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Transcript
Spectroscopic parallax Spectroscopic parallax is an astronomical method for measuring the distances to stars. Despite its name, it does not rely on the apparent change in the position of the star. This technique can be applied to any main sequence star for which a spectrum can be recorded. Spectroscopic parallax The Luminosity of a star can be found using an absorption spectrum. Using its spectrum a star can be placed in a spectral class. Also the star’s surface temperature can determined from its spectrum (Wien’s law) Using the H-R diagram and knowing both temperature and spectral class of the star, its luminosity can be found. Cepheid variables The relationship between a Cepheid variable's luminosity and variability period is quite precise, and has been used as a standard candle (astronomical object that has a know luminosity) for almost a century. This connection was discovered in 1912 by Henrietta Swan Leavitt. She measured the brightness of hundreds of Cepheid variables and discovered a distinct periodluminosity relationship. Cepheid variables A three-day period Cepheid has a luminosity of about 800 times that of the Sun. A thirty-day period Cepheid is 10,000 times as bright as the Sun. The scale has been calibrated using nearby Cepheid stars, for which the distance was already known. This high luminosity, and the precision with which their distance can be estimated, makes Cepheid stars the ideal standard candle to measure the distance of clusters and external galaxies. Cepheid variables Distance measured by parallax: Distance measurement by parallax d=1/p apparent brightness Luminosity L = 4πd2 b spectrum Wien’s Law (surface temperature T) Chemical composition of corona L = 4πR2 σT4 Stefan-Boltzmann Radius Distance measured by spectroscopic parallax / Cepheid variables: Apparent brightness Luminosity class H-R diagram Luminosity (L) b = L / 4πd2 Distance (d) Chemical composition Spectral type Cepheid variable Period spectrum Surface temperature (T) Wien’s Law Stefan-Boltzmann L = 4πR2 σT4 Radius
