A detailed analysis of a long XMM-Newton observation of the narrow-line type 1 Seyfert galaxy 1H0707-495 is presented, including spectral fitting, spectral variability and timing studies. The two main features in the spectrum are the drop at ~7 keV and a complex excess below 1 keV. These are well described by two broad, K and L, iron lines. Alternative models based on absorption, although they may fit the high-energy drop, cannot account for the 1 keV complexity and the spectrum as a whole. Spectral variability shows that the spectrum is composed of at least two components, which are interpreted as a power law dominating between 1-4 keV and a reflection component outside this range. The high count rate at the iron L energies has enabled us to measure a significant soft lag of 30 s between 0.3-1 and 1-4 keV, meaning that the direct hard emission leads the reflected emissions. We interpret the lag as a reverberation signal originating within a few gravitational radii of the black hole

Fabian, A.C.

Gallo, L.C.

Miller, J.M.

Miniutti, G.

Ponti, Gabriele

Reynolds, C.S.

Uttley, Philip

Zoghbi, A.

Monthly Notices of the Royal Astronomical Society

arXiv

Southampton (e-Prints Soton)

Broad iron L line and x-ray reverberation in 1H0707-495

International audienceA detailed analysis of a long XMM-Newton observation of the narrow-line type 1 Seyfert galaxy 1H0707-495 is presented, including spectral fitting, spectral variability and timing studies. The two main features in the spectrum are the drop at ~7keV and a complex excess below 1keV. These are well described by two broad, K and L, iron lines. Alternative models based on absorption, although they may fit the high-energy drop, cannot account for the 1keV complexity and the spectrum as a whole. Spectral variability shows that the spectrum is composed of at least two components, which are interpreted as a power law dominating between 1-4keV and a reflection component outside this range. The high count rate at the iron L energies has enabled us to measure a significant soft lag of ~30 s between 0.3-1 and 1-4keV, meaning that the direct hard emission leads the reflected emissions. We interpret the lag as a reverberation signal originating within a few gravitational radii of the black hole

Fabian, Andy C.

Uttley, P.

Miniutti, Giovanni

Gallo, L. C.

Reynolds, Christopher S.

Miller, Jon M.

Ponti, G.

HAL-IN2P3

Broad iron L line and X-ray reverberation in 1H0707-495

HAL-OBSPM

HAL: Hyper Article en Ligne

Hal-Diderot

HAL-CEA

A detailed analysis of a long  XMM–Newton  observation of the narrow-line type 1 Seyfert galaxy 1H0707-495 is presented, including spectral fitting, spectral variability and timing studies. The two main features in the spectrum are the drop at ∼7 keV and a complex excess below 1 keV. These are well described by two broad, K and L, iron lines. Alternative models based on absorption, although they may fit the high-energy drop, cannot account for the 1 keV complexity and the spectrum as a whole. Spectral variability shows that the spectrum is composed of at least two components, which are interpreted as a power law dominating between 1–4 keV and a reflection component outside this range. The high count rate at the iron L energies has enabled us to measure a significant soft lag of ∼30 s between 0.3–1 and 1–4 keV, meaning that the direct hard emission leads the reflected emissions. We interpret the lag as a reverberation signal originating within a few gravitational radii of the black hole.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78601/1/j.1365-2966.2009.15816.x.pd

Fabian, A. C.

Reynolds, C. S.

Miller, J. M.

Deep Blue Documents

English

A. Zoghbi

A. C. Fabian

P. Uttley

G. Miniutti

L. C. Gallo

C. S. Reynolds

J. M. Miller

G. Ponti

Crossref

https://academic.oup.com/mnras/article-pdf/401/4/2419/3912825/mnras0401-2419.pdf

Broad iron L line and x-ray reverberation in 1H0707-495

Abstract

Similar works

Full text

Available Versions