A geometric distance to the supermassive black Hole of NGC 3783

A. Amorim; M. Bauböck; M. C. Bentz; W. Brandner; M. Bolzer; Y. Clénet; R. Davies; P. T. De Zeeuw; J. Dexter; A. Drescher; A. Eckart; F. Eisenhauer; N. M. Förster Schreiber; P. J.V. Garcia; R. Genzel; S. Gillessen; D. Gratadour; S. Hönig; D. Kaltenbrunner; M. Kishimoto; S. Lacour; D. Lutz; F. Millour; H. Netzer; C. A. Onken; T. Ott; T. Paumard; K. Perraut; G. Perrin; P. O. Petrucci; O. Pfuhl; M. A. Prieto; D. Rouan; J. Shangguan; T. Shimizu; J. Stadler; A. Sternberg; O. Straub; C. Straubmeier; R. Street; E. Sturm; L. J. Tacconi; K. R.W. Tristram; P. Vermot; S. Von Fellenberg; F. Widmann; J. Woillez

doi:10.1051/0004-6361/202141426

A geometric distance to the supermassive black Hole of NGC 3783

A. Amorim, M. Bauböck, M. C. Bentz, W. Brandner, M. Bolzer, Y. Clénet, R. Davies, P. T. De Zeeuw, J. Dexter, A. Drescher, A. Eckart, F. Eisenhauer, N. M. Förster Schreiber, P. J.V. Garcia, R. Genzel, S. Gillessen, D. Gratadour, S. Hönig, D. Kaltenbrunner, M. KishimotoS. Lacour, D. Lutz, F. Millour, H. Netzer, C. A. Onken, T. Ott, T. Paumard, K. Perraut, G. Perrin, P. O. Petrucci, O. Pfuhl, M. A. Prieto, D. Rouan, J. Shangguan, T. Shimizu, J. Stadler, A. Sternberg, O. Straub, C. Straubmeier, R. Street, E. Sturm, L. J. Tacconi, K. R.W. Tristram, P. Vermot, S. Von Fellenberg, F. Widmann, J. Woillez

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

The angular size of the broad line region (BLR) of the nearby active galactic nucleus NGC 3783 has been spatially resolved by recent observations with VLTI/GRAVITY. A reverberation mapping (RM) campaign has also recently obtained high quality light curves and measured the linear size of the BLR in a way that is complementary to the GRAVITY measurement. The size and kinematics of the BLR can be better constrained by a joint analysis that combines both GRAVITY and RM data. This, in turn, allows us to obtain the mass of the supermassive black hole in NGC 3783 with an accuracy that is about a factor of two better than that inferred from GRAVITY data alone. We derive MBH = 2.54-0.72+0.90 × 107 M⊙ . Finally, and perhaps most notably, we are able to measure a geometric distance to NGC 3783 of 39.9-11.9+14.5 Mpc. We are able to test the robustness of the BLR-based geometric distance with measurements based on the Tully-Fisher relation and other indirect methods. We find the geometric distance is consistent with other methods within their scatter. We explore the potential of BLR-based geometric distances to directly constrain the Hubble constant, H0, and identify differential phase uncertainties as the current dominant limitation to the H0 measurement precision for individual sources.

Original language	English
Article number	A85
Journal	Astronomy and Astrophysics
Volume	654
DOIs	https://doi.org/10.1051/0004-6361/202141426
State	Published - 1 Oct 2021

Funding

Funders	Funder number
Centre National de la Recherche Scientifique
french space agency CNES
National Science Foundation	1909711
Fun-dação para a Ciência e a Tecnologia	PTDC/FIS-AST/7002/2020, UIDB/00099/2020
Horizon 2020 Framework Programme	677117
Alfred P. Sloan Foundation	AST-2009230
Fundação para a Ciência e a Tecnologia	SFRH/BSAB/142940/2018
European Research Council	IA 101220

Keywords

Distance scale
Galaxies: Seyfert
Galaxies: active
Galaxies: nuclei
Quasars: individual: NGC 3783

