TY - JOUR

T1 - Circumnuclear regions of different BPT types in star-forming MaNGA galaxies

T2 - AGN detectability

AU - Pilyugin, L. S.

AU - Grebel, E. K.

AU - Zinchenko, I. A.

AU - Lara-Lopez, M. A.

AU - Nefedyev, Y. A.

AU - Shulga, V. M.

PY - 2020/7/14

Y1 - 2020/7/14

N2 - We consider the circumnuclear regions of star-forming MaNGA galaxies. The spaxels spectra are classified as active-galactic-nucleus-like (AGN-like), HII-region-like (or SF-like), and intermediate (INT) spectra according to their positions on the Baldwin-Phillips-Terlevich (BPT) diagram. There are the following four configurations of the radiation distributions in the circumnuclear regions in (massive) galaxies: (1) AGN+INT, the innermost region of the AGN-like radiation is surrounded by a ring of radiation of the intermediate type; (2) INT, the central area of radiation of the intermediate type; (3) SF+INT, the inner region of the HII-region-like radiation is surrounded by a ring of radiation of the intermediate type; and (4) SF, the central area of the HII-region-like radiation only. The low ionization nuclear emission line regions (LINERs) of configurations 1 and 2 are examined. The spaxel spectra of the LINERs form a sequences on the BPT diagram, that is, they lie along the known AGN-SF mixing line trajectories. The diagnostic line ratios of the spaxels spectra change smoothly with radius, from AGN-like (or INT) line ratios at the galactic center to HII-region-like at larger galactocentric distances. This is in agreement with the paradigm that the LINERs are excited by AGN activity. We found that the AGN and INT radiation in the circumnuclear region is accompanied by an enhanced gas velocity dispersion sigma (gas). The radius of the area of the AGN and INT radiation is similar to the radius of the area with enhanced sigma (gas), and the central sigma (gas, c) correlates with the luminosity of the AGN+INT area. We assume that the gas velocity dispersion can serve as an indicator of the AGN activity. An appreciable enhancement of sigma (gas, c) was also measured in the SF-type centers of massive galaxies. The values of sigma (gas, c) for the SF-type centers partly overlap with those of the AGN-type centers. This suggests that the manifestation of the circumnuclear region as AGN or as SF on the BPT diagram depends not only on the value of sigma (gas, c) (the level of the AGN activity) but it is also governed by an additional parameter(s). We find that there is a demarcation line between the positions of the AGN-type and SF-type objects on the central gas velocity dispersion - central H alpha surface brightness diagram, in the sense that an object with a given value of sigma (gas, c) is an AGN-type only if the central H alpha surface brightness is lower than some value.

AB - We consider the circumnuclear regions of star-forming MaNGA galaxies. The spaxels spectra are classified as active-galactic-nucleus-like (AGN-like), HII-region-like (or SF-like), and intermediate (INT) spectra according to their positions on the Baldwin-Phillips-Terlevich (BPT) diagram. There are the following four configurations of the radiation distributions in the circumnuclear regions in (massive) galaxies: (1) AGN+INT, the innermost region of the AGN-like radiation is surrounded by a ring of radiation of the intermediate type; (2) INT, the central area of radiation of the intermediate type; (3) SF+INT, the inner region of the HII-region-like radiation is surrounded by a ring of radiation of the intermediate type; and (4) SF, the central area of the HII-region-like radiation only. The low ionization nuclear emission line regions (LINERs) of configurations 1 and 2 are examined. The spaxel spectra of the LINERs form a sequences on the BPT diagram, that is, they lie along the known AGN-SF mixing line trajectories. The diagnostic line ratios of the spaxels spectra change smoothly with radius, from AGN-like (or INT) line ratios at the galactic center to HII-region-like at larger galactocentric distances. This is in agreement with the paradigm that the LINERs are excited by AGN activity. We found that the AGN and INT radiation in the circumnuclear region is accompanied by an enhanced gas velocity dispersion sigma (gas). The radius of the area of the AGN and INT radiation is similar to the radius of the area with enhanced sigma (gas), and the central sigma (gas, c) correlates with the luminosity of the AGN+INT area. We assume that the gas velocity dispersion can serve as an indicator of the AGN activity. An appreciable enhancement of sigma (gas, c) was also measured in the SF-type centers of massive galaxies. The values of sigma (gas, c) for the SF-type centers partly overlap with those of the AGN-type centers. This suggests that the manifestation of the circumnuclear region as AGN or as SF on the BPT diagram depends not only on the value of sigma (gas, c) (the level of the AGN activity) but it is also governed by an additional parameter(s). We find that there is a demarcation line between the positions of the AGN-type and SF-type objects on the central gas velocity dispersion - central H alpha surface brightness diagram, in the sense that an object with a given value of sigma (gas, c) is an AGN-type only if the central H alpha surface brightness is lower than some value.

KW - galaxies: active

KW - Galaxy: nucleus

KW - ISM: general

KW - DIGITAL SKY SURVEY

KW - SUPERMASSIVE BLACK-HOLES

KW - SEMIEMPIRICAL ANALYSIS

KW - DIAGNOSTIC DIAGRAMS

KW - ANGSTROM EMISSION

KW - SEYFERT-GALAXIES

KW - ROTATION CURVES

KW - GALACTIC NUCLEI

KW - HOST GALAXIES

KW - STELLAR

U2 - 10.1051/0004-6361/202038034

DO - 10.1051/0004-6361/202038034

M3 - Journal article

VL - 639

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

SN - 0004-6361

M1 - A96

ER -