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201. Ignition latitude and the shape of Type I X-ray bursts

Author

Maurer, Immanuel and Watts, Anna L.

Subjects
Astrophysics::High Energy Astrophysical Phenomena, Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics
Abstract

The shape of the lightcurve during the rising phase of Type I X-ray bursts is determined by many factors including the ignition latitude, the accretion rate, and the rotation rate of the star. We develop a phenomenological model of the burst rise process and show that simple measures of the burst morphology can be robust diagnostics of ignition latitude and burning regime. We apply our results to the large sample of bursts from the Low Mass X-ray Binary 4U 1636-536, and find evidence for off-equatorial ignition for many of the bursts. We argue that such behaviour may be associated with the transition from hydrogen to helium ignition at accretion rates a few percent of Eddington. We show that this model can also explain variations in the detectability of burst oscillations, and discuss the implications for other burst sources., Some additions and clarifications, MNRAS accepted

Published
2007

203. New Methods for Timing Analysis of Transient Events, Applied to Fermi/GBM Magnetar Bursts

Author

Huppenkothen, Daniela, Watts, Anna L., Uttley, Phil, van der Horst, Alexander J., van der Klis, Michiel, Kouveliotou, Chryssa, Gogus, Ersin, Granot, Jonathan, Vaughan, Simon, Finger, Mark H., Huppenkothen, Daniela, Watts, Anna L., Uttley, Phil, van der Horst, Alexander J., van der Klis, Michiel, Kouveliotou, Chryssa, Gogus, Ersin, Granot, Jonathan, Vaughan, Simon, and Finger, Mark H.

Abstract

In order to discern the physical nature of many gamma-ray sources in the sky, we must look not only in spectral and spatial dimensions, but also understand their temporal variability. However, timing analysis of sources with a highly transient nature, such as magnetar bursts, is difficult: standard Fourier techniques developed for long-term variability generally observed, for example, from AGN often do not apply. Here, we present newly developed timing methods applicable to transient events of all kinds, and show their successful application to magnetar bursts observed with Fermi/GBM. Magnetars are a prime subject for timing studies, thanks to the detection of quasi-periodicities in magnetar Giant Flares and their potential to help shed light on the structure of neutron stars. Using state-of-the art statistical techniques, we search for quasi-periodicities (QPOs) in a sample of bursts from Soft Gamma Repeater SGR J0501+4516 observed with Fermi/GBM and provide upper limits for potential QPO detections. Additionally, for the first time, we characterise the broadband variability behaviour of magnetar bursts and highlight how this new information could provide us with another way to probe these mysterious objects., Comment: 2012 Fermi Symposium proceedings - eConf C121028

Published
2013

204. The Luminosity and Energy Dependence of Pulse Phase Lags in the Accretion-Powered Millisecond Pulsar Sax J1808.4-3658

Author

Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Hartman, Jacob M., Chakrabarty, Deepto, Watts, Anna L., Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Hartman, Jacob M., Chakrabarty, Deepto, and Watts, Anna L.

Abstract

Soft phase lags, in which X-ray pulses in lower energy bands arrive later than pulses in higher energy bands, have been observed in nearly all accretion-powered millisecond pulsars, but their origin remains an open question. In a study of the 2.5 ms accretion-powered pulsar SAX J1808.4–3658, we report that the magnitude of these lags is strongly dependent on the accretion rate. During the brightest stage of the outbursts from this source, the lags increase in magnitude as the accretion rate drops; when the outbursts enter their dimmer flaring-tail stage, the relationship reverses. We evaluate this complex dependence in the context of two theoretical models for the lags, one relying on the scattering of photons by the accretion disk and the other invoking a two-component model for the photon emission. In both cases, the turnover suggests that we are observing the source transitioning into the "propeller" accretion regime., United States. National Aeronautics and Space Administration. RXTE Guest Observer Program

Published
2013

205. Flame Propagation on the Surfaces of Rapidly Rotating Neutron Stars during Type I X-ray Bursts

Author

Cavecchi, Yuri, Watts, Anna L., Braithwaite, Jonathan, Levin, Yuri, Cavecchi, Yuri, Watts, Anna L., Braithwaite, Jonathan, and Levin, Yuri

Abstract

We present the first vertically resolved hydrodynamic simulations of a laterally propagating, deflagrating flame in the thin helium ocean of a rotating accreting neutron star. We use a new hydrodynamics solver tailored to deal with the large discrepancy in horizontal and vertical length scales typical of neutron star oceans, and which filters out sound waves that would otherwise limit our timesteps. We find that the flame moves horizontally with velocities of order $10^5$ cm s$^{-1}$, crossing the ocean in few seconds, broadly consistent with the rise times of Type I X-ray bursts. We address the open question of what drives flame propagation, and find that heat is transported from burning to unburnt fuel by a combination of top-to-bottom conduction and mixing driven by a baroclinic instability. The speed of the flame propagation is therefore a sensitive function of the ocean conductivity and spin: we explore this dependence for an astrophysically relevant range of parameters and find that in general flame propagation is faster for slower rotation and higher conductivity., Comment: Accepted for publication by MNRAS

