The Optical Gravitational Lensing Experiment: Red Clump Stars as a Distance Indicator

AbstractThe ideal distance indicator would be a standard candle abundant enough to provide many examples within reach of parallax measurements and sufficiently bright to be seen out to Local Group galaxies. The red clump stars closely match this description. These are the metal rich equivalent of the better known horizontal branch stars, and their brightness dispersion is only 0.2 mag (one sigma) in the Solar neighborhood. Using Hipparcos to calibrate a large, local sample, the red clump method has been used to measure accurate distances to the Galactic center (Paczyński & Stanek 1998), M31 (Stanek & Garnavich 1998), LMC (Udalski et al. 1998; Stanek et al. 1998; Udalski 1999) and some clusters in our Galaxy (e.g. 47Tuc: Kaluzny et al. 1998). As with all the distance indicators, the main worry lies in the possible systematics of the method, in particular, the brightness dependence on the stellar metallicity and age. These dependences have come under close scrutiny and, indeed, the population effects on the red clump brightness appear small and calibratable. Perhaps the most controversial result from the red clump method is the estimation of a “short” distance to the Large Magellanic Cloud (Udalski et al. 1998; Stanek, Zaritsky & Harris 1998; Udalski 2000). This distance to the LMC is shorter by 12% than the “standard” value, and has very important implications for the Cepheid distance scale and the determination of the Hubble constant.

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Evidence for the Galactic Bar from the Two Color Photometry of the Bulge Red Clump Stars

Symposium - International Astronomical Union ◽

10.1017/s0074180900229574 ◽

1996 ◽

Vol 169 ◽

pp. 103-109

Author(s):

K. Z. Stanek ◽

M. Mateo ◽

A. Udalski ◽

M. Szymański ◽

J. Kałużny ◽

...

Keyword(s):

Data Base ◽

Gravitational Lensing ◽

Galactic Bulge ◽

Gravitational Microlensing ◽

Huge Data ◽

Red Clump

The Optical Gravitational Lensing Experiment (OGLE, Udalski et al. 1994a; Paczynski et al. 1994b – these proceedings; and references therein) is an extensive photometric search for the rare cases of gravitational microlensing of Galactic bulge stars by foreground objects. It provides a huge data base (Szymański & Udalski 1993), from which color-magnitude diagrams have been compiled (Udalski et al. 1993, 1994b). Here we discuss the use a of well-defined population of bulge red clump stars to investigate the presence of the bar in our Galaxy. The results of our earlier studies are described by Stanek et al. (1994).

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WIYN Open Cluster Study. X. The [ITAL]K[/ITAL]-Band Magnitude of the Red Clump as a Distance Indicator

The Astronomical Journal ◽

10.1086/339027 ◽

2002 ◽

Vol 123 (3) ◽

pp. 1603-1612 ◽

Cited By ~ 98

Author(s):

Aaron J. Grocholski ◽

Ata Sarajedini

Keyword(s):

Open Cluster ◽

Distance Indicator ◽

Red Clump

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K-band magnitude of the red clump as a distance indicator

Astronomy and Astrophysics ◽

10.1051/0004-6361:20052721 ◽

2006 ◽

Vol 463 (2) ◽

pp. 559-565 ◽

Cited By ~ 33

Author(s):

V. Van Helshoecht ◽

M. A. T. Groenewegen

Keyword(s):

Distance Indicator ◽

Red Clump ◽

K Band

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Line of sight depth of the Large and Small Magellanic Clouds

Proceedings of the International Astronomical Union ◽

10.1017/s1743921308028275 ◽

2008 ◽

Vol 4 (S256) ◽

pp. 63-68

Author(s):

Annapurni Subramaniam ◽

Smitha Subramaniam

Keyword(s):

