Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes

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Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes. / Polosukhina, N.; Shavrina, A.; Lyashko, D.; Nesvacil, N.; Drake, N.; Smirnova, M.

In: Publications of the Astronomical Society of the Pacific, Vol. 494, 2015, p. 184-188.

Research output: Contribution to journal › Article

Harvard

Polosukhina, N, Shavrina, A, Lyashko, D, Nesvacil, N, Drake, N & Smirnova, M 2015, 'Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes', Publications of the Astronomical Society of the Pacific, vol. 494, pp. 184-188. <http://adsabs.harvard.edu/abs/2015ASPC..494..184P>

APA

Polosukhina, N., Shavrina, A., Lyashko, D., Nesvacil, N., Drake, N., & Smirnova, M. (2015). Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes. Publications of the Astronomical Society of the Pacific, 494, 184-188. http://adsabs.harvard.edu/abs/2015ASPC..494..184P

Vancouver

Polosukhina N, Shavrina A, Lyashko D, Nesvacil N, Drake N, Smirnova M. Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes. Publications of the Astronomical Society of the Pacific. 2015;494:184-188.

Author

Polosukhina, N. ; Shavrina, A. ; Lyashko, D. ; Nesvacil, N. ; Drake, N. ; Smirnova, M. / Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes. In: Publications of the Astronomical Society of the Pacific. 2015 ; Vol. 494. pp. 184-188.

BibTeX

@article{0476955163b44d8ea50fd31b80ef86da,

title = "Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes",

abstract = "The lines of lithium at 6708 {\AA} and 6103 {\AA} are analyzed in high resolution spectra of some sharp-lined and slowly rotating roAp stars. Three spectral synthesis codes— STARSP, ZEEMAN2, and SYNTHM—were used. New lines of rare earth elements (REE) from the DREAM database and the lines calculated on the basis of the NIST energy levels were included. Magnetic splitting and other line broadening processes were taken into account. For both lithium lines, the enhanced abundances of lithium in the atmospheres of the stars studied are obtained. The lithium abundance determined from the Li 6103 {\AA} line is higher than that from the Li 6708 {\AA} for all the stars. This may be evidence of vertical lithium stratification, abnormal temperature distribution, or unidentified blending of the 6103 {\AA} line. Our work on two roAp stars, HD 83368 and HD 60435 (Shavrina et al. 2001) provides evidence of an enhanced lithium abundance near the magnetic-field poles. We can expect similar effects in the sharp-lined roAp stars. High lithium abu",

keywords = "stellar atmospheres, magnetic fields, chemical abundances, peculiar stars",

author = "N. Polosukhina and A. Shavrina and D. Lyashko and N. Nesvacil and N. Drake and M. Smirnova",

year = "2015",

language = "English",

volume = "494",

pages = "184--188",

journal = "Publications of the Astronomical Society of the Pacific",

issn = "0004-6280",

publisher = "University of Chicago Press",

}

RIS

TY - JOUR

T1 - Lithium and Isotopic Ratio Li6/Li7 in Magnetic roAp Stars as an Indicator of Active Processes

AU - Polosukhina, N.

AU - Shavrina, A.

AU - Lyashko, D.

AU - Nesvacil, N.

AU - Drake, N.

AU - Smirnova, M.

PY - 2015

Y1 - 2015

N2 - The lines of lithium at 6708 Å and 6103 Å are analyzed in high resolution spectra of some sharp-lined and slowly rotating roAp stars. Three spectral synthesis codes— STARSP, ZEEMAN2, and SYNTHM—were used. New lines of rare earth elements (REE) from the DREAM database and the lines calculated on the basis of the NIST energy levels were included. Magnetic splitting and other line broadening processes were taken into account. For both lithium lines, the enhanced abundances of lithium in the atmospheres of the stars studied are obtained. The lithium abundance determined from the Li 6103 Å line is higher than that from the Li 6708 Å for all the stars. This may be evidence of vertical lithium stratification, abnormal temperature distribution, or unidentified blending of the 6103 Å line. Our work on two roAp stars, HD 83368 and HD 60435 (Shavrina et al. 2001) provides evidence of an enhanced lithium abundance near the magnetic-field poles. We can expect similar effects in the sharp-lined roAp stars. High lithium abu

AB - The lines of lithium at 6708 Å and 6103 Å are analyzed in high resolution spectra of some sharp-lined and slowly rotating roAp stars. Three spectral synthesis codes— STARSP, ZEEMAN2, and SYNTHM—were used. New lines of rare earth elements (REE) from the DREAM database and the lines calculated on the basis of the NIST energy levels were included. Magnetic splitting and other line broadening processes were taken into account. For both lithium lines, the enhanced abundances of lithium in the atmospheres of the stars studied are obtained. The lithium abundance determined from the Li 6103 Å line is higher than that from the Li 6708 Å for all the stars. This may be evidence of vertical lithium stratification, abnormal temperature distribution, or unidentified blending of the 6103 Å line. Our work on two roAp stars, HD 83368 and HD 60435 (Shavrina et al. 2001) provides evidence of an enhanced lithium abundance near the magnetic-field poles. We can expect similar effects in the sharp-lined roAp stars. High lithium abu

KW - stellar atmospheres

KW - magnetic fields

KW - chemical abundances

KW - peculiar stars

M3 - Article

VL - 494

SP - 184

EP - 188

JO - Publications of the Astronomical Society of the Pacific

JF - Publications of the Astronomical Society of the Pacific

SN - 0004-6280

ER -

ID: 5797408