Searching for nonsolar planets
Abstract
Existing instruments are unable to detect planets about stars other than the Sun but such detection would be important for the theory of origin of our solar system and in the search for extraterrestrial intelligence. Infrared offers an advantage of about 10 5 over visible light as regards the ratio of power received from star and planet. Infrared interferometry from Earth orbit would allow discrimination against the stellar infrared by the placement of an interference null on the star and a spinning infrared interferometer would modulate the planetary emission to permit extraction by synchronous detection from the background level. The limit to sensitivity will be set by thermal emission from the zodiacal light particles near the Earth's orbit unless the interferometer is launched out of the ecliptic or out to the orbit of Jupiter, in which case instrumental limitations will dominate. Technological developments in several fields will be required as also with astrometry, spectroscopic radial velocity measurement, and direct photography from orbit, three approaches with which infrared interferometry should be carefully compared.
- Publication:
-
Icarus
- Pub Date:
- April 1979
- DOI:
- 10.1016/0019-1035(79)90093-9
- Bibcode:
- 1979Icar...38..136B
- Keywords:
-
- Astrometry;
- Extrasolar Planets;
- Infrared Astronomy;
- Radial Velocity;
- Velocity Measurement;
- Infrared Interferometers;
- Signal Detection;
- Star Trackers;
- Very Long Base Interferometry;
- NONSOLAR PLANETS;
- PLANETS;
- SUN;
- INFRARED;
- ORIGIN;
- OBSERVATIONS;
- ASTRONOMY;
- SPINNING;
- STARS;
- LIGHT (VISIBLE RADIATION);
- HEAT FLOW;
- THERMAL PROPERTIES;
- ZODIACAL LIGHT;
- JUPITER