Gravitational Lensing ◽

Magellanic Clouds ◽

Optical Center ◽

Line Of Sight ◽

Rr Lyrae Stars ◽

Rr Lyrae ◽

Colour Distribution ◽

Red Clump ◽

Minor Mergers ◽

Lyrae Stars

AbstractWe used the red clump stars from the Optical Gravitational Lensing Experiment (OGLE II) survey and the Magellanic Cloud Photometric Survey (MCPS), to estimate the line-of-sight depth. The observed dispersion in the magnitude and colour distribution of red clump stars is used to estimate the line-of-sight depth, after correcting for the contribution due to other effects. This dispersion due to depth, has a range from minimum dispersion that can be estimated, to 0.46 mag (a depth of 500 pc to 10.44 kpc), in the LMC. In the case of the SMC, the dispersion ranges from minimum dispersion to 0.35 magnitude (a depth of 665 pc to 9.53 kpc). The thickness profile of the LMC bar indicates that it is flared. The average depth in the bar region is 4.0 ± 1.4 kpc. The halo of the LMC (using RR Lyrae stars) is found to have larger depth compared to the disk/bar, which supports the presence of an inner halo for the LMC. The large depth estimated for the LMC bar and the disk suggests that the LMC might have had minor mergers. In the case of the SMC, the bar depth (4.90 ± 1.23 kpc) and the disk depth (4.23 ± 1.48 kpc) are found to be within the standard deviations. We find evidence for an increase in depth near the optical center (up to 9 kpc). On the other hand, the estimated depth for the halo (RR Lyrae stars) and disk (RC stars) for the bar region of the SMC is found to be similar. Thus, increased depth and enhanced stellar as well as H i density near the optical center suggests that the SMC may have a bulge.

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A preliminary systematic search for red-clump stars in Galactic open clusters based on 2mass data

Proceedings of the International Astronomical Union ◽

10.1017/s1743921312021916 ◽

2012 ◽

Vol 8 (S289) ◽

pp. 441-443

Author(s):

Xi Zhang ◽

Li Chen ◽

Zhongmu Li

Keyword(s):

Chemical Composition ◽

Weak Dependence ◽

Open Clusters ◽

Systematic Search ◽

Helium Burning ◽

Small Variance ◽

Average Value ◽

Standard Candle ◽

Distance Indicator ◽

Red Clump

AbstractRed-clump (RC) giants are intermediate-age, core-helium-burning stars. The RC can be used as a standard candle. In particular, the small variance of the RC's K-band intrinsic luminosity and its weak dependence on chemical composition and age make it an extremely useful distance indicator. In this paper, we use 2mass data to search for RC stars in a sample of 60 Galactic open clusters with known reddening, ages, and distances, and obtain an average value for the RC's absolute Ks-band magnitude, MKs = −1.72 ± 0.17 mag.

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Astrophysical Applications of Gravitational Lensing

10.1017/cbo9781139940306 ◽

2016 ◽

Cited By ~ 3

Keyword(s):

Gravitational Lensing

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Nonlocal Gravity

10.1093/oso/9780198803805.001.0001 ◽

2017 ◽

Cited By ~ 5

Author(s):

Bahram Mashhoon

Keyword(s):

Gravitational Field ◽

Gravitational Lensing ◽

Past History ◽

Lorentz Invariance ◽

Minkowski Spacetime ◽

Field Measurements ◽

Local Principle ◽

History Of ◽

Expansion Of The Universe ◽

Nearby Galaxies

A postulate of locality permeates through the special and general theories of relativity. First, Lorentz invariance is extended in a pointwise manner to actual, namely, accelerated observers in Minkowski spacetime. This hypothesis of locality is then employed crucially in Einstein’s local principle of equivalence to render observers pointwise inertial in a gravitational field. Field measurements are intrinsically nonlocal, however. To go beyond the locality postulate in Minkowski spacetime, the past history of the accelerated observer must be taken into account in accordance with the Bohr-Rosenfeld principle. The observer in general carries the memory of its past acceleration. The deep connection between inertia and gravitation suggests that gravity could be nonlocal as well and in nonlocal gravity the fading gravitational memory of past events must then be taken into account. Along this line of thought, a classical nonlocal generalization of Einstein’s theory of gravitation has recently been developed. In this nonlocal gravity (NLG) theory, the gravitational field is local, but satisfies a partial integro-differential field equation. A significant observational consequence of this theory is that the nonlocal aspect of gravity appears to simulate dark matter. The implications of NLG are explored in this book for gravitational lensing, gravitational radiation, the gravitational physics of the Solar System and the internal dynamics of nearby galaxies as well as clusters of galaxies. This approach is extended to nonlocal Newtonian cosmology, where the attraction of gravity fades with the expansion of the universe. Thus far only some of the consequences of NLG have been compared with observation.

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