SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3095443003> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W3095443003 endingPage "A67" @default.
W3095443003 startingPage "A67" @default.
W3095443003 abstract "Atmospheric escape is an important factor shaping the exoplanet population and hence drives our understanding of planet formation. Atmospheric escape from giant planets is driven primarily by the stellar X-ray and extreme ultraviolet (EUV) radiation. Furthermore, EUV and longer wavelength UV radiation power disequilibrium chemistry in the middle and upper atmospheres. Our understanding of atmospheric escape and chemistry, therefore, depends on our knowledge of the stellar UV fluxes. While the far-ultraviolet (FUV) fluxes can be observed for some stars, most of the EUV range is unobservable due to the lack of a space telescope with EUV capabilities and, for the more distant stars, due to interstellar medium absorption. Therefore, it becomes essential to have an indirect means for inferring EUV fluxes from features observable at other wavelengths. We present here analytic functions for predicting the EUV emission of F-, G-, K-, and M-type stars from the log R ′ HK activity parameter that is commonly obtained from ground-based optical observations of the Ca II H&K lines. The scaling relations are based on a collection of about 100 nearby stars with published log R ′ HK and EUV flux values, the latter of which are either direct measurements or inferences from high-quality FUV spectra. The scaling relations presented here return EUV flux values with an accuracy of about a factor of three, which is slightly lower than that of other similar methods based on FUV or X-ray measurements." @default.
W3095443003 created "2020-11-09" @default.
W3095443003 creator A5004005093 @default.
W3095443003 creator A5034714680 @default.
W3095443003 creator A5084098015 @default.
W3095443003 creator A5086685481 @default.
W3095443003 date "2020-12-01" @default.
W3095443003 modified "2023-10-11" @default.
W3095443003 title "Ca II H&K stellar activity parameter: a proxy for extreme ultraviolet stellar fluxes" @default.
W3095443003 cites W1483310431 @default.
W3095443003 cites W1604168172 @default.
W3095443003 cites W1931818307 @default.
W3095443003 cites W1965833171 @default.
W3095443003 cites W1966888770 @default.
W3095443003 cites W1967267230 @default.
W3095443003 cites W1974543936 @default.
W3095443003 cites W1977583214 @default.
W3095443003 cites W1980931609 @default.
W3095443003 cites W1992815838 @default.
W3095443003 cites W1998069062 @default.
W3095443003 cites W2001375089 @default.
W3095443003 cites W2044183576 @default.
W3095443003 cites W2044560189 @default.
W3095443003 cites W2049865906 @default.
W3095443003 cites W2050155687 @default.
W3095443003 cites W2065185337 @default.
W3095443003 cites W2066154329 @default.
W3095443003 cites W2072052527 @default.
W3095443003 cites W2076328442 @default.
W3095443003 cites W2082329580 @default.
W3095443003 cites W2084695302 @default.
W3095443003 cites W2106231443 @default.
W3095443003 cites W2117454493 @default.
W3095443003 cites W2117615467 @default.
W3095443003 cites W2118700983 @default.
W3095443003 cites W2137964810 @default.
W3095443003 cites W2142350809 @default.
W3095443003 cites W2144186164 @default.
W3095443003 cites W2147930796 @default.
W3095443003 cites W2158554931 @default.
W3095443003 cites W2163940516 @default.
W3095443003 cites W2168419464 @default.
W3095443003 cites W2170871715 @default.
W3095443003 cites W2181311920 @default.
W3095443003 cites W2358339514 @default.
W3095443003 cites W2402864538 @default.
W3095443003 cites W2557352522 @default.
W3095443003 cites W2586149822 @default.
W3095443003 cites W2621237140 @default.
W3095443003 cites W2755277173 @default.
W3095443003 cites W2755835083 @default.
W3095443003 cites W2786861103 @default.
W3095443003 cites W2798336535 @default.
W3095443003 cites W2801411495 @default.
W3095443003 cites W2885361498 @default.
W3095443003 cites W2901357891 @default.
W3095443003 cites W2978240881 @default.
W3095443003 cites W2981916905 @default.
W3095443003 cites W2990868299 @default.
W3095443003 cites W3007645214 @default.
W3095443003 cites W3098079606 @default.
W3095443003 cites W3098394740 @default.
W3095443003 cites W3098443801 @default.
W3095443003 cites W3098597152 @default.
W3095443003 cites W3098896129 @default.
W3095443003 cites W3099123452 @default.
W3095443003 cites W3099571084 @default.
W3095443003 cites W3099735798 @default.
W3095443003 cites W3099823899 @default.
W3095443003 cites W3100196638 @default.
W3095443003 cites W3100640367 @default.
W3095443003 cites W3100702394 @default.
W3095443003 cites W3100845463 @default.
W3095443003 cites W3100933337 @default.
W3095443003 cites W3101121505 @default.
W3095443003 cites W3101527251 @default.
W3095443003 cites W3102544449 @default.
W3095443003 cites W3103070881 @default.
W3095443003 cites W3103590159 @default.
W3095443003 cites W3104100693 @default.
W3095443003 cites W3104757651 @default.
W3095443003 cites W3105673385 @default.
W3095443003 cites W3105747105 @default.
W3095443003 cites W3105785948 @default.
W3095443003 cites W3105839341 @default.
W3095443003 cites W3120960505 @default.
W3095443003 cites W3121740744 @default.
W3095443003 cites W3123194955 @default.
W3095443003 cites W3125157795 @default.
W3095443003 cites W3125287281 @default.
W3095443003 cites W4237098093 @default.
W3095443003 cites W4293676342 @default.
W3095443003 cites W4293676705 @default.
W3095443003 cites W4299966005 @default.
W3095443003 cites W4302208811 @default.
W3095443003 doi "https://doi.org/10.1051/0004-6361/202039167" @default.
W3095443003 hasPublicationYear "2020" @default.
W3095443003 type Work @default.