SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2769601188> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W2769601188 endingPage "35" @default.
W2769601188 startingPage "35" @default.
W2769601188 abstract "XMM-Newton and Suzaku spectra of AGN have revealed highly ionized gas, in the form of absorption lines from H-like and He-like Fe. Some of these absorbers, Ultra Fast Outflows (UFOs), have radial velocities of up to 0.25c. We have undertaken a detailed photo-ionization study of high-ionization Fe absorbers, both UFOs and non-UFOs, in a sample of AGN observed by XMM-Newton. We find that the heating and cooling processes in UFOs are Compton-dominated, unlike the non-UFOs. Both types are characterized by Force Multipliers on the order of unity, which suggests that they cannot be radiatively accelerated in sub-Eddington AGN, unless they were much less ionized at their point of origin. However, such highly ionized gas can be accelerated via a Magneto-Hydrodynamic (MHD) wind. We explore this possibility by applying a cold MHD flow model to the UFO in the well-studied Seyfert galaxy, NGC 4151. We find that the UFO can be accelerated along magnetic streamlines anchored in the accretion disk. In the process, we have been able to constrain the magnetic field strength and the magnetic pressure in the UFO and have determined that the system is not in magnetic/gravitational equipartition.Open questions include the variability of the UFOs and the apparent lack of non-UFOs in UFO sources." @default.
W2769601188 created "2017-12-04" @default.
W2769601188 creator A5020310545 @default.
W2769601188 creator A5029489687 @default.
W2769601188 creator A5076350341 @default.
W2769601188 date "2018-01-03" @default.
W2769601188 modified "2023-09-29" @default.
W2769601188 title "Physical Conditions in Ultra-fast Outflows in AGN" @default.
W2769601188 cites W1483497546 @default.
W2769601188 cites W1966450232 @default.
W2769601188 cites W1975402147 @default.
W2769601188 cites W1977050387 @default.
W2769601188 cites W1978687171 @default.
W2769601188 cites W1978929779 @default.
W2769601188 cites W1988241931 @default.
W2769601188 cites W1991449385 @default.
W2769601188 cites W2020450618 @default.
W2769601188 cites W2032117566 @default.
W2769601188 cites W2032377225 @default.
W2769601188 cites W2039048830 @default.
W2769601188 cites W2046618793 @default.
W2769601188 cites W2052199532 @default.
W2769601188 cites W2052521231 @default.
W2769601188 cites W2057435545 @default.
W2769601188 cites W2057637401 @default.
W2769601188 cites W2059634633 @default.
W2769601188 cites W2062549717 @default.
W2769601188 cites W2064317890 @default.
W2769601188 cites W2066744800 @default.
W2769601188 cites W2073155743 @default.
W2769601188 cites W2075078185 @default.
W2769601188 cites W2077525852 @default.
W2769601188 cites W2081240894 @default.
W2769601188 cites W2083233814 @default.
W2769601188 cites W2093419164 @default.
W2769601188 cites W2095534561 @default.
W2769601188 cites W2101045281 @default.
W2769601188 cites W2113005372 @default.
W2769601188 cites W2135080171 @default.
W2769601188 cites W2147074747 @default.
W2769601188 cites W2156621121 @default.
W2769601188 cites W2156747046 @default.
W2769601188 cites W2208156516 @default.
W2769601188 cites W2316380690 @default.
W2769601188 cites W2524655747 @default.
W2769601188 cites W2544634293 @default.
W2769601188 cites W2548934099 @default.
W2769601188 cites W2610337163 @default.
W2769601188 cites W2962812955 @default.
W2769601188 cites W3027862860 @default.
W2769601188 cites W3098281597 @default.
W2769601188 cites W3098422398 @default.
W2769601188 cites W3098437017 @default.
W2769601188 cites W3099453711 @default.
W2769601188 cites W3099632779 @default.
W2769601188 cites W3099634360 @default.
W2769601188 cites W3100524163 @default.
W2769601188 cites W3100935146 @default.
W2769601188 cites W3102812179 @default.
W2769601188 cites W3104352546 @default.
W2769601188 doi "https://doi.org/10.3847/1538-4357/aa9ce0" @default.
W2769601188 hasPublicationYear "2018" @default.
W2769601188 type Work @default.
W2769601188 sameAs 2769601188 @default.
W2769601188 citedByCount "25" @default.
W2769601188 countsByYear W27696011882018 @default.
W2769601188 countsByYear W27696011882019 @default.
W2769601188 countsByYear W27696011882020 @default.
W2769601188 countsByYear W27696011882021 @default.
W2769601188 countsByYear W27696011882022 @default.
W2769601188 countsByYear W27696011882023 @default.
W2769601188 crossrefType "journal-article" @default.
W2769601188 hasAuthorship W2769601188A5020310545 @default.
W2769601188 hasAuthorship W2769601188A5029489687 @default.
W2769601188 hasAuthorship W2769601188A5076350341 @default.
W2769601188 hasBestOaLocation W27696011881 @default.
W2769601188 hasConcept C115260700 @default.
W2769601188 hasConcept C121332964 @default.
W2769601188 hasConcept C1276947 @default.
W2769601188 hasConcept C145148216 @default.
W2769601188 hasConcept C198291218 @default.
W2769601188 hasConcept C2776401274 @default.
W2769601188 hasConcept C31532427 @default.
W2769601188 hasConcept C43481613 @default.
W2769601188 hasConcept C44870925 @default.
W2769601188 hasConcept C4839761 @default.
W2769601188 hasConcept C62520636 @default.
W2769601188 hasConcept C82706917 @default.
W2769601188 hasConcept C98444146 @default.
W2769601188 hasConceptScore W2769601188C115260700 @default.
W2769601188 hasConceptScore W2769601188C121332964 @default.
W2769601188 hasConceptScore W2769601188C1276947 @default.
W2769601188 hasConceptScore W2769601188C145148216 @default.
W2769601188 hasConceptScore W2769601188C198291218 @default.
W2769601188 hasConceptScore W2769601188C2776401274 @default.
W2769601188 hasConceptScore W2769601188C31532427 @default.
W2769601188 hasConceptScore W2769601188C43481613 @default.
W2769601188 hasConceptScore W2769601188C44870925 @default.