A team of astronomers at Ohio State University have projected that WFIRST, the most powerful space telescope since the Hubble, could substantially add to the number of known planets outside our solar system. Their findings were published Monday in the Astrophysical Journal Supplement Series.
As of February 1, Earth scientists have found nearly 4,000 planets in roughly 700 planetary systems, but judging by the Ohio State astronomers' findings, WFIRST, which will launch sometime in the middle of the next decade, could add another 1,400 planets to that list.
The Kepler Space Telescope was retired last October after a nine-year run, well exceeding its mission expectations and cataloguing an astonishing 2,662 exoplanets, the New York Times reported at the time.
"Kepler began the search by looking for planets that orbit their stars closer than the Earth is to our sun," said Matthew Penny, lead author of the study and postdoctoral researcher in the Ohio State Department of Astronomy. "WFIRST will complete it by finding planets with larger orbits."
However, the two satellites use somewhat different methods of detection. Whereas Kepler looked for the dimming of stars caused by planets passing in front of them, WFIRST will look for gravitational microlensing, or the distortion of light caused by it passing through an intense gravitational field — such as that of a planet or star.
This is a pretty famous image of gravitational lensing, the existence of which verifies Albert Einstein's Theory of Relativity.
To the observer here on (or in the orbit of) Earth, the distortion of light originating behind a planet will reveal the planet's existence.
"The Wide Field Instrument will have a field of view that is 100 times greater than the Hubble infrared instrument, capturing more of the sky with less observing time," says the WFIRST mission page on the website of NASA, the United States' national space agency. "As the primary instrument, the Wide Field Instrument will measure light from a billion galaxies over the course of the mission lifetime. It will perform a microlensing survey of the inner Milky Way to find ~2,600 exoplanets. The Coronagraph Instrument will perform high contrast imaging and spectroscopy of dozens of individual nearby exoplanets."
This animated gif shows that WFIRST will only require two pointings to take in as much of the sky as it took the Hubble 432 pointings to cover.
While it appeared that WFIRST's future was on the rocks, US President Donald Trump backed down from an earlier threat to kill the project in the name of cost savings, instead giving NASA an 8 percent budget increase, allotting it $21.5 billion, with increases for nearly all of the agency's programs, in a budget bill signed February 15, The Verge reported. The budget for the six-year WFIRST mission is $3.2 billion, according to NASA.