The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar

Logan B. Fries; Jonathan R. Trump; Megan C. Davis; C. J. Grier; Yue Shen; Scott F. Anderson; Tom Dwelly; Michael Eracleous; Y. Homayouni; Keith Horne; Mirko Krumpe; Sean Morrison; Jessie C. Runnoe; Benny Trakhtenbrot; Roberto J. Assef; W. N. Brandt; Joel Brownstein; Collin Dabbieri; Alexander Fix; Gloria Fonseca Alvarez; Sara Frederick; P. B. Hall; Anton M. Koekemoer; Jennifer I.Hsiu Li; Xin Liu; Mary Loli Martínez-Aldama; Claudio Ricci; Donald P. Schneider; Hugh W. Sharp; Matthew J. Temple; Qian Yang; Grisha Zeltyn; Dmitry Bizyaev

doi:10.3847/1538-4357/acbfb7

The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar

Logan B. Fries, Jonathan R. Trump, Megan C. Davis, C. J. Grier, Yue Shen, Scott F. Anderson, Tom Dwelly, Michael Eracleous, Y. Homayouni, Keith Horne, Mirko Krumpe, Sean Morrison, Jessie C. Runnoe, Benny Trakhtenbrot, Roberto J. Assef, W. N. Brandt, Joel Brownstein, Collin Dabbieri, Alexander Fix, Gloria Fonseca AlvarezSara Frederick, P. B. Hall, Anton M. Koekemoer, Jennifer I.Hsiu Li, Xin Liu, Mary Loli Martínez-Aldama, Claudio Ricci, Donald P. Schneider, Hugh W. Sharp, Matthew J. Temple, Qian Yang, Grisha Zeltyn, Dmitry Bizyaev

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Abstract

We present a high-cadence multiepoch analysis of dramatic variability of three broad emission lines (Mg ii, Hβ, and Hα) in the spectra of the luminous quasar (λ L _λ(5100 Å) = 4.7 × 10⁴⁴ erg s⁻¹) SDSS J141041.25+531849.0 at z = 0.359 with 127 spectroscopic epochs over nine years of monitoring (2013-2022). We observe anticorrelations between the broad emission-line widths and flux in all three emission lines, indicating that all three broad emission lines “breathe” in response to stochastic continuum variations. We also observe dramatic radial velocity shifts in all three broad emission lines, ranging from Δv ∼ 400 km s⁻¹ to ∼800 km s⁻¹, that vary over the course of the monitoring period. Our preferred explanation for the broad-line variability is complex kinematics in the gas in the broad-line region. We suggest a model for the broad-line variability that includes a combination of gas inflow with a radial gradient, an azimuthal asymmetry (e.g., a hot spot), superimposed on the stochastic flux-driven changes to the optimal emission region (“line breathing”). Similar instances of line-profile variability due to complex gas kinematics around quasars are likely to represent an important source of false positives in radial velocity searches for binary black holes, which typically lack the kind of high-cadence data we analyze here. The long-duration, wide-field, and many-epoch spectroscopic monitoring of SDSS-V BHM-RM provides an excellent opportunity for identifying and characterizing broad emission-line variability, and the inferred nature of the inner gas environment, of luminous quasars.

Original language	English (US)
Article number	5
Journal	Astrophysical Journal
Volume	948
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/acbfb7
State	Published - May 1 2023

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Fries, L. B., Trump, J. R., Davis, M. C., Grier, C. J., Shen, Y., Anderson, S. F., Dwelly, T., Eracleous, M., Homayouni, Y., Horne, K., Krumpe, M., Morrison, S., Runnoe, J. C., Trakhtenbrot, B., Assef, R. J., Brandt, W. N., Brownstein, J., Dabbieri, C., Fix, A., ... Bizyaev, D. (2023). The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar. Astrophysical Journal, 948(1), Article 5. https://doi.org/10.3847/1538-4357/acbfb7

