SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3165448517> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W3165448517 endingPage "5555" @default.
W3165448517 startingPage "5539" @default.
W3165448517 abstract "We investigate the environmental properties of the $z=0$ radio galaxy population using the Simba cosmological hydrodynamic simulation. We identify centrals and satellites from a population of high and low excitation radio galaxies (HERGs and LERGs) in Simba, and study their global properties. We find that $sim 20 %$ of radio galaxies are satellites, and that there are insignificant differences in the global properties of LERGs based on their central/satellite classification. HERG satellites display lower values of star formation, 1.4GHz radio luminosity, and Eddington fractions than HERG centrals. We further investigate the environments of radio galaxies and show that HERGs typically live in less dense environments, similar to star-forming galaxies. The environments of high-mass LERGs are similar to non-radio galaxies, but low-mass LERGs live in underdense environments similar to HERGs. LERGs with over-massive black holes reside in the most dense environments, while HERGs with over-massive black holes reside in underdense environments. The richness of a LERG's environment decreases with increasing Eddington fraction, and the environments of all radio galaxies do not depend on radio luminosity for $P_{rm 1.4~GHz} < 10^{24} rm{~W~Hz}^{-1}$. Complementing these results, we find that LERGs cluster on the same scale as the total galaxy population, while multiple HERGs are not found within the same dark matter halo. Finally, we show that high density environments support the growth of HERGs rather than LERGs at $z=2$. Simba predicts that with more sensitive surveys, we will find populations of radio galaxies in environments much similar to the total galaxy population." @default.
W3165448517 created "2021-06-07" @default.
W3165448517 creator A5010053357 @default.
W3165448517 creator A5014522902 @default.
W3165448517 date "2022-08-06" @default.
W3165448517 modified "2023-10-15" @default.
W3165448517 title "The environments of the radio galaxy population in <scp>simba</scp>" @default.
W3165448517 cites W1853164862 @default.
W3165448517 cites W1882938068 @default.
W3165448517 cites W1917541988 @default.
W3165448517 cites W1934100704 @default.
W3165448517 cites W2026942267 @default.
W3165448517 cites W2033679131 @default.
W3165448517 cites W2039226225 @default.
W3165448517 cites W2055629046 @default.
W3165448517 cites W2057023417 @default.
W3165448517 cites W2081691936 @default.
W3165448517 cites W2081879654 @default.
W3165448517 cites W2090459210 @default.
W3165448517 cites W2098564368 @default.
W3165448517 cites W2099782510 @default.
W3165448517 cites W2101349161 @default.
W3165448517 cites W2105176052 @default.
W3165448517 cites W2109578308 @default.
W3165448517 cites W2110294314 @default.
W3165448517 cites W2135894620 @default.
W3165448517 cites W2136068721 @default.
W3165448517 cites W2268017864 @default.
W3165448517 cites W2316324992 @default.
W3165448517 cites W2419016325 @default.
W3165448517 cites W2472932264 @default.
W3165448517 cites W2508402256 @default.
W3165448517 cites W2589052511 @default.
W3165448517 cites W2604475176 @default.
W3165448517 cites W2612829221 @default.
W3165448517 cites W2735520393 @default.
W3165448517 cites W2770391186 @default.
W3165448517 cites W2785361357 @default.
W3165448517 cites W2786313671 @default.
W3165448517 cites W2799955985 @default.
W3165448517 cites W2810822936 @default.
W3165448517 cites W2898046162 @default.
W3165448517 cites W2910477740 @default.
W3165448517 cites W2912395310 @default.
W3165448517 cites W2949499423 @default.
W3165448517 cites W2950743592 @default.
W3165448517 cites W2981694672 @default.
W3165448517 cites W2988675319 @default.
W3165448517 cites W2991417434 @default.
W3165448517 cites W3005920494 @default.
W3165448517 cites W3009607056 @default.
W3165448517 cites W3036991932 @default.
W3165448517 cites W3039452120 @default.
W3165448517 cites W3039903361 @default.
W3165448517 cites W3041566364 @default.
W3165448517 cites W3084896274 @default.
W3165448517 cites W3092607390 @default.
W3165448517 cites W3094415876 @default.
W3165448517 cites W3099341657 @default.
W3165448517 cites W3099471130 @default.
W3165448517 cites W3100024326 @default.
W3165448517 cites W3100679294 @default.
W3165448517 cites W3101311527 @default.
W3165448517 cites W3101612830 @default.
W3165448517 cites W3101961588 @default.
W3165448517 cites W3103073255 @default.
W3165448517 cites W3104119692 @default.
W3165448517 cites W3104330986 @default.
W3165448517 cites W3104842193 @default.
W3165448517 cites W3105554724 @default.
W3165448517 cites W3105601080 @default.
W3165448517 cites W3105698774 @default.
W3165448517 cites W3105792386 @default.
W3165448517 cites W3105959567 @default.
W3165448517 cites W3106192069 @default.
W3165448517 cites W3106456019 @default.
W3165448517 cites W3123788086 @default.
W3165448517 cites W3126824011 @default.
W3165448517 cites W3130509199 @default.
W3165448517 cites W3164173053 @default.
W3165448517 cites W3214618735 @default.
W3165448517 cites W3217331422 @default.
W3165448517 cites W4226145995 @default.
W3165448517 cites W4288603374 @default.
W3165448517 cites W4292385411 @default.
W3165448517 cites W4292875581 @default.
W3165448517 doi "https://doi.org/10.1093/mnras/stac2175" @default.
W3165448517 hasPublicationYear "2022" @default.
W3165448517 type Work @default.
W3165448517 sameAs 3165448517 @default.
W3165448517 citedByCount "0" @default.
W3165448517 crossrefType "journal-article" @default.
W3165448517 hasAuthorship W3165448517A5010053357 @default.
W3165448517 hasAuthorship W3165448517A5014522902 @default.
W3165448517 hasBestOaLocation W31654485172 @default.
W3165448517 hasConcept C121332964 @default.
W3165448517 hasConcept C12287442 @default.
W3165448517 hasConcept C125857072 @default.