagram only. Static temperatures have been
derived for all stars in the sample, discussing the dependence on the
temperature of the observed pulsational properties.Comment: postscript file of 17 pages of text plus 7 figures and 2 tables. For
any problem please write to [email protected]
Pulsational M_V versus [Fe/H] relation(s) for globular cluster RR Lyrae variables
We use the results from recent computations of updated non-linear convective
pulsating models to constrain the distance modulus of Galactic globular
clusters through the observed periods of first overtone RRc pulsators. The
resulting relation between the mean absolute magnitude of RR Lyrae stars
and the heavy element content [Fe/H] appears well in the range of
several previous empirical calibrations, but with a non linear dependence on
[Fe/H] so that the slope of the relation increases when moving towards larger
metallicities. On this ground, our results suggest that metal-poor
([Fe/H]-1.5) variables follow two different
linear -[Fe/H] relations. Application to RR Lyrae stars in the
metal-poor globular clusters of the Large Magellanic Cloud provides a LMC
distance modulus of the order of 18.6 mag, thus supporting the "long" distance
scale. The comparison with recent predictions based on updated stellar
evolution theory is shortly presented and discussed.Comment: 8 pages, 4 postscript figures, accepted for publication on MNRA
RR Lyrae variables in M5 as a test of pulsational theory
We present B and V CCD photometry for variables in the cluster central
region, adding new data for 32 variables and giving suitable light curves, mean
magnitudes and corrected colors for 17 RR Lyrae. Implementing the data given in
this paper with similar data already appeared in the literature we discuss a
sample of 42 variables, as given by 22 RRab and 20 RRc, to the light of recent
predictions from pulsational theories. We find that the observational evidence
concerning M5 pulsators appears in marginal disagreement with predictions
concerning the color of the First Overtone Blue Edge (FOBE), whereas a clear
disagreement appears between the ZAHB luminosities predicted through
evolutionary or pulsational theories.Comment: 7 pages, 7 postscript figures, accepted for publication on MNRA
Which radius for the Sun?
The high accuracy reached by solar limb observations, by helioseismic
measurements and by Standard Solar Models (SSMs) calculations suggests that
general relativity corrections are included when discussing the solar radius.
The Allen value (R = 695.99 0.07 Mm) has to be reduced by 1.5
Km. This correction, which is small as compared with present accuracy, should
be kept in mind for future more precise measurements and/or calculations.Comment: Latex, 3 page
The Hot End of Evolutionary Horizontal Branches
In this paper we investigate the hot end of the HB, presenting evolutionary
constraints concerning the CM diagram location and the gravity of hot HB stars.
According to the adopted evolutionary scenario, we predict an upper limit for
HB temperatures of about logTe = 4.45, remarkably cooler than previous
estimates. We find that such a theoretical prescription appears in good
agreement with available observational data concerning both stellar
temperatures and gravities.Comment: postscript file of 10 pages plus 1 tables,rep.1 5 figures will be
added later as postscript file The tex file and the other two not postscript
figures are available upon request at [email protected], rep.
Stellar models for very low mass main sequence stars: the role of model atmospheres
We present Very Low Mass stellar models as computed including non-grey model
atmospheres for selected assumptions about the star metallicities. The role of
atmospheres is discussed and the models are compared with models based on the
Eddington approximation and with similar models appeared in the recent
literature. Theoretical predictions concerning both the HR diagram location and
the mass-luminosity relation are presented and discussed in terms of
expectations in selected photometric bands. Comparison with available
observational data concerning both galactic globular clusters and dwarfs in the
solar neighborhood reveals a satisfactory agreement together with the existence
of some residual mismatches.Comment: 10 pages including 13 figures, gzip postscript file, To be published
in MNRA
Theoretical Zero Age Main Sequences revisited
Zero Age Main Sequence (ZAMS) models with updated physical inputs are
presented for selected assumptions about the chemical composition, covering the
ranges 0.6 < M/Mo < 1.2, 0.0001 < Z < 0.04, 0.23 < Y < 0.34.The HR diagram
location of the ZAMS as a function of Y and Z is discussed both in the
theoretical and in the observational HR diagrams, showing that the V magnitude
presents an increased dependence on Z to be taken into account when discussing
observational evidences. Analytical relations quantifying both these
dependences are derived. Implications for the galactic helium to heavier
elements enrichment are finally discussed.Comment: 4 pages, 4 postscript figures, accepted for publication on Astronomy
& Astrophysic
RR Lyrae Stars in NGC 6388 and NGC 6441: A New Oosterhoff Group?
NGC 6388 and NGC 6441 are anomalies among Galactic globular clusters in that
they cannot be readily place into either Oosterhoff group I or Oosterhoff group
II despite their significant numbers of RR Lyrae variables. The mean pulsation
periods, , of their RRab variables, at 0.71 d and 0.76 d, respectively,
are even larger than for Oosterhoff II clusters. Moreover, Oosterhoff II
clusters are very metal-poor, whereas NGC 6388 and NGC 6441 are the most
metal-rich globular clusters known to contain RR Lyrae stars. The location of
the NGC 6388 and NGC 6441 RRab variables in the period-amplitude diagram
implies that the RR Lyrae stars in those two clusters are brighter than
expected for their metallicities. Our results therefore indicate that a
universal relationship may not exist between the luminosity and the metallicity
of RR Lyrae variables.Comment: Four pages, three figures. ApJ (Letters), in pres
Predicted HST FOC and broad band colours for young and intermediate Simple Stellar Populations
This paper presents theoretical HST and broad band colours from population
synthesis models based on an homogeneous set of stellar evolutionary tracks as
computed under canonical (no overshooting) assumptions, covering the range of
cluster ages from t=8 Myr to t=5 Gyr for three different metallicities (Z=0.02,
0.006, and 0.001). Statistical fluctuations in the cluster population have been
investigated, assessing the predicted fluctuations of the various colours as a
function of the cluster integrated absolute magnitude. We show that the red
leak in HST UV filters deeply affects the predicted fluxes and colours.
However, we find that for F152M-F307M < 0.5 and for F170M-F278M < 0.5 (which
means ages lower than 1 Gyr) the HST UV colours can still be used to infer
reliable indications on the age of distant clusters. Moreover, one finds that
the age calibration of these colours is scarcely affected by the amount of
original helium or by the assumed IMF. On this basis, we present a calibration
of the HST UV two-colours (F152M-F307M vs F170M-F278M) in terms of cluster ages
for the three above quoted metallicities. We suggest the combined use of HST UV
colours and IR colours (V-K in particular) to disentangle the metallicity-age
effect in integrated colours of young stellar populations (t< 1 Gyr).Comment: Latex 18 pages, 16 encapsulated figures, 6 tables, A&ASS accepte
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