Planet II: A Microlensing and Transit Search for Extrasolar Planets

Due to their extremely small luminosity compared to the stars they orbit, planets outside our own Solar System are extraordinarily difficult to detect directly in optical light. Careful photometric monitoring of distant stars, however, can reveal the presence of exoplanets via the microlensing or eclipsing effects they induce. The international PLANET collaboration is performing such monitoring using a cadre of semi-dedicated telescopes around the world. Their results constrain the number of gas giants orbiting 1–7 AU from the most typical stars in the Galaxy. Upgrades in the program are opening regions of “exoplanet discovery space” – toward smaller masses and larger orbital radii – that are inaccessible to the Doppler velocity technique. 1. Looking for Exoplanets through the Lens of Gravity The Doppler velocity technique, which measures the small to and fro motion induced in a parent star by an orbiting planet, has clearly demonstrated that several percent of solar-type stars have planets very unlike those in the Solar System (Marcy, Cochran & Mayor 2000). Known extrasolar planets are plotted with the nine Solar System planets in Figure 1. With the exception of the few bodies orbiting dead stellar cores known as pulsars, exoplanets discovered