Constraints on the neutrino magnetic dipole moment: the tip-RGB luminosity of globular clusters

Arceo-Díaz, S.; Schröder, K.-P.; Zuber, K.; Jack, D.

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Revista mexicana de astronomía y astrofísica

Print version ISSN 0185-1101

Rev. mex. astron. astrofis vol.51 n.2 Ciudad de México Oct. 2015

Constraints on the neutrino magnetic dipole moment: the tip-RGB luminosity of globular clusters

S. Arceo-Díaz,¹ K.-P. Schröder,¹ K. Zuber,² and D. Jack¹

¹ Departamento de Astronomía, Universidad de Guanajuato.

² Institut für Kern- und Teilchenphysik.

Received June 2 2014.
Accepted March 5 2015.

RESUMEN

En este trabajo comparamos las predicciones sobre la luminosidad del extremo superior de la rama de gigantes rojas para estrellas de poca masa a partir de modelos estelares construidos con el código de evolución estelar Cambridge-STARS, con la información observacional de 25 cúmulos globulares, parte de la base de datos homogénea más grande en el cercano infrarrojo. Encontramos que 12 cúmulos globulares suficientemente poblados (encabezados por ω Centauri, el más masivo de la galaxia) sugieren μ₁₂ ≤ 2.2 x 10^-12μB, mientras que la combinación de las incertidumbres de los modelos estelares y de las observaciones establecen μ₁₂ ≤ 2.6 x 10^-12μB. Finalmente, utilizando espectros sintéticos construidos con el código PHOENIX para atmósferas estelares, estimamos cualitativamente el efecto de μ_v en el brillo de bandas específicas en el cercano infra-rojo.

ABSTRACT

In this work we compared the predictions about the tip-RGB bolometric luminosity of low-mass stars in stellar models built with the Cambridge-STARS code for stellar evolution, with the evidence provided by the observational data of 25 globular clusters from the largest homogeneous database in the NIR. We found that 12 well populated globular clusters (headed up by ω Centauri, the largest globular cluster in the galaxy) suggest μ₁₂ ≤ 2.2 x 10^-12μB, while the uncertainties of both the stellar models and the observations require the more robust constraint μ₁₂ ≤ 2.6 x 10^-12μB. Finally, using synthetic spectra constructed with the PHOENIX code for stellar atmospheres, we qualitatively estimated the effect on the brightness of specific NIR-bands.

Key Words: globular clusters: general — neutrinos.

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