Title |
Evolutionary effects in helium core burning star atmospheres / |
Translation of Title |
Evoliuciniai cheminės sudėties pokyčiai helį centre deginančių žvaigždžių atmosferose. |
Authors |
Puzeras, Eduardas |
Full Text |
|
Pages |
77 |
Keywords [eng] |
stars ; abundances-stars ; evolution-stars |
Abstract [eng] |
Modern observations provide evidences that the ‘standard’ stellar evolution model is incomplete and should take into account ‘extra’-mixing processes. This dissertation is dedicated to an observational study of the Galactic red clump as well as to investigations of evolutionary effects in atmospheres of low-mass helium-core burning stars and evaluation of theoretical models of extra-mixing processes in interiors of stars. For this purpose, the high-resolution spectra of 62 Galactic red clump stars and 9 evolved stars of the old open cluster NGC 7789 have been analysed and the main atmospheric parameters and chemical compositions were determined. The investigation confirmed the hypothesis that clump stars of the Galaxy are relatively young objects, reflecting mainly the near–solar metallicities developed in the local disk during the last few billion years of its history. Mixing induced carbon and nitrogen abundance modifications in the Galactic clump stars were investigated. The clump stars can be divided into distinct evolutionary groups using the 12C/13C criterion. The carbon isotope ratios of the Galactic clump stars are consistent with the Cool Bottom Processing (CBP) extra-mixing model; the Thermohaline extra-mixing model needs to be complemented in order to agree with observational data. The carbon isotope ratios in the NGC 7789 stars indicate a larger extra–mixing than it is foreseen by theoretical models. |
Type |
Doctoral thesis |
Language |
English |
Publication date |
2011 |