A 4% Geometric Distance to the Galaxy NGC4258 from Orbital Motions in a Nuclear Gas Disk
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Author
Herrnstein, J.
Diamond, P.
Inoue, M.
Nakai, N.
Miyoshi, M.
Henkel, C.
Riess, A.
Published Version
https://doi.org/10.1038/22972Metadata
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Herrnstein, J. R., J. M. Moran, L. J. Greenhill, P. J. Diamond, M. Inoue, N. Nakai, M. Miyoshi, C. Henkel, and A. Riess#. 1999. Nature 400 (6744) (August 5): 539–541. doi:10.1038/22972.Abstract
The accurate measurement of extragalactic distances is a central challenge of modern astronomy, being required for any realistic description of the age, geometry and fate of the Universe. The measurement of relative extragalactic distances has become fairly routine, but estimates of absolute distances are rare1. In the vicinity of the Sun, direct geometric techniques for obtaining absolute distances, such as orbital parallax, are feasible, but heretofore such techniques have been difficult to apply to other galaxies. As a result, uncertainties in the expansion rate and age of the Universe are dominated by uncertainties in the absolute calibration of the extragalactic distance ladder2. Here we report a geometric distance to the galaxy NGC4258, which we infer from the direct measurement of orbital motions in a disk of gas surrounding the nucleus of this galaxy. The distance so determined - 7.2 ± 0.3 Mpc - is the most precise absolute extragalactic distance yet measured, and is likely to play an important role in future distance-scale calibrations.Other Sources
https://arxiv.org/abs/astro-ph/9907013Terms of Use
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http://nrs.harvard.edu/urn-3:HUL.InstRepos:32714414
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