Astrometric Microlensing of Stars
Abstract
Due to dramatic improvements in the precision of astrometric measurements, the observation of light centroid shifts in observed stars due to intervening massive compact objects (`astrometric microlensing') will become possible in the near future. Upcoming space missions, such as SIM and GAIA, will provide measurements with an accuracy of 4 to 60 micro-arcsec depending on the magnitude of the observed stars, and an accuracy of about 1 micro-arcsec is expected to be achieved in the more distant future. There are two different ways in which astrometric microlensing signals can be used to infer information: one possibility is to perform astrometric follow-up observations on photometrically detected microlensing events, and the other is to perform a survey based on astrometric observations alone. The probability that the disk stars introduce a centroid shift larger than a threshold at a given time for a given source in the Galactic bulge towards Baade's window reaches 100% for a threshold of 0.7 micro-arcsec, while this probability is 2% for a threshold of 5 micro-arcsec. However, this centroid shift does not vary much during a the timescale of a typical photometric microlensing event. So astrometric follow-ups (e.g. with SIM) are not expected to be disturbed by the statistical astrometric microlensing due to disk stars, so that it is possible to infer additional information about the nature of the lens that caused the photometric event. For the upcoming mission GAIA, we expect ~1000 of the observed stars to show a detectable astrometric microlensing signal within its 5 year lifetime. These events can be used to determine accurate masses of the lenses, and to derive the mass and the scale parameters (length and height) of the Galactic disk.
- Publication:
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arXiv e-prints
- Pub Date:
- May 1998
- DOI:
- 10.48550/arXiv.astro-ph/9805360
- arXiv:
- arXiv:astro-ph/9805360
- Bibcode:
- 1998astro.ph..5360D
- Keywords:
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- Astrophysics
- E-Print:
- 15 pages (including 4 figures). Accepted for publication in Astrophysical Journal. This is a major revision where we have added the following: (i) the details of the prospect of GAIA as an astrometric microlensing survey instrument from which we expect ~1000 events, (ii) the details of the prospect of using SIM for follow-up observations of photometrically detected microlensing events, and (iii) a more elaborate discussion of the effects of blending. The abstract is abridged