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10.1051/0004-6361/202141426

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Amorim, A., Bauböck, M., Bentz, M. C., Brandner, W., Bolzer, M., Clénet, Y., Davies, R., De Zeeuw, P. T., Dexter, J., Drescher, A., Eckart, A., Eisenhauer, F., Förster Schreiber, N. M., Garcia, P. J. V., Genzel, R., Gillessen, S., Gratadour, D., Hönig, S., Kaltenbrunner, D., ... Woillez, J. (2021). A geometric distance to the supermassive black Hole of NGC 3783. Astronomy and Astrophysics, 654, Article A85. https://doi.org/10.1051/0004-6361/202141426

@article{a1b53cdd0dd84cf4b7044e4a042a5de6,

title = "A geometric distance to the supermassive black Hole of NGC 3783",

abstract = "The angular size of the broad line region (BLR) of the nearby active galactic nucleus NGC 3783 has been spatially resolved by recent observations with VLTI/GRAVITY. A reverberation mapping (RM) campaign has also recently obtained high quality light curves and measured the linear size of the BLR in a way that is complementary to the GRAVITY measurement. The size and kinematics of the BLR can be better constrained by a joint analysis that combines both GRAVITY and RM data. This, in turn, allows us to obtain the mass of the supermassive black hole in NGC 3783 with an accuracy that is about a factor of two better than that inferred from GRAVITY data alone. We derive MBH = 2.54-0.72+0.90 × 107 M⊙ . Finally, and perhaps most notably, we are able to measure a geometric distance to NGC 3783 of 39.9-11.9+14.5 Mpc. We are able to test the robustness of the BLR-based geometric distance with measurements based on the Tully-Fisher relation and other indirect methods. We find the geometric distance is consistent with other methods within their scatter. We explore the potential of BLR-based geometric distances to directly constrain the Hubble constant, H0, and identify differential phase uncertainties as the current dominant limitation to the H0 measurement precision for individual sources.",

keywords = "Distance scale, Galaxies: Seyfert, Galaxies: active, Galaxies: nuclei, Quasars: individual: NGC 3783",

author = "A. Amorim and M. Baub{\"o}ck and Bentz, {M. C.} and W. Brandner and M. Bolzer and Y. Cl{\'e}net and R. Davies and {De Zeeuw}, {P. T.} and J. Dexter and A. Drescher and A. Eckart and F. Eisenhauer and {F{\"o}rster Schreiber}, {N. M.} and Garcia, {P. J.V.} and R. Genzel and S. Gillessen and D. Gratadour and S. H{\"o}nig and D. Kaltenbrunner and M. Kishimoto and S. Lacour and D. Lutz and F. Millour and H. Netzer and Onken, {C. A.} and T. Ott and T. Paumard and K. Perraut and G. Perrin and Petrucci, {P. O.} and O. Pfuhl and Prieto, {M. A.} and D. Rouan and J. Shangguan and T. Shimizu and J. Stadler and A. Sternberg and O. Straub and C. Straubmeier and R. Street and E. Sturm and Tacconi, {L. J.} and Tristram, {K. R.W.} and P. Vermot and {Von Fellenberg}, S. and F. Widmann and J. Woillez",

note = "Publisher Copyright: {\textcopyright} GRAVITY Collaboration 2021.",

year = "2021",

month = oct,

day = "1",

doi = "10.1051/0004-6361/202141426",

language = "אנגלית",

volume = "654",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

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Amorim, A, Bauböck, M, Bentz, MC, Brandner, W, Bolzer, M, Clénet, Y, Davies, R, De Zeeuw, PT, Dexter, J, Drescher, A, Eckart, A, Eisenhauer, F, Förster Schreiber, NM, Garcia, PJV, Genzel, R, Gillessen, S, Gratadour, D, Hönig, S, Kaltenbrunner, D, Kishimoto, M, Lacour, S, Lutz, D, Millour, F, Netzer, H, Onken, CA, Ott, T, Paumard, T, Perraut, K, Perrin, G, Petrucci, PO, Pfuhl, O, Prieto, MA, Rouan, D, Shangguan, J, Shimizu, T, Stadler, J, Sternberg, A, Straub, O, Straubmeier, C, Street, R, Sturm, E, Tacconi, LJ, Tristram, KRW, Vermot, P, Von Fellenberg, S, Widmann, F & Woillez, J 2021, 'A geometric distance to the supermassive black Hole of NGC 3783', Astronomy and Astrophysics, vol. 654, A85. https://doi.org/10.1051/0004-6361/202141426

TY - JOUR

T1 - A geometric distance to the supermassive black Hole of NGC 3783

AU - Amorim, A.

