Optical and infrared investigation toward the z = 3.8 quasar pair PC 1643+4631A, B

Richard Saunders; Joanne C. Baker; Malcolm N. Bremer; Andrew J. Bunker; Garret Cotter; Steve Eales; Keith Grainge; Toby Haynes; Michael E. Jones; Mark Lacy; Guy Pooley; Steve Rawlings

doi:10.1086/310565

Optical and infrared investigation toward the z = 3.8 quasar pair PC 1643+4631A, B

Richard Saunders, Joanne C. Baker, Malcolm N. Bremer, Andrew J. Bunker, Garret Cotter, Steve Eales, Keith Grainge, Toby Haynes, Michael E. Jones, Mark Lacy, Guy Pooley, Steve Rawlings

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Abstract

In a companion Letter, Jones et al. report the discovery of a cosmic microwave background decrement, indicative of a distant cluster with mass ∼1015 M⊙, toward the quasar pair PC 1643+4631A, B (z = 3.79, 3.83, separation 198″). To search for the cluster responsible, we have obtained R-, J-, and K-band images of the field and have also carried out optical spectroscopy of selected objects in it. No such cluster is evident in these images. Assuming that the cluster causing the decrement is similar to massive clusters already known, our magnitude limits imply that it must lie at about or beyond z = 1. This provides independent support for the X-ray-based distance argument of Jones et al. The cluster must gravitationally lens objects behind it; for a cluster z around 1-2, the Einstein ring radius for sources at z ≈ 3.8 is ∼100″. Simple modeling, producing simultaneously the Sunyaev-Zeldovich effect and the lensing, shows that the source positions of quasars A and B lie within ∼10″ of each other and may indeed be coincident. The two quasar spectra are found to be remarkably similar apart from their 1% redshift difference. Assuming that A and B are images of a single quasar, we present a possible explanation of this difference. © 1997. The American Astronomical Society. All rights reserved.

Original language	English
Pages (from-to)	-L8
Journal	Astrophysical Journal
Volume	479
Issue number	1
DOIs	https://doi.org/10.1086/310565
Publication status	Published - 1997

Keywords

Cosmic microwave background
Gravitational lensing
Quasars: general

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10.1086/310565

http://www.journals.uchicago.edu/ApJ

Cite this

@article{e194d5751ad74aa9875c56e1035b54cf,

title = "Optical and infrared investigation toward the z = 3.8 quasar pair PC 1643+4631A, B",

abstract = "In a companion Letter, Jones et al. report the discovery of a cosmic microwave background decrement, indicative of a distant cluster with mass ∼1015 M⊙, toward the quasar pair PC 1643+4631A, B (z = 3.79, 3.83, separation 198″). To search for the cluster responsible, we have obtained R-, J-, and K-band images of the field and have also carried out optical spectroscopy of selected objects in it. No such cluster is evident in these images. Assuming that the cluster causing the decrement is similar to massive clusters already known, our magnitude limits imply that it must lie at about or beyond z = 1. This provides independent support for the X-ray-based distance argument of Jones et al. The cluster must gravitationally lens objects behind it; for a cluster z around 1-2, the Einstein ring radius for sources at z ≈ 3.8 is ∼100″. Simple modeling, producing simultaneously the Sunyaev-Zeldovich effect and the lensing, shows that the source positions of quasars A and B lie within ∼10″ of each other and may indeed be coincident. The two quasar spectra are found to be remarkably similar apart from their 1% redshift difference. Assuming that A and B are images of a single quasar, we present a possible explanation of this difference. {\textcopyright} 1997. The American Astronomical Society. All rights reserved.",

keywords = "Cosmic microwave background, Gravitational lensing, Quasars: general",

author = "Richard Saunders and Baker, {Joanne C.} and Bremer, {Malcolm N.} and Bunker, {Andrew J.} and Garret Cotter and Steve Eales and Keith Grainge and Toby Haynes and Jones, {Michael E.} and Mark Lacy and Guy Pooley and Steve Rawlings",

year = "1997",

doi = "10.1086/310565",

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volume = "479",

pages = "--L8",

journal = "Astrophysical Journal",

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TY - JOUR

T1 - Optical and infrared investigation toward the z = 3.8 quasar pair PC 1643+4631A, B

AU - Saunders, Richard

AU - Baker, Joanne C.

AU - Bremer, Malcolm N.

AU - Bunker, Andrew J.

AU - Cotter, Garret

AU - Eales, Steve

AU - Grainge, Keith

AU - Haynes, Toby

AU - Jones, Michael E.

AU - Lacy, Mark

AU - Pooley, Guy

AU - Rawlings, Steve

PY - 1997

Y1 - 1997

N2 - In a companion Letter, Jones et al. report the discovery of a cosmic microwave background decrement, indicative of a distant cluster with mass ∼1015 M⊙, toward the quasar pair PC 1643+4631A, B (z = 3.79, 3.83, separation 198″). To search for the cluster responsible, we have obtained R-, J-, and K-band images of the field and have also carried out optical spectroscopy of selected objects in it. No such cluster is evident in these images. Assuming that the cluster causing the decrement is similar to massive clusters already known, our magnitude limits imply that it must lie at about or beyond z = 1. This provides independent support for the X-ray-based distance argument of Jones et al. The cluster must gravitationally lens objects behind it; for a cluster z around 1-2, the Einstein ring radius for sources at z ≈ 3.8 is ∼100″. Simple modeling, producing simultaneously the Sunyaev-Zeldovich effect and the lensing, shows that the source positions of quasars A and B lie within ∼10″ of each other and may indeed be coincident. The two quasar spectra are found to be remarkably similar apart from their 1% redshift difference. Assuming that A and B are images of a single quasar, we present a possible explanation of this difference. © 1997. The American Astronomical Society. All rights reserved.

AB - In a companion Letter, Jones et al. report the discovery of a cosmic microwave background decrement, indicative of a distant cluster with mass ∼1015 M⊙, toward the quasar pair PC 1643+4631A, B (z = 3.79, 3.83, separation 198″). To search for the cluster responsible, we have obtained R-, J-, and K-band images of the field and have also carried out optical spectroscopy of selected objects in it. No such cluster is evident in these images. Assuming that the cluster causing the decrement is similar to massive clusters already known, our magnitude limits imply that it must lie at about or beyond z = 1. This provides independent support for the X-ray-based distance argument of Jones et al. The cluster must gravitationally lens objects behind it; for a cluster z around 1-2, the Einstein ring radius for sources at z ≈ 3.8 is ∼100″. Simple modeling, producing simultaneously the Sunyaev-Zeldovich effect and the lensing, shows that the source positions of quasars A and B lie within ∼10″ of each other and may indeed be coincident. The two quasar spectra are found to be remarkably similar apart from their 1% redshift difference. Assuming that A and B are images of a single quasar, we present a possible explanation of this difference. © 1997. The American Astronomical Society. All rights reserved.

KW - Cosmic microwave background

KW - Gravitational lensing

KW - Quasars: general

U2 - 10.1086/310565

DO - 10.1086/310565

M3 - Article

SN - 1538-4357

VL - 479

SP - -L8

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

ER -

Optical and infrared investigation toward the z = 3.8 quasar pair PC 1643+4631A, B

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