General model of depolarization and transfer of polarization of singly ionized atoms by collisions with hydrogen atoms
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- @Article{Derouich:2017:NA,
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author = "M. Derouich",
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title = "General model of depolarization and transfer of
polarization of singly ionized atoms by collisions with
hydrogen atoms",
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journal = "New Astronomy",
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volume = "51",
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pages = "32--36",
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year = "2017",
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ISSN = "1384-1076",
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DOI = "doi:10.1016/j.newast.2016.08.011",
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URL = "http://www.sciencedirect.com/science/article/pii/S1384107616300756",
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abstract = "Simulations of the generation of the atomic
polarization is necessary for interpreting the second
solar spectrum. For this purpose, it is important to
rigorously determine the effects of the isotropic
collisions with neutral hydrogen on the atomic
polarization of the neutral atoms, ionized atoms and
molecules. Our aim is to treat in generality the
problem of depolarizing isotropic collisions between
singly ionized atoms and neutral hydrogen in its ground
state. Using our numerical code, we computed the
collisional depolarization rates of the p-levels of
ions for large number of values of the effective
principal quantum number n* and the Unsoeld energy Ep.
Then, genetic programming has been used to fit the
available depolarization rates. As a result, strongly
non-linear relationships between the collisional
depolarization rates, n* and Ep are obtained, and are
shown to reproduce the original data with accuracy
clearly better than 10percent. These relationships
allow quick calculations of the depolarizing
collisional rates of any simple ion which is very
useful for the solar physics community. In addition,
the depolarization rates associated to the complex ions
and to the hyperfine levels can be easily derived from
our results. In this work we have shown that by using
powerful numerical approach and our collisional method,
general model giving the depolarization of the ions can
be obtained to be exploited for solar applications.",
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keywords = "genetic algorithms, genetic programming, Scattering -
Sun, photosphere - atomic processes - line, formation -
line, profiles - polarization",
- }
Genetic Programming entries for
Moncef Derouich
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