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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The variability of M dwarfs

Goulding, Niall Thomas January 2013 (has links)
M dwarfs have been the subject of renewed interest as potential habitable planet hosts and have increasingly become the targets of planet detection surveys. Currently, however, the number of detections of transiting M dwarf planets remain low. The characterisation of M dwarf activity is an important consideration for such surveys, and provides constraints on the modelling of magnetically active low mass stars. Currently the spottedness of M dwarfs is not well understood owing to their intrinsic faintness and the lack of diagnostics for assessing starspot morphologies and distributions. The WFCAM Transit Survey (WTS) contains long term observations of M dwarfs in the near infra-red and presents an opportunity to study the long term variability of M dwarfs. The M dwarfs in the WTS are identified by use of colour-spectral type relations, and the periodically variable M dwarfs in the sample are detected using a Lomb-Scargle periodogram analysis. A total of 72 periodically variable M dwarfs are found with periods ranging from 0.16 to 90.33 days. The relations between the spectral subtypes, amplitudes and periods are studied and comparisons to earlier works studying M dwarf rotation are made. A number of examples of significant spot evolution are found, which exhibit complex light curve morphologies that vary in form and amplitude over periods of months to years. This provides an indication as to the nature of the spottedness of these stars. Simulations are performed to probe the connection between spot coverage, temperature and light curve amplitude. Using the results from these simulations, the spot coverage fractions of the WTS M dwarfs are estimated and they are found to be heavily spotted. Dynamic models with spots evolving at various average rates are used to explore how spot evolution can drive increased dispersion in the light curves, and to what extent this affects the detectability of periodicity by the method used. It is found that spot evolution can invoke significant noise in an M dwarf light curve, and in combination with photon noise, can in some instances inhibit the detection of a period. In reflection of the results, the relation between the light curve dispersion and spot coverage of the WTS M dwarfs is considered and it is found that more heavily spotted M dwarfs have intrinsically noisier light curves. The morphologies of the light curves produced by the simulations, and the manner in which they evolve, are qualitatively similar to the real M dwarfs in the WTS sample and indicate how models extrapolated from sunspot distributions can explain behaviour seen in active M dwarf light curves.
2

Mapping the Local Galactic Halo and An Image Motion Compensation System for the Multi-Object Double Spectrograph

Marshall, Jennifer L. 13 September 2006 (has links)
No description available.
3

Enriquecimento de elementos pesados no aglomerado globular do bojo NGC 6522: traços da primeira geração de estrelas / Heavy elements enrichment in the bulge globular cluster NGC 6522: traces from the first stellar generation

Cantelli, Elvis William Carvalho dos Santos 13 August 2018 (has links)
Há uma concentração de aglomerados globulares moderadamente pobres em metais no bojo galáctico, e muitos deles mostram um Ramo Horizontal Azul (BHB). Essas características juntas apontam para uma idade antiga. Para entender melhor a origem desses aglomerados, o estudo de seu padrão de abundâncias pode ajudar a identificar o tipo das primeiras supernovas nas partes centrais da Galáxia. O NGC 6522 na janela do Baade é um representante desta classe de aglomerados. Análises de abundância de estrelas individuais nesses aglomerados confirmaram sua metalicidade de [Fe/H] -1.0, enriquecimento em elementos-$\\alpha$ e detectaram uma variação nas abundâncias dos elementos pesados de processo-s. Entre os maiores enriquecimentos em Y e Ba, a explicação usual da transferência de massa de uma companheira do ramo assintótico das gigantes pode não se aplicar, e um enriquecimento por estrelas massivas de alta rotação foi sugerido. A fim de estudar melhor as abundâncias em NGC 6522, obtivemos um programa com o FLAMES em 2012, a partir da qual, com os dados de UVES, mostramos que o enriquecimento em elementos-s ainda poderia ser acomodado com o modelo de transferência de massa de uma estrela companheira. Além disso, obtivemos novos dados com o FLAMES em 2016. No presente trabalho analisamos outras 6 estrelas observadas em alta resolução com UVES, e 32 estrelas em resolução média-alta observadas com GIRAFFE, onde foram selecionadas por suas velocidades radiais em torno de -14,3 km/s com uma abrangência de ±15 km/s. Os parâmetros atmosféricos e as abundâncias dos elementos leves C, N, O, elementos de Z ímpar Na e Al, elementos-$alpha$ Mg, Si, Ca, Ti, elementos de pico de ferro Mn, Cu, Zn, elementos de processo-s Y, Zr, Ba, La, Ce, Nd e o elemento de processo-r Eu são derivados para a amostra UVES e preliminarmente para a amostra GIRAFFE. Entre as estrelas UVES, duas delas mostram um enriquecimento significativo nos elementos do processo-s e uma com alto valor nas razões [Y/Ba] e [Zr/Ba], sugerindo um enriquecimento por estrelas massivas de alta rotação. / There is a concentration of moderately metal-poor globular clusters in the Galactic bulge, and many of them show a Blue Horizontal Branch (BHB). These characteristics together point to an old age. In order to better understand the origin of these clusters, the study of their abundance pattern can help identifying the kind of the earliest supernovae in the central parts of the Galaxy. NGC 6522 in Baades Window is a representative of this class of clusters. Abundance analyses of individual stars in this clusters have confirmed its metallicity of [Fe/H]-1.0, enhanced -elements, and detected a variation in the abundances of the s-process heavy elements. Among the highest enhancements of Y and Ba, the usual explanation of mass transfer from a companion in the Asymptotic Giant Branch might not apply, and an enrichment by early fast-rotating massive stars was suggested. In order to further study the abundances in NGC 6522 we obtained a run with FLAMES- UVES in 2012, from which with the UVES data we have shown that the enhancement in s-elements could still be accommodated with the companion transfer model. We further obtained new data with FLAMES-UVES in 2016. In the present work we analyze another 6 stars observed at high resolution with UVES, and 32 stars at medium-high resolution observed with GIRAFFE. The latter were selected from their radial velocities of -14.3±15 km/s. The abundances of the light elements C, N, O, odd-Z elements Na, Al, -elements Mg, Si, Ca, Ti, iron-peak elements Mn, Cu, Zn, s-process elements Y, Zr, Ba, La, Ce, Nd and r-process element Eu are derived. Among the UVES stars, two of them show a significant enrichment in s-process elements and one of them show high [Y/Ba] and [Zr/Ba] ratios, suggesting that an early enrichment by fast rotating massive stars is a probable scenario.
4

