Abstract
Driven entirely by human curiosity, the effect of the gravitational bending of light has evolved on unforeseen paths, in an interplay between shifts in prevailing paradigms and advance of technology, into the most unusual way to study planet populations. The confirmation of the bending angle predicted by Einstein with the Solar Eclipse measurements from 1919 marked the breakthrough of the theory of General Relativity, but it was not before the detection of the double image of the quasar 0957+561 that 'gravitational lensing' really entered the observational era. The observation of a characteristic transient brightening of a star caused by the gravitational deflection of its light by an intervening foreground star, constituting a 'microlensing event', required even further advance in technology before it could first emerge in 1993. While it required more patience in waiting before 'Einstein's blip' for the first time revealed the presence of a planet orbiting a star other than the Sun, such detections can now be monitored live, and gravitational microlensing is not only sensitive to masses as low as that of the Moon, but can even reveal planets around stars in galaxies other than the Milky Way.
Original language | English |
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Pages (from-to) | 989-1006 |
Number of pages | 18 |
Journal | General Relativity and Gravitation |
Volume | 43 |
Issue number | 4 |
DOIs | |
Publication status | Published - Apr 2011 |
Keywords
- Extra-solar planetary systems
- Relativity and gravitation
- History of science
- Science and government
- Photography and photometry
- Gravitational lenses and luminous arcs
- GALACTIC BULGE STARS
- MICROLENSING EVENTS
- EXTRASOLAR PLANETS
- DETECTING PLANETS
- MACHO PROJECT
- EARTH MASS
- LENS
- GALAXIES
- SYSTEM
- DISCOVERY