A photospheric radius-expansion burst observed from XTE J1701-407 by INTEGRAL: an update on distance

J. Chenevez; F. Maurizio; S. Brandt; D. Galloway; E. Kuulkers; A. Cumming; H. Schatz; N. Lund; T. Oosterbroek; C. Ferrigno

A photospheric radius-expansion burst observed from XTE J1701-407 by INTEGRAL: an update on distance

J. Chenevez^*, F. Maurizio, S. Brandt, D. Galloway, E. Kuulkers, A. Cumming, H. Schatz, N. Lund, T. Oosterbroek, C. Ferrigno

^*Corresponding author for this work

National Space Institute

Research output: Other contribution › Net publication - Internet publication › Research

Abstract

On 2010-08-22 00:56:19 the INTEGRAL Burst Alert System (IBAS) triggered on an event ((GCN 11132, Gotz & Ferrigno, 2009) from the known burst source XTE J1701-407 (Falanga et al., A&A 496, 333, 2009; Linares et al., MNRAS 392, L11, 2009) during an observation of the field around SNR RXJ1713.7-3946 (PI R. Terrier). As part of our monitoring of long thermonuclear X-ray bursts with INTEGRAL, we have analysed both the JEM-X and ISGRI data covering this event, and we identify it as another type I (thermonuclear) X-ray burst. The duration of the burst was about 3 minutes (3-30 keV), with an exponential decay time of 118s. The peak flux was about 4 Crab (1e-7 erg/cm2/s) in the 3-30 keV energy band (JEM-X) and 0.35 Crab (3.4 e-9 erg/cm2/s) in the 18-40 keV band (IBIS/ISGRI). The JEM-X light curve shows evidence for photosperic radius expansion, with a 2s precursor starting about 4s before the main burst. The time resolved spectral analysis of the burst allows us to measure the unabsorbed bolometric peak flux of (1.5 +/-0.2)e-7 erg/cm2/s. Assuming that the burst reached the empirically-measured Eddington limit of L_Edd=3.8e38 erg/s (Kuulkers et al.2003), we derive the distance to the source to be 5.0 +/- 0.4 kpc, which is slightly lower than the previous estimated distance of 6.2 kpc by Falanga et al. (2009). Recent RXTE PCA monitoring observations of 4U 1701-407 (see also Markwardt et al. ATel #1569) indicate that the source is beginning a new outburst. Indeed, we estimate the source flux in the hour preceeding the burst to be (2.1 +/-0.3)e-9 erg/cm2/s extrapolated between 0.3-100 keV. At the source distance this translates to a persistent bolometric luminosity of about 6.3e36 erg/s, which is close to the luminosity (8.3e36 erg/s) the source had at the moment of its previous long burst (Falanga et al., 2009). Light curves of the burst can be obtained from the following adress: ftp://ftp.spacecenter.dk/pub/Jerome/Science/XTE_J1701-407/

Original language	English
Publication date	24 Aug 2010
Publication status	Published - 24 Aug 2010

Series	The Astronomer's telegram
Number	ATel #2814

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@misc{6ff91ead71f740598c70fa3e6c4d9bfa,

title = "A photospheric radius-expansion burst observed from XTE J1701-407 by INTEGRAL: an update on distance",

abstract = "On 2010-08-22 00:56:19 the INTEGRAL Burst Alert System (IBAS) triggered on an event ((GCN 11132, Gotz & Ferrigno, 2009) from the known burst source XTE J1701-407 (Falanga et al., A&A 496, 333, 2009; Linares et al., MNRAS 392, L11, 2009) during an observation of the field around SNR RXJ1713.7-3946 (PI R. Terrier). As part of our monitoring of long thermonuclear X-ray bursts with INTEGRAL, we have analysed both the JEM-X and ISGRI data covering this event, and we identify it as another type I (thermonuclear) X-ray burst. The duration of the burst was about 3 minutes (3-30 keV), with an exponential decay time of 118s. The peak flux was about 4 Crab (1e-7 erg/cm2/s) in the 3-30 keV energy band (JEM-X) and 0.35 Crab (3.4 e-9 erg/cm2/s) in the 18-40 keV band (IBIS/ISGRI). The JEM-X light curve shows evidence for photosperic radius expansion, with a 2s precursor starting about 4s before the main burst. The time resolved spectral analysis of the burst allows us to measure the unabsorbed bolometric peak flux of (1.5 +/-0.2)e-7 erg/cm2/s. Assuming that the burst reached the empirically-measured Eddington limit of L_Edd=3.8e38 erg/s (Kuulkers et al.2003), we derive the distance to the source to be 5.0 +/- 0.4 kpc, which is slightly lower than the previous estimated distance of 6.2 kpc by Falanga et al. (2009). Recent RXTE PCA monitoring observations of 4U 1701-407 (see also Markwardt et al. ATel #1569) indicate that the source is beginning a new outburst. Indeed, we estimate the source flux in the hour preceeding the burst to be (2.1 +/-0.3)e-9 erg/cm2/s extrapolated between 0.3-100 keV. At the source distance this translates to a persistent bolometric luminosity of about 6.3e36 erg/s, which is close to the luminosity (8.3e36 erg/s) the source had at the moment of its previous long burst (Falanga et al., 2009). Light curves of the burst can be obtained from the following adress: ftp://ftp.spacecenter.dk/pub/Jerome/Science/XTE_J1701-407/",

author = "J. Chenevez and F. Maurizio and S. Brandt and D. Galloway and E. Kuulkers and A. Cumming and H. Schatz and N. Lund and T. Oosterbroek and C. Ferrigno",

year = "2010",

month = aug,

day = "24",

language = "English",

series = "The Astronomer's telegram",

publisher = "R. Rutledge",

number = "ATel #2814",

type = "Other",

}

A photospheric radius-expansion burst observed from XTE J1701-407 by INTEGRAL: an update on distance. / Chenevez, J.; Maurizio, F.; Brandt, S.; Galloway, D.; Kuulkers, E.; Cumming, A.; Schatz, H.; Lund, N.; Oosterbroek, T.; Ferrigno, C.