Fries, LB, Trump, JR, Davis, MC, Grier, CJ, Shen, Y, Anderson, SF, Dwelly, T, Eracleous, M, Homayouni, Y, Horne, K, Krumpe, M, Morrison, S, Runnoe, JC, Trakhtenbrot, B, Assef, RJ, Brandt, WN, Brownstein, J, Dabbieri, C, Fix, A, Fonseca Alvarez, G, Frederick, S, Hall, PB, Koekemoer, AM, Li, JIH, Liu, X, Martínez-Aldama, ML, Ricci, C, Schneider, DP, Sharp, HW, Temple, MJ, Yang, Q, Zeltyn, G & Bizyaev, D 2023, 'The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar', Astrophysical Journal, vol. 948, no. 1, 5. https://doi.org/10.3847/1538-4357/acbfb7

@article{4be2d45ef86042fcb6e7df7d2c769a7f,

title = "The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar",

abstract = "We present a high-cadence multiepoch analysis of dramatic variability of three broad emission lines (Mg ii, Hβ, and Hα) in the spectra of the luminous quasar (λ L λ (5100 {\AA}) = 4.7 × 1044 erg s−1) SDSS J141041.25+531849.0 at z = 0.359 with 127 spectroscopic epochs over nine years of monitoring (2013-2022). We observe anticorrelations between the broad emission-line widths and flux in all three emission lines, indicating that all three broad emission lines “breathe” in response to stochastic continuum variations. We also observe dramatic radial velocity shifts in all three broad emission lines, ranging from Δv ∼ 400 km s−1 to ∼800 km s−1, that vary over the course of the monitoring period. Our preferred explanation for the broad-line variability is complex kinematics in the gas in the broad-line region. We suggest a model for the broad-line variability that includes a combination of gas inflow with a radial gradient, an azimuthal asymmetry (e.g., a hot spot), superimposed on the stochastic flux-driven changes to the optimal emission region (“line breathing”). Similar instances of line-profile variability due to complex gas kinematics around quasars are likely to represent an important source of false positives in radial velocity searches for binary black holes, which typically lack the kind of high-cadence data we analyze here. The long-duration, wide-field, and many-epoch spectroscopic monitoring of SDSS-V BHM-RM provides an excellent opportunity for identifying and characterizing broad emission-line variability, and the inferred nature of the inner gas environment, of luminous quasars.",

author = "Fries, {Logan B.} and Trump, {Jonathan R.} and Davis, {Megan C.} and Grier, {C. J.} and Yue Shen and Anderson, {Scott F.} and Tom Dwelly and Michael Eracleous and Y. Homayouni and Keith Horne and Mirko Krumpe and Sean Morrison and Runnoe, {Jessie C.} and Benny Trakhtenbrot and Assef, {Roberto J.} and Brandt, {W. N.} and Joel Brownstein and Collin Dabbieri and Alexander Fix and {Fonseca Alvarez}, Gloria and Sara Frederick and Hall, {P. B.} and Koekemoer, {Anton M.} and Li, {Jennifer I.Hsiu} and Xin Liu and Mart{\'i}nez-Aldama, {Mary Loli} and Claudio Ricci and Schneider, {Donald P.} and Sharp, {Hugh W.} and Temple, {Matthew J.} and Qian Yang and Grisha Zeltyn and Dmitry Bizyaev",

