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Rates for Color-shifted Microlensing Events

1996; IOP Publishing; Volume: 469; Linguagem: Inglês

10.1086/177814

1538-4357

Ari Buchalter, Marc Kamionkowski, R. Michael Rich,

History and Developments in Astronomy

view Abstract Citations (26) References (54) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Rates for Color-shifted Microlensing Events Buchalter, Ari ; Kamionkowski, Marc ; Rich, R. Michael Abstract If the objects responsible for gravitational microlensing of Galactic bulge stars are faint dwarfs, then blended light from the lens will distort the shape of the microlensing light curve and shift the color of the observed star during the microlensing event. In most cases, the resolution in current microlensing surveys is not accurate enough to observe this color-shift effect. However, such signatures could conceivably be detected with frequent follow-up observations of microlensing events in progress, providing the photometric errors are small enough. We calculate the expected rates for microlensing events in which the shape distortions will be observable by such follow-up observations, assuming that the lenses are ordinary low-mass main-sequence stars in a rapidly rotating bar and in the disk. We adopt Galactic models consistent with observed microlensing timescale distributions and consider separately the cases of self-lensing of the bulge, lensing of the bulge by the disk, and self-lensing of the disk, further differentiating between events where the source is a giant or a main-sequence star. We study the dependence of the rates for color-shifted microlensing events on the frequency of follow-up observations and on the precision of the photometry for a variety of wave band pairings. We find that for hourly observations in B and K with typical photometric errors of 0.01 mag, 28% of the events where a main-sequence bulge star is lensed, and 7% of the events where the source is a bulge giant, will give rise to a measurable color shift at the 95% confidence level. For observations in V and I, the fractions become 18% and 5%, respectively, but may be increased to 40% and 13% by improved photometric accuracy and increased sampling frequency. Unlike standard achromatic lensing events, color-shifted events provide information on the lens mass, distance, and velocity. We outline how these parameters can be obtained, giving examples of typical errors that may arise in the calculation, and briefly discuss other applications of such light-curve measurements. We show that color-shifted events can be individually and/or statistically distinguished from events in which the source is blended with a binary companion. In particular, the observed fraction of color-shifted events as a function of event timescale will test whether the color shift is caused by a lens that is a low-mass main-sequence star or by a blended star. Publication: The Astrophysical Journal Pub Date: October 1996 DOI: 10.1086/177814 arXiv: arXiv:astro-ph/9511034 Bibcode: 1996ApJ...469..676B Keywords: GALAXY: GENERAL; GALAXY: STRUCTURE; COSMOLOGY: GRAVITATIONAL LENSING; Astrophysics E-Print: 36 pages, uuencoded postscript file full text sources arXiv | ADS | data products SIMBAD (1)