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Fast X-ray/IR observations of the black hole transient Swift~J1753.5--0127: from an IR lead to a very long jet lag

Fast X-ray/IR observations of the black hole transient Swift~J1753.5--0127: from an IR lead to a very long jet lag
Fast X-ray/IR observations of the black hole transient Swift~J1753.5--0127: from an IR lead to a very long jet lag
We report two epochs of simultaneous near-infrared (IR) and X-ray observations of the low-mass X-ray binary black hole candidate Swift J1753.5–0127 with a subsecond time resolution during its long 2005–2016 outburst. Data were collected strictly simultaneously with VLT/ISAAC (KS band, 2.2 μm) and RXTE (2–15 keV) or XMM-Newton (0.7–10 keV). A clear correlation between the X-ray and the IR variable emission is found during both epochs but with very different properties. In the first epoch, the near-IR variability leads the X-ray by ∼130 ms, which is the opposite of what is usually observed in similar systems. The correlation is more complex in the second epoch, with both anti-correlation and correlations at negative and positive lags. Frequency-resolved Fourier analysis allows us to identify two main components in the complex structure of the phase lags: the first component, characterised by a near-IR lag of a few seconds at low frequencies, is consistent with a combination of disc reprocessing and a magnetised hot flow; the second component is identified at high frequencies by a near-IR lag of ≈0.7 s. Given the similarities of this second component with the well-known constant optical/near-IR jet lag observed in other black hole transients, we tentatively interpret this feature as a signature of a longer-than-usual jet lag. We discuss the possible implications of measuring such a long jet lag in a radio-quiet black hole transient.
astro-ph.HE, Stars: evolution, Stars: black holes, Stars: jets, Stars: activity
0004-6361
Ulgiati, A.
785666c7-2329-4eda-a679-b076809c2dd5
Vincentelli, F.M.
6059e516-6e7a-4d18-afa4-c5b68a3b207a
Casella, P.
8c1dfb2b-aff7-4321-afc9-bf06c57932ba
Veledina, A.
a6e2d148-6f75-442a-9ccf-d0159f26afd0
Maccarone, T.J.
137ac0b6-a9c8-4cb7-9e3a-3cae518c80fa
Russell, D.M.
f4b51361-5338-4202-a270-a227671b6237
Uttley, P.
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Ambrosino, F.
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Baglio, M.C.
a0ea2997-1249-4ec1-903f-9de3121d2dea
Imbrogno, M.
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Melandri, A.
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Motta, S.E.
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O'Brien, K.
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Sanna, A.
f132c9e7-4e3e-4d3a-84a3-85f5724b5f4d
Shahbaz, T.
01319c78-4527-4156-8831-c87e36f67a34
Altamirano, D.
d5ccdb09-0b71-4303-9538-05b467be075b
Fender, R.P.
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Maitra, D.
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Malzac, J.
f271c6cb-64c1-496a-a140-62844d6bb6c0
Ulgiati, A.
785666c7-2329-4eda-a679-b076809c2dd5
Vincentelli, F.M.
6059e516-6e7a-4d18-afa4-c5b68a3b207a
Casella, P.
8c1dfb2b-aff7-4321-afc9-bf06c57932ba
Veledina, A.
a6e2d148-6f75-442a-9ccf-d0159f26afd0
Maccarone, T.J.
137ac0b6-a9c8-4cb7-9e3a-3cae518c80fa
Russell, D.M.
f4b51361-5338-4202-a270-a227671b6237
Uttley, P.
51db40c3-a4df-4f1f-a3de-75493dcac042
Ambrosino, F.
917bc599-1332-4d38-ab6c-9766388bf4e6
Baglio, M.C.
a0ea2997-1249-4ec1-903f-9de3121d2dea
Imbrogno, M.
c1845742-3591-41d2-880c-24df8740392c
Melandri, A.
8e069f8f-ad15-4887-8004-f7b3a0104898
Motta, S.E.
f510fb9b-f087-4ea1-a043-36f203424713
O'Brien, K.
87d1a467-62f9-4bf9-88d1-f123f6a98ea3
Sanna, A.
f132c9e7-4e3e-4d3a-84a3-85f5724b5f4d
Shahbaz, T.
01319c78-4527-4156-8831-c87e36f67a34
Altamirano, D.
d5ccdb09-0b71-4303-9538-05b467be075b
Fender, R.P.
938d91eb-0937-43a3-b1ae-c55149396806
Maitra, D.
2855bbc9-fcd0-442b-8115-1db1967bef13
Malzac, J.
f271c6cb-64c1-496a-a140-62844d6bb6c0

