LONG-TERM SPECTRAL EVOLUTION OF TIDAL DISRUPTION CANDIDATES SELECTED BY STRONG CORONAL LINES

We present results of follow-up optical spectroscopic Multi-Mirror Telescope (MMT) observations of seven rare, extreme coronal line-emitting galaxies reported by Wang et al. Large variations in coronal lines are found in four objects, making them strong candidates for tidal disruption events (TDEs)....

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Published inThe Astrophysical journal Vol. 774; no. 1; pp. 46 - 13
Main Authors Yang, Chen-Wei, Wang, Ting-Gui, Ferland, Gary, Yuan, Weimin, Zhou, Hong-Yan, Jiang, Peng
Format Journal Article
LanguageEnglish
Published United States 01.09.2013
Subjects
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Asymptotic properties
Density
Disruption
ENERGY SPECTRA
Flares
Galactic nuclei
GALAXIES
GALAXY NUCLEI
Ionization
LINE WIDTHS
OXYGEN IONS
SKY
SOFT X RADIATION
Spectral energy distribution
Spectral lines
STELLAR CORONAE
TELESCOPES
ULTRAVIOLET RADIATION
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Abstract We present results of follow-up optical spectroscopic Multi-Mirror Telescope (MMT) observations of seven rare, extreme coronal line-emitting galaxies reported by Wang et al. Large variations in coronal lines are found in four objects, making them strong candidates for tidal disruption events (TDEs). For the four TDE candidates, all the coronal lines with ionization states higher than [FeVII] disappear within 5-9 yr. The [FeVII] line faded by a factor of about five in one object (J0952+2143) within 4 yr, whereas the line emerged in another two objects that previously did not show the line. A strong increment in the [OIII] flux is observed, shifting the line ratios toward the loci of active galactic nuclei on the BPT diagram. Surprisingly, we detect a non-canonical [OIII] [lambda]5007/[OIII] [lambda]4959 ratio of [Asymptotically = to]2 in two objects, indicating a large column density of O super(2+) and thus probably optically thick gas. This result also requires a very large ionization parameter and a relatively soft ionizing spectral energy distribution (e.g., a blackbody with T < 5 x 10 super(4) K). Our observations can be explained as the echoing of a strong ultraviolet to soft X-ray flare caused by TDEs on molecular clouds in the inner parsecs of the galactic nuclei. Reanalyzing the Sloan Digital Sky Survey spectra reveals double-peaked or strongly blue-shouldered broad lines in three of the objects, which disappeared in the MMT spectra of two objects and faded by a factor of 10 in 8 yr in the remaining object with a decrease in both the line width and centroid offset. We interpret these broad lines as arising from decelerating biconical outflows. Our results demonstrate that the signatures of echoing can persist for as long as 10 yr and can be used to probe the gas environment in quiescent galactic nuclei.
AbstractList We present results of follow-up optical spectroscopic Multi-Mirror Telescope (MMT) observations of seven rare, extreme coronal line-emitting galaxies reported by Wang et al. Large variations in coronal lines are found in four objects, making them strong candidates for tidal disruption events (TDEs). For the four TDE candidates, all the coronal lines with ionization states higher than [FeVII] disappear within 5-9 yr. The [FeVII] line faded by a factor of about five in one object (J0952+2143) within 4 yr, whereas the line emerged in another two objects that previously did not show the line. A strong increment in the [OIII] flux is observed, shifting the line ratios toward the loci of active galactic nuclei on the BPT diagram. Surprisingly, we detect a non-canonical [OIII] [lambda]5007/[OIII] [lambda]4959 ratio of [Asymptotically = to]2 in two objects, indicating a large column density of O super(2+) and thus probably optically thick gas. This result also requires a very large ionization parameter and a relatively soft ionizing spectral energy distribution (e.g., a blackbody with T < 5 x 10 super(4) K). Our observations can be explained as the echoing of a strong ultraviolet to soft X-ray flare caused by TDEs on molecular clouds in the inner parsecs of the galactic nuclei. Reanalyzing the Sloan Digital Sky Survey spectra reveals double-peaked or strongly blue-shouldered broad lines in three of the objects, which disappeared in the MMT spectra of two objects and faded by a factor of 10 in 8 yr in the remaining object with a decrease in both the line width and centroid offset. We interpret these broad lines as arising from decelerating biconical outflows. Our results demonstrate that the signatures of echoing can persist for as long as 10 yr and can be used to probe the gas environment in quiescent galactic nuclei.
We present results of follow-up optical spectroscopic Multi-Mirror Telescope (MMT) observations of seven rare, extreme coronal line-emitting galaxies reported by Wang et al. Large variations in coronal lines are found in four objects, making them strong candidates for tidal disruption events (TDEs). For the four TDE candidates, all the coronal lines with ionization states higher than [Fe VII] disappear within 5-9 yr. The [Fe VII] line faded by a factor of about five in one object (J0952+2143) within 4 yr, whereas the line emerged in another two objects that previously did not show the line. A strong increment in the [O III] flux is observed, shifting the line ratios toward the loci of active galactic nuclei on the BPT diagram. Surprisingly, we detect a non-canonical [O III] {lambda}5007/[O III] {lambda}4959 ratio of {approx_equal} 2 in two objects, indicating a large column density of O{sup 2+} and thus probably optically thick gas. This result also requires a very large ionization parameter and a relatively soft ionizing spectral energy distribution (e.g., a blackbody with T < 5 Multiplication-Sign 10{sup 4} K). Our observations can be explained as the echoing of a strong ultraviolet to soft X-ray flare caused by TDEs on molecular clouds in the inner parsecs of the galactic nuclei. Reanalyzing the Sloan Digital Sky Survey spectra reveals double-peaked or strongly blue-shouldered broad lines in three of the objects, which disappeared in the MMT spectra of two objects and faded by a factor of 10 in 8 yr in the remaining object with a decrease in both the line width and centroid offset. We interpret these broad lines as arising from decelerating biconical outflows. Our results demonstrate that the signatures of echoing can persist for as long as 10 yr and can be used to probe the gas environment in quiescent galactic nuclei.
Author Wang, Ting-Gui
Yuan, Weimin
Yang, Chen-Wei
Zhou, Hong-Yan
Ferland, Gary
Jiang, Peng
Author_xml – sequence: 1
  givenname: Chen-Wei
  surname: Yang
  fullname: Yang, Chen-Wei
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  givenname: Ting-Gui
  surname: Wang
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  surname: Ferland
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  givenname: Hong-Yan
  surname: Zhou
  fullname: Zhou, Hong-Yan
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  surname: Jiang
  fullname: Jiang, Peng
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Snippet We present results of follow-up optical spectroscopic Multi-Mirror Telescope (MMT) observations of seven rare, extreme coronal line-emitting galaxies reported...
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SubjectTerms ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Asymptotic properties
Density
Disruption
ENERGY SPECTRA
Flares
Galactic nuclei
GALAXIES
GALAXY NUCLEI
Ionization
LINE WIDTHS
OXYGEN IONS
SKY
SOFT X RADIATION
Spectral energy distribution
Spectral lines
STELLAR CORONAE
TELESCOPES
ULTRAVIOLET RADIATION
Title LONG-TERM SPECTRAL EVOLUTION OF TIDAL DISRUPTION CANDIDATES SELECTED BY STRONG CORONAL LINES
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