AU - Bauböck, M.

AU - Bentz, M. C.

AU - Brandner, W.

AU - Bolzer, M.

AU - Clénet, Y.

AU - Davies, R.

AU - De Zeeuw, P. T.

AU - Dexter, J.

AU - Drescher, A.

AU - Eckart, A.

AU - Eisenhauer, F.

AU - Förster Schreiber, N. M.

AU - Garcia, P. J.V.

AU - Genzel, R.

AU - Gillessen, S.

AU - Gratadour, D.

AU - Hönig, S.

AU - Kaltenbrunner, D.

AU - Kishimoto, M.

AU - Lacour, S.

AU - Lutz, D.

AU - Millour, F.

AU - Netzer, H.

AU - Onken, C. A.

AU - Ott, T.

AU - Paumard, T.

AU - Perraut, K.

AU - Perrin, G.

AU - Petrucci, P. O.

AU - Pfuhl, O.

AU - Prieto, M. A.

AU - Rouan, D.

AU - Shangguan, J.

AU - Shimizu, T.

AU - Stadler, J.

AU - Sternberg, A.

AU - Straub, O.

AU - Straubmeier, C.

AU - Street, R.

AU - Sturm, E.

AU - Tacconi, L. J.

AU - Tristram, K. R.W.

AU - Vermot, P.

AU - Von Fellenberg, S.

AU - Widmann, F.

AU - Woillez, J.

PY - 2021/10/1

Y1 - 2021/10/1

N2 - The angular size of the broad line region (BLR) of the nearby active galactic nucleus NGC 3783 has been spatially resolved by recent observations with VLTI/GRAVITY. A reverberation mapping (RM) campaign has also recently obtained high quality light curves and measured the linear size of the BLR in a way that is complementary to the GRAVITY measurement. The size and kinematics of the BLR can be better constrained by a joint analysis that combines both GRAVITY and RM data. This, in turn, allows us to obtain the mass of the supermassive black hole in NGC 3783 with an accuracy that is about a factor of two better than that inferred from GRAVITY data alone. We derive MBH = 2.54-0.72+0.90 × 107 M⊙ . Finally, and perhaps most notably, we are able to measure a geometric distance to NGC 3783 of 39.9-11.9+14.5 Mpc. We are able to test the robustness of the BLR-based geometric distance with measurements based on the Tully-Fisher relation and other indirect methods. We find the geometric distance is consistent with other methods within their scatter. We explore the potential of BLR-based geometric distances to directly constrain the Hubble constant, H0, and identify differential phase uncertainties as the current dominant limitation to the H0 measurement precision for individual sources.

AB - The angular size of the broad line region (BLR) of the nearby active galactic nucleus NGC 3783 has been spatially resolved by recent observations with VLTI/GRAVITY. A reverberation mapping (RM) campaign has also recently obtained high quality light curves and measured the linear size of the BLR in a way that is complementary to the GRAVITY measurement. The size and kinematics of the BLR can be better constrained by a joint analysis that combines both GRAVITY and RM data. This, in turn, allows us to obtain the mass of the supermassive black hole in NGC 3783 with an accuracy that is about a factor of two better than that inferred from GRAVITY data alone. We derive MBH = 2.54-0.72+0.90 × 107 M⊙ . Finally, and perhaps most notably, we are able to measure a geometric distance to NGC 3783 of 39.9-11.9+14.5 Mpc. We are able to test the robustness of the BLR-based geometric distance with measurements based on the Tully-Fisher relation and other indirect methods. We find the geometric distance is consistent with other methods within their scatter. We explore the potential of BLR-based geometric distances to directly constrain the Hubble constant, H0, and identify differential phase uncertainties as the current dominant limitation to the H0 measurement precision for individual sources.

KW - Distance scale

KW - Galaxies: Seyfert

KW - Galaxies: active

KW - Galaxies: nuclei

KW - Quasars: individual: NGC 3783

UR - http://www.scopus.com/inward/record.url?scp=85117412951&partnerID=8YFLogxK

U2 - 10.1051/0004-6361/202141426

DO - 10.1051/0004-6361/202141426

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AN - SCOPUS:85117412951

SN - 0004-6361

VL - 654

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A85

ER -

A geometric distance to the supermassive black Hole of NGC 3783

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Keywords

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