Ulgiati, A., Vincentelli, F.M., Casella, P., Veledina, A., Maccarone, T.J., Russell, D.M., Uttley, P., Ambrosino, F., Baglio, M.C., Imbrogno, M., Melandri, A., Motta, S.E., O'Brien, K., Sanna, A., Shahbaz, T., Altamirano, D., Fender, R.P., Maitra, D. and Malzac, J. (2024) Fast X-ray/IR observations of the black hole transient Swift~J1753.5--0127: from an IR lead to a very long jet lag. Astronomy & Astrophysics, 690, [A239]. (doi:10.1051/0004-6361/202450545).

Record type: Article

Abstract

We report two epochs of simultaneous near-infrared (IR) and X-ray observations of the low-mass X-ray binary black hole candidate Swift J1753.5–0127 with a subsecond time resolution during its long 2005–2016 outburst. Data were collected strictly simultaneously with VLT/ISAAC (KS band, 2.2 μm) and RXTE (2–15 keV) or XMM-Newton (0.7–10 keV). A clear correlation between the X-ray and the IR variable emission is found during both epochs but with very different properties. In the first epoch, the near-IR variability leads the X-ray by ∼130 ms, which is the opposite of what is usually observed in similar systems. The correlation is more complex in the second epoch, with both anti-correlation and correlations at negative and positive lags. Frequency-resolved Fourier analysis allows us to identify two main components in the complex structure of the phase lags: the first component, characterised by a near-IR lag of a few seconds at low frequencies, is consistent with a combination of disc reprocessing and a magnetised hot flow; the second component is identified at high frequencies by a near-IR lag of ≈0.7 s. Given the similarities of this second component with the well-known constant optical/near-IR jet lag observed in other black hole transients, we tentatively interpret this feature as a signature of a longer-than-usual jet lag. We discuss the possible implications of measuring such a long jet lag in a radio-quiet black hole transient.

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Accepted/In Press date: 28 June 2024
e-pub ahead of print date: 14 October 2024
Keywords: astro-ph.HE, Stars: evolution, Stars: black holes, Stars: jets, Stars: activity

Identifiers

Local EPrints ID: 496478
URI: http://eprints.soton.ac.uk/id/eprint/496478
DOI: doi:10.1051/0004-6361/202450545
ISSN: 0004-6361
PURE UUID: 1cc2b08b-02ef-4d24-a534-c90ef36d2381
ORCID for D. Altamirano: ORCID iD orcid.org/0000-0002-3422-0074

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Date deposited: 16 Dec 2024 17:49
Last modified: 17 Dec 2024 02:46

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Contributors

Author: A. Ulgiati
Author: F.M. Vincentelli
Author: P. Casella
Author: A. Veledina
Author: T.J. Maccarone
Author: D.M. Russell
Author: P. Uttley
Author: F. Ambrosino
Author: M.C. Baglio
Author: M. Imbrogno
Author: A. Melandri
Author: S.E. Motta
Author: K. O'Brien
Author: A. Sanna
Author: T. Shahbaz
Author: D. Altamirano ORCID iD
Author: R.P. Fender
Author: D. Maitra
Author: J. Malzac

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