icon bookmark-bicon bookmarkicon cameraicon checkicon chevron downicon chevron lefticon chevron righticon chevron upicon closeicon v-compressicon downloadicon editicon v-expandicon fbicon fileicon filtericon flag ruicon full chevron downicon full chevron lefticon full chevron righticon full chevron upicon gpicon insicon mailicon moveicon-musicicon mutedicon nomutedicon okicon v-pauseicon v-playicon searchicon shareicon sign inicon sign upicon stepbackicon stepforicon swipe downicon tagicon tagsicon tgicon trashicon twicon vkicon yticon wticon fm
11 Jan, 2016 09:47

Gigantic new stargazer size of 2 tennis courts to seek new ‘Earth’ in universe

Gigantic new stargazer size of 2 tennis courts to seek new ‘Earth’ in universe

A huge new orbital telescope – with 10 times the power of Hubble – could allow us to find life on habitable planets in deep space. The ambitious project is to be launched within the next 15 years, NASA experts say.

The new orbital telescope would outsize the Hubble Telescope’s successor, the James Webb Space Telescope (JWST), known as one of the largest space telescopes ever designed. But the next one may be twice as big, developed for an ambitious mission – finding extraterrestrial life and also answering the question of how the universe evolved.

“The road to [discovering] living worlds requires an 8- to 12-meter space-based telescope,” Natalie Batalha, an astronomer who studies exoplanets at NASA’s Ames Research Center, was quoted as saying by Gizmodo. “This is what can consistently survey sun-like stars within 30 parsecs.”

As Batalha explained, 30 parsecs (nearly 100 light years), is the radial distance to survey several dozen Earth-sized planets with possible life-supporting habitats that surround sun-like stars.

Putting an 8- to 12-meter (26- to 40-foot) telescope into space would be a tremendous endeavor. For instance, the James Webb Space Telescope – an $8.7-billion, tennis-court sized device that will allow astronomers to see the universe with unprecedented resolution and sensitivity – has a 6.5-meter (21-foot) primary mirror. JWST is compared to the beast of a stargazer astronomers want to build in the 2030s.

But searching for life is not the huge JSWT successor’s sole task. It will also help scientists learn how the building blocks of matter evolved over cosmic time, probing an even more fundamental question about where life in the universe comes from.

By launching such a big telescope astronomers believe they would finally be able to see the smaller planets instead of (basically) using context clues to figure them out, as they do now.

“A story is unfolding,” Batalha said. “It’s a story that takes a long time — these really big endeavors humanity undertakes take a lot of time to plan and execute.”

Podcasts
0:00
23:13
0:00
25:0