The SDSS-V Black Hole Mapper Reverberation Mapping Project: A Kinematically Variable Broad-Line Region and Consequences for Masses of Luminous Quasars

We present a velocity-resolved reverberation mapping analysis of the hypervariable quasar RM160 (SDSS J141041.25+531849.0) at z = 0.359 with 153 spectroscopic epochs of data representing a ten-year baseline (2013-2023). We split the baseline into two regimes based on the 3x flux increase in the ligh...

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Veröffentlicht in:	arXiv.org 2024-09
Hauptverfasser:	Fries, Logan B, Trump, Jonathan R, Horne, Keith, Davis, Megan C, Grier, Catherine J, Shen, Yue, Anderson, Scott F, Dwelly, Tom, Homayouni, Y, Morrison, Sean, Runnoe, Jessie C, Trakhtenbrot, Benny, Assef, Roberto J, Bizyaev, Dmitry, Brandt, W N, Breiding, Peter, Browstein, Joel, Chakraborty, Priyanka, Hall, P B, Koekemoer, Anton M, Ibarra-Medel, Héctor J, Martínez-Aldama, Mary Loli, Negrete, C Alenka, Pan, Kaike, Ricci, Claudio, Scheider, Donald P, Sharp, Hugh W, Smith, Theodore B, Stone, Zachary, Temple, Matthew J
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Schlagworte:	Inflow Kinematics Light curve Luminosity Mapping Quasars Reverberation
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creator	Fries, Logan B Trump, Jonathan R Horne, Keith Davis, Megan C Grier, Catherine J Shen, Yue Anderson, Scott F Dwelly, Tom Homayouni, Y Morrison, Sean Runnoe, Jessie C Trakhtenbrot, Benny Assef, Roberto J Bizyaev, Dmitry Brandt, W N Breiding, Peter Browstein, Joel Chakraborty, Priyanka Hall, P B Koekemoer, Anton M Ibarra-Medel, Héctor J Martínez-Aldama, Mary Loli Negrete, C Alenka Pan, Kaike Ricci, Claudio Scheider, Donald P Sharp, Hugh W Smith, Theodore B Stone, Zachary Temple, Matthew J
description	We present a velocity-resolved reverberation mapping analysis of the hypervariable quasar RM160 (SDSS J141041.25+531849.0) at z = 0.359 with 153 spectroscopic epochs of data representing a ten-year baseline (2013-2023). We split the baseline into two regimes based on the 3x flux increase in the light curve: a 'low state' phase during the years 2013-2019 and a 'high state' phase during the years 2022-2023. The velocity-resolved lag profiles (VRLP) indicate that gas with different kinematics dominates the line emission in different states. The H\b{eta} VRLP begins with a signature of inflow onto the BLR in the 'low state', while in the 'high state' it is flatter with less signature of inflow. The H{\alpha} VRLP begins consistent with a virialized BLR in the 'low state', while in the 'high state' shows a signature of inflow. The differences in the kinematics between the Balmer lines and between the 'low state' and the 'high state' suggests complex BLR dynamics. We find that the BLR radius and velocity (both FWHM and {\sigma}) do not obey a constant virial product throughout the monitoring period. We find that BLR lags and continuum luminosity are correlated, consistent with rapid response of the BLR gas to the illuminating continuum. The BLR kinematic profile changes in unpredictable ways that are not related to continuum changes and reverberation lag. Our observations indicate that non-virial kinematics can significantly contribute to observed line profiles, suggesting caution for black-hole mass estimation in luminous and highly varying quasars like RM160.
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We split the baseline into two regimes based on the 3x flux increase in the light curve: a 'low state' phase during the years 2013-2019 and a 'high state' phase during the years 2022-2023. The velocity-resolved lag profiles (VRLP) indicate that gas with different kinematics dominates the line emission in different states. The H\b{eta} VRLP begins with a signature of inflow onto the BLR in the 'low state', while in the 'high state' it is flatter with less signature of inflow. The H{\alpha} VRLP begins consistent with a virialized BLR in the 'low state', while in the 'high state' shows a signature of inflow. The differences in the kinematics between the Balmer lines and between the 'low state' and the 'high state' suggests complex BLR dynamics. We find that the BLR radius and velocity (both FWHM and {\sigma}) do not obey a constant virial product throughout the monitoring period. We find that BLR lags and continuum luminosity are correlated, consistent with rapid response of the BLR gas to the illuminating continuum. The BLR kinematic profile changes in unpredictable ways that are not related to continuum changes and reverberation lag. Our observations indicate that non-virial kinematics can significantly contribute to observed line profiles, suggesting caution for black-hole mass estimation in luminous and highly varying quasars like RM160.</description><identifier>EISSN: 2331-8422</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Inflow ; Kinematics ; Light curve ; Luminosity ; Mapping ; Quasars ; Reverberation</subject><ispartof>arXiv.org, 2024-09</ispartof><rights>2024. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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We split the baseline into two regimes based on the 3x flux increase in the light curve: a 'low state' phase during the years 2013-2019 and a 'high state' phase during the years 2022-2023. The velocity-resolved lag profiles (VRLP) indicate that gas with different kinematics dominates the line emission in different states. The H\b{eta} VRLP begins with a signature of inflow onto the BLR in the 'low state', while in the 'high state' it is flatter with less signature of inflow. The H{\alpha} VRLP begins consistent with a virialized BLR in the 'low state', while in the 'high state' shows a signature of inflow. The differences in the kinematics between the Balmer lines and between the 'low state' and the 'high state' suggests complex BLR dynamics. We find that the BLR radius and velocity (both FWHM and {\sigma}) do not obey a constant virial product throughout the monitoring period. We find that BLR lags and continuum luminosity are correlated, consistent with rapid response of the BLR gas to the illuminating continuum. The BLR kinematic profile changes in unpredictable ways that are not related to continuum changes and reverberation lag. 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subjects	Inflow Kinematics Light curve Luminosity Mapping Quasars Reverberation
title	The SDSS-V Black Hole Mapper Reverberation Mapping Project: A Kinematically Variable Broad-Line Region and Consequences for Masses of Luminous Quasars
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