4.7 Article

HR-pypopstar: high-wavelength-resolution stellar populations evolutionary synthesis model

期刊

出版社

OXFORD UNIV PRESS
DOI: 10.1093/mnras/stab1969

关键词

Galaxies: Stellar Content; Galaxies: stars clusters: general; Galaxies: evolution; stars: atmospheres; Stars: evolution

资金

  1. MINECO-FEDER (Unidad de Excelencia Maria de Maeztu CAB) [AYA2016-79724-C4-3-P, AYA2016-79724-C4-1-P, AYA201788007-C3-1-P, PGC-2018-0913741-B-C22, MDM-2015-0509, MDM-2017-0737]
  2. Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP) [2018/05392-8]
  3. Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) [310041/2018-0]

向作者/读者索取更多资源

The HR-pyPopStar model presents high-resolution spectral energy distributions of Single Stellar Populations, considering various ages and metallicities, with a focus on the importance of wavelength resolution for interpreting observational data from advanced astronomical instruments.
We present the HR-pyPopStar model, which provides a complete set (in ages) of high-resolution (HR) spectral energy distributions of Single Stellar Populations. The model uses the most recent high-wavelength-resolution theoretical atmosphere libraries for main-sequence, post-AGB/planetary nebulae and Wolf-Rayet stars. The spectral energy distributions are given for more than a hundred ages ranging from 0.1Myr to 13.8Gyr, at four different values of the metallicity (Z = 0.004, 0.008, 0.019, and 0.05), considering four different IMFs. The wavelength range goes from 91 to angstrom in linear steps delta lambda = 0.1 angstrom, giving a theoretical resolving power R-th,R- 5000 similar to 50 000 at 5000 angstrom. This is the main novelty of these spectra, unique for their age and wavelength ranges. The models include the ionizing stellar populations that are relevant at both young (massive hot stars) and old (planetary nebulae) ages. We have tested the results with some examples of HR spectra recently observed with MEGARA at GTC. We highlight the importance of wavelength resolution in reproducing and interpreting the observational data from the last and forthcoming generations of astronomical instruments operating at 8-10 m class telescopes, with higher spectral resolution than their predecessors.

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