Cosmological aspects of planetary habitability. Yu, Safonova, M., & Murthy, J. April, 2014. ![Cosmological aspects of planetary habitability [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper abstract bibtex The habitable zone (HZ) is defined as the region around a star where a planet can support liquid water on its surface, which, together with an oxygen atmosphere, is presumed to be necessary (and sufficient) to develop and sustain life on the planet. Currently, about twenty potentially habitable planets are listed. The most intriguing question driving all these studies is whether planets within habitable zones host extraterrestrial life. It is implicitly assumed that a planet in the habitable zone bears biota. However along with the two usual indicators of habitability, an oxygen atmosphere and liquid water on the surface, an additional one – the age — has to be taken into account when the question of the existence of life (or even a simple biota) on a planet is addressed. The importance of planetary age for the existence of life as we know it follows from the fact that the primary process, the photosynthesis, is endothermic with an activation energy higher than temperatures in habitable zones. Therefore on planets in habitable zones, due to variations in their albedo, orbits, diameters and other crucial parameters, the onset of photosynthesis may take much longer time than the planetary age. Recently, several exoplanets orbiting PopulatioñII stars with ages of 12–13 Gyr were discovered. Even though these stars have low metallicity, they can still form protoplanetary clouds where the abundance of metals can be enhanced due to the action of physical fractionation. Masses of protoplanets in such conditions can, in principle, be within Earth to super-Earth range. These planets had enough time to develop necessary chains of chemical reactions and may thus carry life provided they are within a habitable zone.
@misc{citeulike:13127048,
abstract = {{The habitable zone (HZ) is defined as the region around a star where a planet
can support liquid water on its surface, which, together with an oxygen
atmosphere, is presumed to be necessary (and sufficient) to develop and sustain
life on the planet. Currently, about twenty potentially habitable planets are
listed. The most intriguing question driving all these studies is whether
planets within habitable zones host extraterrestrial life.
It is implicitly assumed that a planet in the habitable zone bears biota.
However along with the two usual indicators of habitability, an oxygen
atmosphere and liquid water on the surface, an additional one -- the age ---
has to be taken into account when the question of the existence of life (or
even a simple biota) on a planet is addressed. The importance of planetary age
for the existence of life as we know it follows from the fact that the primary
process, the photosynthesis, is endothermic with an activation energy higher
than temperatures in habitable zones. Therefore on planets in habitable zones,
due to variations in their albedo, orbits, diameters and other crucial
parameters, the onset of photosynthesis may take much longer time than the
planetary age.
Recently, several exoplanets orbiting Population\~{}II stars with ages of 12--13
Gyr were discovered. Even though these stars have low metallicity, they can
still form protoplanetary clouds where the abundance of metals can be enhanced
due to the action of physical fractionation. Masses of protoplanets in such
conditions can, in principle, be within Earth to super-Earth range. These
planets had enough time to develop necessary chains of chemical reactions and
may thus carry life provided they are within a habitable zone.}},
added-at = {2019-03-25T08:20:55.000+0100},
archiveprefix = {arXiv},
author = {Yu and Safonova, M. and Murthy, J.},
biburl = {https://www.bibsonomy.org/bibtex/23998b63e6987778e28531c4b32895200/ericblackman},
citeulike-article-id = {13127048},
citeulike-linkout-0 = {http://arxiv.org/abs/1404.0641},
citeulike-linkout-1 = {http://arxiv.org/pdf/1404.0641},
day = 2,
eprint = {1404.0641},
interhash = {a4cfc6a18c23f7fc1551bfb270aa6266},
intrahash = {3998b63e6987778e28531c4b32895200},
keywords = {imported},
month = apr,
posted-at = {2014-04-05 03:33:22},
priority = {2},
timestamp = {2019-03-25T08:20:55.000+0100},
title = {{Cosmological aspects of planetary habitability}},
url = {http://arxiv.org/abs/1404.0641},
year = 2014
}
Downloads: 0
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However along with the two usual indicators of habitability, an oxygen atmosphere and liquid water on the surface, an additional one – the age — has to be taken into account when the question of the existence of life (or even a simple biota) on a planet is addressed. The importance of planetary age for the existence of life as we know it follows from the fact that the primary process, the photosynthesis, is endothermic with an activation energy higher than temperatures in habitable zones. Therefore on planets in habitable zones, due to variations in their albedo, orbits, diameters and other crucial parameters, the onset of photosynthesis may take much longer time than the planetary age. Recently, several exoplanets orbiting PopulatioñII stars with ages of 12–13 Gyr were discovered. Even though these stars have low metallicity, they can still form protoplanetary clouds where the abundance of metals can be enhanced due to the action of physical fractionation. Masses of protoplanets in such conditions can, in principle, be within Earth to super-Earth range. 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Currently, about twenty potentially habitable planets are\nlisted. The most intriguing question driving all these studies is whether\nplanets within habitable zones host extraterrestrial life.\n\n\nIt is implicitly assumed that a planet in the habitable zone bears biota.\nHowever along with the two usual indicators of habitability, an oxygen\natmosphere and liquid water on the surface, an additional one -- the age ---\nhas to be taken into account when the question of the existence of life (or\neven a simple biota) on a planet is addressed. The importance of planetary age\nfor the existence of life as we know it follows from the fact that the primary\nprocess, the photosynthesis, is endothermic with an activation energy higher\nthan temperatures in habitable zones. Therefore on planets in habitable zones,\ndue to variations in their albedo, orbits, diameters and other crucial\nparameters, the onset of photosynthesis may take much longer time than the\nplanetary age.\n\n\nRecently, several exoplanets orbiting Population\\~{}II stars with ages of 12--13\nGyr were discovered. Even though these stars have low metallicity, they can\nstill form protoplanetary clouds where the abundance of metals can be enhanced\ndue to the action of physical fractionation. Masses of protoplanets in such\nconditions can, in principle, be within Earth to super-Earth range. 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