2010. (The Astronomer's telegram; No. ATel #2814).

Research output: Other contribution › Net publication - Internet publication › Research

TY - ICOMM

T1 - A photospheric radius-expansion burst observed from XTE J1701-407 by INTEGRAL: an update on distance

AU - Chenevez, J.

AU - Maurizio, F.

AU - Brandt, S.

AU - Galloway, D.

AU - Kuulkers, E.

AU - Cumming, A.

AU - Schatz, H.

AU - Lund, N.

AU - Oosterbroek, T.

AU - Ferrigno, C.

PY - 2010/8/24

Y1 - 2010/8/24

N2 - On 2010-08-22 00:56:19 the INTEGRAL Burst Alert System (IBAS) triggered on an event ((GCN 11132, Gotz & Ferrigno, 2009) from the known burst source XTE J1701-407 (Falanga et al., A&A 496, 333, 2009; Linares et al., MNRAS 392, L11, 2009) during an observation of the field around SNR RXJ1713.7-3946 (PI R. Terrier). As part of our monitoring of long thermonuclear X-ray bursts with INTEGRAL, we have analysed both the JEM-X and ISGRI data covering this event, and we identify it as another type I (thermonuclear) X-ray burst. The duration of the burst was about 3 minutes (3-30 keV), with an exponential decay time of 118s. The peak flux was about 4 Crab (1e-7 erg/cm2/s) in the 3-30 keV energy band (JEM-X) and 0.35 Crab (3.4 e-9 erg/cm2/s) in the 18-40 keV band (IBIS/ISGRI). The JEM-X light curve shows evidence for photosperic radius expansion, with a 2s precursor starting about 4s before the main burst. The time resolved spectral analysis of the burst allows us to measure the unabsorbed bolometric peak flux of (1.5 +/-0.2)e-7 erg/cm2/s. Assuming that the burst reached the empirically-measured Eddington limit of L_Edd=3.8e38 erg/s (Kuulkers et al.2003), we derive the distance to the source to be 5.0 +/- 0.4 kpc, which is slightly lower than the previous estimated distance of 6.2 kpc by Falanga et al. (2009). Recent RXTE PCA monitoring observations of 4U 1701-407 (see also Markwardt et al. ATel #1569) indicate that the source is beginning a new outburst. Indeed, we estimate the source flux in the hour preceeding the burst to be (2.1 +/-0.3)e-9 erg/cm2/s extrapolated between 0.3-100 keV. At the source distance this translates to a persistent bolometric luminosity of about 6.3e36 erg/s, which is close to the luminosity (8.3e36 erg/s) the source had at the moment of its previous long burst (Falanga et al., 2009). Light curves of the burst can be obtained from the following adress: ftp://ftp.spacecenter.dk/pub/Jerome/Science/XTE_J1701-407/

AB - On 2010-08-22 00:56:19 the INTEGRAL Burst Alert System (IBAS) triggered on an event ((GCN 11132, Gotz & Ferrigno, 2009) from the known burst source XTE J1701-407 (Falanga et al., A&A 496, 333, 2009; Linares et al., MNRAS 392, L11, 2009) during an observation of the field around SNR RXJ1713.7-3946 (PI R. Terrier). As part of our monitoring of long thermonuclear X-ray bursts with INTEGRAL, we have analysed both the JEM-X and ISGRI data covering this event, and we identify it as another type I (thermonuclear) X-ray burst. The duration of the burst was about 3 minutes (3-30 keV), with an exponential decay time of 118s. The peak flux was about 4 Crab (1e-7 erg/cm2/s) in the 3-30 keV energy band (JEM-X) and 0.35 Crab (3.4 e-9 erg/cm2/s) in the 18-40 keV band (IBIS/ISGRI). The JEM-X light curve shows evidence for photosperic radius expansion, with a 2s precursor starting about 4s before the main burst. The time resolved spectral analysis of the burst allows us to measure the unabsorbed bolometric peak flux of (1.5 +/-0.2)e-7 erg/cm2/s. Assuming that the burst reached the empirically-measured Eddington limit of L_Edd=3.8e38 erg/s (Kuulkers et al.2003), we derive the distance to the source to be 5.0 +/- 0.4 kpc, which is slightly lower than the previous estimated distance of 6.2 kpc by Falanga et al. (2009). Recent RXTE PCA monitoring observations of 4U 1701-407 (see also Markwardt et al. ATel #1569) indicate that the source is beginning a new outburst. Indeed, we estimate the source flux in the hour preceeding the burst to be (2.1 +/-0.3)e-9 erg/cm2/s extrapolated between 0.3-100 keV. At the source distance this translates to a persistent bolometric luminosity of about 6.3e36 erg/s, which is close to the luminosity (8.3e36 erg/s) the source had at the moment of its previous long burst (Falanga et al., 2009). Light curves of the burst can be obtained from the following adress: ftp://ftp.spacecenter.dk/pub/Jerome/Science/XTE_J1701-407/

M3 - Net publication - Internet publication

T3 - The Astronomer's telegram

ER -