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Time-scale-dependent X-ray to UV time lags of NGC 4593 using high-intensity XMM-Newton observations with Swift and AstroSat

Time-scale-dependent X-ray to UV time lags of NGC 4593 using high-intensity XMM-Newton observations with Swift and AstroSat
Time-scale-dependent X-ray to UV time lags of NGC 4593 using high-intensity XMM-Newton observations with Swift and AstroSat
We present a 140 ks observation of NGC 4593 with XMM–Newton providing simultaneous and continuous pn X-ray and OM UV (UVW1 2910 Å) light curves, which sample short-time-scale variations better than previous observations. These observations were simultaneous with 22 d of Swift X-ray and UV/optical monitoring reported previously, and 4 d of AstroSat Soft X-ray Telescope (SXT), far (FUV 1541 Å) and near (NUV 2632 Å) UV allowing lag measurements between them and the highly-sampled XMM. From the XMM, we find that UVW1 lags behind the X-rays by 29.5 ± 1.3 ks, ∼half the lag previously determined from the Swift monitoring. Re-examination of the Swift data reveals a bimodal lag distribution, with evidence for both the long and short lags. However, if we detrend the Swift light curves by LOWESS filtering with a 5 d width, only the shorter lag (23.8 ± 21.2 ks) remains. The NUV observations, compared to pn and SXT, confirm the ∼30 ks lag found by XMM, and after 4 d filtering is applied to remove the long-time-scale component, the FUV shows a lag of ∼23 ks. The resultant new UVW1, FUV, and NUV lag spectrum extends to the X-ray band without requiring additional X-ray to UV lag offset, which if the UV arises from reprocessing of X-rays implies direct illumination of the reprocessor. By referencing previous Swift and HST lag measurements, we obtain an X-ray to optical lag spectrum, which agrees with a model using the KYNreverb disc-reprocessing code, assuming the accepted mass of 7.63 × 106 M⊙ and a spin approaching maximum. Previously noted lag contribution from the BLR in the Balmer and Paschen continua are still prominent.
1365-2966
91 - 101
Beard, Max
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McHardy, Ian
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Kumari, Kavita
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Dewangan, Gulab C.
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Papadakis, Iossif
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Bhattacharya, Dipankar
857e8ba4-bbbf-4107-9eb3-ab152969dc3a
Singh, Kulinder Pol
95624ed8-cbbc-41d2-8c04-9d2177cd531f
Kynoch, Daniel
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Pahari, Mayukh
9b4f83d7-8905-4cc0-923e-326b38da9c68
Beard, Max
9743e0a5-2d24-43c5-956b-209b398459c7
McHardy, Ian
4f215137-9cc4-4a08-982e-772a0b24c17e
Kumari, Kavita
10bd2ea7-1db2-41b8-904c-1d75ef15f383
Dewangan, Gulab C.
0062ef4f-8422-4085-a1de-8c72f472843c
Papadakis, Iossif
fd1c3d4a-ab16-48a3-8540-579e8b7acdd3
Bhattacharya, Dipankar
857e8ba4-bbbf-4107-9eb3-ab152969dc3a
Singh, Kulinder Pol
95624ed8-cbbc-41d2-8c04-9d2177cd531f
Kynoch, Daniel
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Pahari, Mayukh
9b4f83d7-8905-4cc0-923e-326b38da9c68

Beard, Max, McHardy, Ian, Kumari, Kavita, Dewangan, Gulab C., Papadakis, Iossif, Bhattacharya, Dipankar, Singh, Kulinder Pol, Kynoch, Daniel and Pahari, Mayukh (2022) Time-scale-dependent X-ray to UV time lags of NGC 4593 using high-intensity XMM-Newton observations with Swift and AstroSat. Monthly Notices of the Royal Astronomical Society, 519 (1), 91 - 101. (doi:10.1093/mnras/stac3391).

Record type: Article

Abstract

We present a 140 ks observation of NGC 4593 with XMM–Newton providing simultaneous and continuous pn X-ray and OM UV (UVW1 2910 Å) light curves, which sample short-time-scale variations better than previous observations. These observations were simultaneous with 22 d of Swift X-ray and UV/optical monitoring reported previously, and 4 d of AstroSat Soft X-ray Telescope (SXT), far (FUV 1541 Å) and near (NUV 2632 Å) UV allowing lag measurements between them and the highly-sampled XMM. From the XMM, we find that UVW1 lags behind the X-rays by 29.5 ± 1.3 ks, ∼half the lag previously determined from the Swift monitoring. Re-examination of the Swift data reveals a bimodal lag distribution, with evidence for both the long and short lags. However, if we detrend the Swift light curves by LOWESS filtering with a 5 d width, only the shorter lag (23.8 ± 21.2 ks) remains. The NUV observations, compared to pn and SXT, confirm the ∼30 ks lag found by XMM, and after 4 d filtering is applied to remove the long-time-scale component, the FUV shows a lag of ∼23 ks. The resultant new UVW1, FUV, and NUV lag spectrum extends to the X-ray band without requiring additional X-ray to UV lag offset, which if the UV arises from reprocessing of X-rays implies direct illumination of the reprocessor. By referencing previous Swift and HST lag measurements, we obtain an X-ray to optical lag spectrum, which agrees with a model using the KYNreverb disc-reprocessing code, assuming the accepted mass of 7.63 × 106 M⊙ and a spin approaching maximum. Previously noted lag contribution from the BLR in the Balmer and Paschen continua are still prominent.

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Timescale dependent Xray to UV time lags of NGC 4593 using high intensity XMM Newton observations with swift and Astrosat - Accepted Manuscript
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Accepted/In Press date: 16 November 2022
Published date: 22 November 2022
Additional Information: MWJB acknowledges support from Science and Technology Facilities Council (STFC) in the form of studentship ST/S505705/1. IMcH and DK also acknowledge support from STFC from grant ST/V001000/1. This work has used the data from the AstroSat Soft X-ray Telescope (SXT) developed at TIFR, Mumbai, and the SXT POC at TIFR is thanked for verifying and releasing the data via the ISSDC data archive and providing the necessary software tools. This work made use of data supplied by the UK Swift Science Data Centre at the University of Leicester. This work is also partly based on observations obtained with XMM-Newton, an ESA science mission with instruments and contributions directly funded by ESA Member States and NASA.

Identifiers

Local EPrints ID: 476275
URI: http://eprints.soton.ac.uk/id/eprint/476275
ISSN: 1365-2966
PURE UUID: 2618358e-4381-41c1-aab2-e0fb04c2b2e2

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Date deposited: 18 Apr 2023 16:38
Last modified: 17 Mar 2024 01:27

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Contributors

Author: Max Beard
Author: Ian McHardy
Author: Kavita Kumari
Author: Gulab C. Dewangan
Author: Iossif Papadakis
Author: Dipankar Bhattacharya
Author: Kulinder Pol Singh
Author: Daniel Kynoch
Author: Mayukh Pahari

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