note = "L.B.F., J.R.T., and M.C.D. acknowledge support from NSF grant CAREER-1945546, and with C.J.G. acknowledge support from NSF grant AST-2108668. J.R.T., C.J.G., and Y.S. also acknowledge support from NSF grant AST-2009539. M.K. acknowledges support by DFG grant KR 3338/4-1. B.T. acknowledges support from the European Research Council (ERC) under the European Union{\textquoteright}s Horizon 2020 research and innovation program (grant agreement 950533) and from the Israel Science Foundation (grant 1849/19). X.L. acknowledges support from NSF grant AST-2206499. C.R. acknowledges support from the Fondecyt Iniciaci{\'o}n grant 11190831 and ANID BASAL project FB210003. R.J.A. acknowledges support by ANID BASAL FB210003 and by FONDECYT grant number 1191124. M.L.M.-A. acknowledges financial support from Millennium Nucleus NCN19058 (TITANs). Funding for the Sloan Digital Sky Survey V has been provided by the Alfred P. Sloan Foundation, the Heising–Simons Foundation, the National Science Foundation, and the Participating Institutions. SDSS acknowledges support and resources from the Center for High-Performance Computing at the University of Utah. The SDSS website is www.sdss5.org. L.B.F., J.R.T., and M.C.D. acknowledge support from NSF grant CAREER-1945546, and with C.J.G. acknowledge support from NSF grant AST-2108668. J.R.T., C.J.G., and Y.S. also acknowledge support from NSF grant AST-2009539. M.K. acknowledges support by DFG grant KR 3338/4-1. B.T. acknowledges support from the European Research Council (ERC) under the European Union{\textquoteright}s Horizon 2020 research and innovation program (grant agreement 950533) and from the Israel Science Foundation (grant 1849/19). X.L. acknowledges support from NSF grant AST-2206499. C.R. acknowledges support from the Fondecyt Iniciaci{\'o}n grant 11190831 and ANID BASAL project FB210003. R.J.A. acknowledges support by ANID BASAL FB210003 and by FONDECYT grant number 1191124. M.L.M.-A. acknowledges financial support from Millennium Nucleus NCN19 (TITANs). 058",

year = "2023",

month = may,

day = "1",

doi = "10.3847/1538-4357/acbfb7",

language = "English (US)",

volume = "948",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

}

TY - JOUR

T1 - The SDSS-V Black Hole Mapper Reverberation Mapping Project

T2 - Unusual Broad-line Variability in a Luminous Quasar

AU - Fries, Logan B.

AU - Trump, Jonathan R.

AU - Davis, Megan C.

AU - Grier, C. J.

AU - Shen, Yue

AU - Anderson, Scott F.

AU - Dwelly, Tom

AU - Eracleous, Michael

AU - Homayouni, Y.

AU - Horne, Keith

AU - Krumpe, Mirko

AU - Morrison, Sean

AU - Runnoe, Jessie C.

AU - Trakhtenbrot, Benny

AU - Assef, Roberto J.

AU - Brandt, W. N.

AU - Brownstein, Joel

AU - Dabbieri, Collin

AU - Fix, Alexander

AU - Fonseca Alvarez, Gloria

AU - Frederick, Sara

AU - Hall, P. B.

AU - Koekemoer, Anton M.

AU - Li, Jennifer I.Hsiu

AU - Liu, Xin

AU - Martínez-Aldama, Mary Loli

AU - Ricci, Claudio

AU - Schneider, Donald P.

AU - Sharp, Hugh W.

AU - Temple, Matthew J.

AU - Yang, Qian

AU - Zeltyn, Grisha

AU - Bizyaev, Dmitry

N1 - L.B.F., J.R.T., and M.C.D. acknowledge support from NSF grant CAREER-1945546, and with C.J.G. acknowledge support from NSF grant AST-2108668. J.R.T., C.J.G., and Y.S. also acknowledge support from NSF grant AST-2009539. M.K. acknowledges support by DFG grant KR 3338/4-1. B.T. acknowledges support from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement 950533) and from the Israel Science Foundation (grant 1849/19). X.L. acknowledges support from NSF grant AST-2206499. C.R. acknowledges support from the Fondecyt Iniciación grant 11190831 and ANID BASAL project FB210003. R.J.A. acknowledges support by ANID BASAL FB210003 and by FONDECYT grant number 1191124. M.L.M.-A. acknowledges financial support from Millennium Nucleus NCN19058 (TITANs). Funding for the Sloan Digital Sky Survey V has been provided by the Alfred P. Sloan Foundation, the Heising–Simons Foundation, the National Science Foundation, and the Participating Institutions. SDSS acknowledges support and resources from the Center for High-Performance Computing at the University of Utah. The SDSS website is www.sdss5.org. L.B.F., J.R.T., and M.C.D. acknowledge support from NSF grant CAREER-1945546, and with C.J.G. acknowledge support from NSF grant AST-2108668. J.R.T., C.J.G., and Y.S. also acknowledge support from NSF grant AST-2009539. M.K. acknowledges support by DFG grant KR 3338/4-1. B.T. acknowledges support from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement 950533) and from the Israel Science Foundation (grant 1849/19). X.L. acknowledges support from NSF grant AST-2206499. C.R. acknowledges support from the Fondecyt Iniciación grant 11190831 and ANID BASAL project FB210003. R.J.A. acknowledges support by ANID BASAL FB210003 and by FONDECYT grant number 1191124. M.L.M.-A. acknowledges financial support from Millennium Nucleus NCN19 (TITANs). 058