Enriquecimento de elementos pesados no aglomerado globular do bojo NGC 6522: traços da primeira geração de estrelas / Heavy elements enrichment in the bulge globular cluster NGC 6522: traces from the first stellar generation

Elvis William Carvalho dos Santos Cantelli 13 August 2018 (has links)
Há uma concentração de aglomerados globulares moderadamente pobres em metais no bojo galáctico, e muitos deles mostram um Ramo Horizontal Azul (BHB). Essas características juntas apontam para uma idade antiga. Para entender melhor a origem desses aglomerados, o estudo de seu padrão de abundâncias pode ajudar a identificar o tipo das primeiras supernovas nas partes centrais da Galáxia. O NGC 6522 na janela do Baade é um representante desta classe de aglomerados. Análises de abundância de estrelas individuais nesses aglomerados confirmaram sua metalicidade de [Fe/H] -1.0, enriquecimento em elementos-$\\alpha$ e detectaram uma variação nas abundâncias dos elementos pesados de processo-s. Entre os maiores enriquecimentos em Y e Ba, a explicação usual da transferência de massa de uma companheira do ramo assintótico das gigantes pode não se aplicar, e um enriquecimento por estrelas massivas de alta rotação foi sugerido. A fim de estudar melhor as abundâncias em NGC 6522, obtivemos um programa com o FLAMES em 2012, a partir da qual, com os dados de UVES, mostramos que o enriquecimento em elementos-s ainda poderia ser acomodado com o modelo de transferência de massa de uma estrela companheira. Além disso, obtivemos novos dados com o FLAMES em 2016. No presente trabalho analisamos outras 6 estrelas observadas em alta resolução com UVES, e 32 estrelas em resolução média-alta observadas com GIRAFFE, onde foram selecionadas por suas velocidades radiais em torno de -14,3 km/s com uma abrangência de ±15 km/s. Os parâmetros atmosféricos e as abundâncias dos elementos leves C, N, O, elementos de Z ímpar Na e Al, elementos-$alpha$ Mg, Si, Ca, Ti, elementos de pico de ferro Mn, Cu, Zn, elementos de processo-s Y, Zr, Ba, La, Ce, Nd e o elemento de processo-r Eu são derivados para a amostra UVES e preliminarmente para a amostra GIRAFFE. Entre as estrelas UVES, duas delas mostram um enriquecimento significativo nos elementos do processo-s e uma com alto valor nas razões [Y/Ba] e [Zr/Ba], sugerindo um enriquecimento por estrelas massivas de alta rotação. / There is a concentration of moderately metal-poor globular clusters in the Galactic bulge, and many of them show a Blue Horizontal Branch (BHB). These characteristics together point to an old age. In order to better understand the origin of these clusters, the study of their abundance pattern can help identifying the kind of the earliest supernovae in the central parts of the Galaxy. NGC 6522 in Baades Window is a representative of this class of clusters. Abundance analyses of individual stars in this clusters have confirmed its metallicity of [Fe/H]-1.0, enhanced -elements, and detected a variation in the abundances of the s-process heavy elements. Among the highest enhancements of Y and Ba, the usual explanation of mass transfer from a companion in the Asymptotic Giant Branch might not apply, and an enrichment by early fast-rotating massive stars was suggested. In order to further study the abundances in NGC 6522 we obtained a run with FLAMES- UVES in 2012, from which with the UVES data we have shown that the enhancement in s-elements could still be accommodated with the companion transfer model. We further obtained new data with FLAMES-UVES in 2016. In the present work we analyze another 6 stars observed at high resolution with UVES, and 32 stars at medium-high resolution observed with GIRAFFE. The latter were selected from their radial velocities of -14.3±15 km/s. The abundances of the light elements C, N, O, odd-Z elements Na, Al, -elements Mg, Si, Ca, Ti, iron-peak elements Mn, Cu, Zn, s-process elements Y, Zr, Ba, La, Ce, Nd and r-process element Eu are derived. Among the UVES stars, two of them show a significant enrichment in s-process elements and one of them show high [Y/Ba] and [Zr/Ba] ratios, suggesting that an early enrichment by fast rotating massive stars is a probable scenario.

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