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CO Tully-Fisher Relation for the Distance Measurement to Redshift cz=20,000 to 50,000 km/s

Published online by Cambridge University Press:  25 May 2016

Y. Sofue ,
Y. Tutui ,
M. Honma ,
T. Ichikawa ,
K. Wakamatsu ,
I. Kazes  and
J. Dickey
Y. Sofue
Affiliation:
1Inst. Astronomy, Univ. Tokyo, Mitaka, Tokyo 181, Japan
Y. Tutui
Affiliation:
1Inst. Astronomy, Univ. Tokyo, Mitaka, Tokyo 181, Japan
M. Honma
Affiliation:
1Inst. Astronomy, Univ. Tokyo, Mitaka, Tokyo 181, Japan
T. Ichikawa
Affiliation:
2Gifu Uni.
K. Wakamatsu
Affiliation:
3Tohoku Uni
I. Kazes
Affiliation:
4Obs. Paris
J. Dickey
Affiliation:
5U. Minnesota, USA

Extract

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The accuracy of measurement of the Hubble constant depends not only on the accuracy of distance measurement but also on how small is the effect of local flows: The larger are redshifts of used galaxies, the higher is the accuracy of H0, if the error in distance measurement is comparable. The HI Tully-Fisher relation has been the standard tool for distance measurement up to cz ∼ 10,000 km s–1 (Tully and Fisher 1977), where, however, the local flow is not negligible.

Type
I. Cosmological Parameters, H0, q0, Ω0 and Λ
Information
Symposium - International Astronomical Union , Volume 183: Cosmological Parameters and the Evolution of the Universe , 1999 , pp. 70
Copyright
Copyright © Kluwer 1999 

References

Sofue, Y., Schöniger, F., Honma, M., Tutui, Y., Ichikawa, T., Wakamatsu, K., Kazes, I. & Dickey, J. 1996 PASJ 48, 657670 CrossRefGoogle Scholar
Tully, B., Fisher, J. R. 1977, A&A 64, 661 Google Scholar