PY - 2023/5/1

Y1 - 2023/5/1

N2 - We present a high-cadence multiepoch analysis of dramatic variability of three broad emission lines (Mg ii, Hβ, and Hα) in the spectra of the luminous quasar (λ L λ (5100 Å) = 4.7 × 1044 erg s−1) SDSS J141041.25+531849.0 at z = 0.359 with 127 spectroscopic epochs over nine years of monitoring (2013-2022). We observe anticorrelations between the broad emission-line widths and flux in all three emission lines, indicating that all three broad emission lines “breathe” in response to stochastic continuum variations. We also observe dramatic radial velocity shifts in all three broad emission lines, ranging from Δv ∼ 400 km s−1 to ∼800 km s−1, that vary over the course of the monitoring period. Our preferred explanation for the broad-line variability is complex kinematics in the gas in the broad-line region. We suggest a model for the broad-line variability that includes a combination of gas inflow with a radial gradient, an azimuthal asymmetry (e.g., a hot spot), superimposed on the stochastic flux-driven changes to the optimal emission region (“line breathing”). Similar instances of line-profile variability due to complex gas kinematics around quasars are likely to represent an important source of false positives in radial velocity searches for binary black holes, which typically lack the kind of high-cadence data we analyze here. The long-duration, wide-field, and many-epoch spectroscopic monitoring of SDSS-V BHM-RM provides an excellent opportunity for identifying and characterizing broad emission-line variability, and the inferred nature of the inner gas environment, of luminous quasars.

AB - We present a high-cadence multiepoch analysis of dramatic variability of three broad emission lines (Mg ii, Hβ, and Hα) in the spectra of the luminous quasar (λ L λ (5100 Å) = 4.7 × 1044 erg s−1) SDSS J141041.25+531849.0 at z = 0.359 with 127 spectroscopic epochs over nine years of monitoring (2013-2022). We observe anticorrelations between the broad emission-line widths and flux in all three emission lines, indicating that all three broad emission lines “breathe” in response to stochastic continuum variations. We also observe dramatic radial velocity shifts in all three broad emission lines, ranging from Δv ∼ 400 km s−1 to ∼800 km s−1, that vary over the course of the monitoring period. Our preferred explanation for the broad-line variability is complex kinematics in the gas in the broad-line region. We suggest a model for the broad-line variability that includes a combination of gas inflow with a radial gradient, an azimuthal asymmetry (e.g., a hot spot), superimposed on the stochastic flux-driven changes to the optimal emission region (“line breathing”). Similar instances of line-profile variability due to complex gas kinematics around quasars are likely to represent an important source of false positives in radial velocity searches for binary black holes, which typically lack the kind of high-cadence data we analyze here. The long-duration, wide-field, and many-epoch spectroscopic monitoring of SDSS-V BHM-RM provides an excellent opportunity for identifying and characterizing broad emission-line variability, and the inferred nature of the inner gas environment, of luminous quasars.

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U2 - 10.3847/1538-4357/acbfb7

DO - 10.3847/1538-4357/acbfb7

M3 - Article

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VL - 948

JO - Astrophysical Journal

JF - Astrophysical Journal

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ER -

The SDSS-V Black Hole Mapper Reverberation Mapping Project: Unusual Broad-line Variability in a Luminous Quasar

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