This is important confirmation regarding the cosmic origin of water. It fails to break up in the harsh environment and goes on to form water rich planets.
I suspect that we will find abundant water bound in the rock of all planets. It just needs the right conditions to be released.
This is an important question nicely answered.
New
observations by the European Space Agency's Herschel space observatory
have revealed that the burning embers of Sun-like stars at the end of
their lives actually contain molecules vital for the creation of water.
When
stars like our sud die, they become dense, white dwarf stars—but also
cast off their outer layers of dust and gas into something known as
planetary nebulae. The content of those nebulae is known to enrich the
local interstellar environment, providing the matter which future stars
are born from.
Now,
measurements from Herschel reveal that a molecule known as OH+, which
is a positively charged combination of single oxygen and hydrogen atoms
and can go on to form water, is spewed out as part of the nebula (it's
highlighted in the image above). It's been assumed in the past that the
harsh radiation experienced during the star death would destroy such
molecules, but two separate studies have now shown that not to be the
case.
Of
course, it'll be a while before those molecules could ever be of any
use—not least because you'd need to wait for a new solar system to form.
[ESA]
This is huge of course. It means we now have confirmed the direct genesis of water passing from a star into the dust pool used to fabricate new planets. I have been looking for that water for a long time and we now know where it is.
It also means that all planets have ample water integrated into their fabric to be released if the right conditions arise. This is likely linked directly to temperature.
There are always loose ends left over with theory and this certainly was cone of them.
Dying Sun-Like Stars Contain Molecules Vital For Making Water
Jamie Condliffe
http://gizmodo.com/dying-sun-like-stars-contain-molecules-vital-for-making-1592475308
New observations by the European Space Agency's Herschel space observatory have revealed that the burning embers of Sun-like stars at the end of their lives actually contain molecules vital for the creation of water.
When stars like ours die, they become dense, white dwarf stars—but also cast off their outer layers of dust and gas into something known as planetary nebulae. The content of those nebulae is known to enrich the local interstellar environment, providing the matter which future stars are born from.
Now, measurements from Herschel reveal that a molecule known as OH+, which is a positively charged combination of single oxygen and hydrogen atoms and can go on to form water, is spewed out as part of the nebula (it's highlighted in the image above). It's been assumed in the past that the harsh radiation experienced during the star death would destroy such molecules, but two separate studies have now shown that not to be the case.
Of course, it'll be a while before those molecules could ever be of any use—not least because you'd need to wait for a new solar system to form. [ESA]
This is huge of course. It means we now have confirmed the direct genesis of water passing from a star into the dust pool used to fabricate new planets. I have been looking for that water for a long time and we now know where it is.
It also means that all planets have ample water integrated into their fabric to be released if the right conditions arise. This is likely linked directly to temperature.
There are always loose ends left over with theory and this certainly was cone of them.
Dying Sun-Like Stars Contain Molecules Vital For Making Water
Jamie Condliffe
http://gizmodo.com/dying-sun-like-stars-contain-molecules-vital-for-making-1592475308
New observations by the European Space Agency's Herschel space observatory have revealed that the burning embers of Sun-like stars at the end of their lives actually contain molecules vital for the creation of water.
When stars like ours die, they become dense, white dwarf stars—but also cast off their outer layers of dust and gas into something known as planetary nebulae. The content of those nebulae is known to enrich the local interstellar environment, providing the matter which future stars are born from.
Now, measurements from Herschel reveal that a molecule known as OH+, which is a positively charged combination of single oxygen and hydrogen atoms and can go on to form water, is spewed out as part of the nebula (it's highlighted in the image above). It's been assumed in the past that the harsh radiation experienced during the star death would destroy such molecules, but two separate studies have now shown that not to be the case.
Of course, it'll be a while before those molecules could ever be of any use—not least because you'd need to wait for a new solar system to form. [ESA]
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