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High Time Resolution Astrophysics
High Time Resolution Astrophysics (HTRA) is an important new window to the universe and a vital tool in understanding a range of phenomena from diverse objects and radiative processes. This importance is demonstrated in this volume with the description of a number of topics in astrophysics, including quantum optics, cataclysmic variables, pulsars, X-ray binaries and stellar pulsations to name a few. Underlining this science foundation, technological developments in both instrumentation and detectors are described. These instruments and detectors combined cover a wide range of timescales and can measure fluxes, spectra and polarisation. These advances make it possible for HTRA to make a big contribution to our understanding of the Universe in the next decade.
Principles and Perspectives in Cosmochemistry
A fundamental question in contemporary astrophysics is the origin of the elements. Cosmochemistry seeks to answer when, how and where the chemical elements arose. Quantitative answers to these fundamental questions require a multi-disciplinary approach involving stellar evolution, explosive nucleosynthesis and nuclear reactions in different astrophysical environments. There remain, however, many outstanding problems and cosmochemistry remains a fertile area of research. This book is among the first in recent times to put together the essentials of cosmochemistry, combining contributions from leading astrophysicists in the field. The chapters have been organized to provide a clear description of the fundamentals, an introduction to modern techniques such as computational modelling, and glimpses of outstanding issues.
The Analysis of Starlight
A reference for astronomers and historians on astronomical spectroscopy, from the discovery of spectral lines through to the year 2000.
Stellar Populations (IAU S262)
IAU Symposium 262 presents reviews on the current understanding of the theories of stellar evolution, galaxy formation and galaxy evolution. It emphasises what we have learned in the past few years from massive surveys covering large portions of the sky (e.g. SDSS, HDF, UDF, GOODS, COSMOS). Several critical aspects of research on stellar populations deserve further effort in order to be brought in tune with other areas of astrophysical research. The next ten years will see the opening of major observatories that will increase the quality and quantity of astronomical data by orders of magnitude. The expected benefits from these instruments for the study of stellar populations are explored. This critical review of state of the art observational and theoretical work will appeal to all those working on stellar populations, from distant galaxies to local resolved galaxies and galactic star clusters.
The Impact of Large-scale Surveys on Pulsating Star Research
Annotation Papers from an August 1999 meeting are arranged in sections on the present and future of large-scale surveys, variability of high- luminosity stars, cepheids and RR Lyrae stars, the Blazhko phenomenon, theoretical models of classical pulsating stars, variables close to the main sequence, and pulsating white dwarfs and subdwarfs. Specific topics include nonradial modes in RR Lyrae stars, nonlinear pulsations of convective stellar models, oscillation of rapidly rotating stars, and instabilities in very massive stars. Szabados is affiliated with Konkoly Observatory of the Hungarian Academy of Sciences, Hungary. Kurtz is affiliated with the department of astronomy at the University of Cape Town, South Africa. Annotation c. Book News, Inc., Portland, OR (booknews.com)
Observational Tests of the Stellar Evolution Theory
Proceedings of IAU Symposium No. 105 held in Geneva, Switzerland, September 12-16, 1983
Acta Astronomica
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