Published
2012
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206. Quasi-Periodic Oscillations and broadband variability in short magnetar bursts

Author

Huppenkothen, Daniela, Watts, Anna L., Uttley, Phil, van der Horst, Alexander J., van der Klis, Michiel, Kouveliotou, Chryssa, Gogus, Ersin, Granot, Jonathan, Vaughan, Simon, Finger, Mark H., Huppenkothen, Daniela, Watts, Anna L., Uttley, Phil, van der Horst, Alexander J., van der Klis, Michiel, Kouveliotou, Chryssa, Gogus, Ersin, Granot, Jonathan, Vaughan, Simon, and Finger, Mark H.

Abstract

The discovery of quasi-periodic oscillations (QPOs) in magnetar giant flares has opened up prospects for neutron star asteroseismology. However, with only three giant flares ever recorded, and only two with data of sufficient quality to search for QPOs, such analysis is seriously data limited. We set out a procedure for doing QPO searches in the far more numerous, short, less energetic magnetar bursts. The short, transient nature of these bursts requires the implementation of sophisticated statistical techniques to make reliable inferences. Using Bayesian statistics, we model the periodogram as a combination of red noise at low frequencies and white noise at high frequencies, which we show is a conservative approach to the problem. We use empirical models to make inferences about the potential signature of periodic and quasi-periodic oscillations at these frequencies. We compare our method with previously used techniques and find that although it is on the whole more conservative, it is also more reliable in ruling out false positives. We illustrate our Bayesian method by applying it to a sample of 27 bursts from the magnetar SGR J0501+4516 observed by the Fermi Gamma-ray Burst Monitor, and we find no evidence for the presence of QPOs in any of the bursts in the unbinned spectra, but do find a candidate detection in the binned spectra of one burst. However, whether this signal is due to a genuine quasi-periodic process, or can be attributed to unmodeled effects in the noise is at this point a matter of interpretation., Comment: 28 pages, 17 figures, ApJ in press

Published
2012
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207. Broadband Spectral Investigations of SGR J1550-5418 Bursts

Author

Lin, Lin, Gogus, Ersin, Baring, Matthew G., Granot, Jonathan, Kouveliotou, Chryssa, Kaneko, Yuki, van der Horst, Alexander, Gruber, David, von Kienlin, Andreas, Younes, George, Watts, Anna L., Gehrels, Neil, Lin, Lin, Gogus, Ersin, Baring, Matthew G., Granot, Jonathan, Kouveliotou, Chryssa, Kaneko, Yuki, van der Horst, Alexander, Gruber, David, von Kienlin, Andreas, Younes, George, Watts, Anna L., and Gehrels, Neil

Abstract

We present the results of our broadband spectral analysis of 42 SGR J1550-5418 bursts simultaneously detected with the Swift/X-ray Telescope (XRT) and the Fermi/Gamma-ray Burst Monitor (GBM), during the 2009 January active episode of the source. The unique spectral and temporal capabilities of the XRT Windowed Timing mode have allowed us to extend the GBM spectral coverage for these events down to the X-ray domain (0.5-10 keV). Our earlier analysis of the GBM data found that the SGR J1550-5418 burst spectra were described equally well with a Comptonized model or with two blackbody functions; the two models were statistically indistinguishable. Our new broadband (0.5 - 200 keV) spectral fits show that, on average, the burst spectra are better described with two blackbody functions than with the Comptonized model. Thus, our joint XRT/GBM analysis clearly shows for the first time that the SGR J1550-5418 burst spectra might naturally be expected to exhibit a more truly thermalized character, such as a two-blackbody or even a multi-blackbody signal. Using the Swift and RXTE timing ephemeris for SGR J1550-5418 we construct the distribution of the XRT burst counts with spin phase and find that it is not correlated with the persistent X-ray emission pulse phase from SGR J1550-5418. These results indicate that the burst emitting sites on the neutron star need not be co-located with hot spots emitting the bulk of the persistent X-ray emission. Finally, we show that there is a significant pulse phase dependence of the XRT burst counts, likely demonstrating that the surface magnetic field of SGR J1550-5418 is not uniform over the emission zone, since it is anticipated that regions with stronger surface magnetic field could trigger bursts more efficiently., Comment: accepted for publication in The Astrophysical Journal

Published
2012
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208. The violent neutron star

Author

Watts, Anna L. and Watts, Anna L.

Abstract

Neutron stars enable us to study both the highest densities and the highest magnetic fields in the known Universe. In this article I review what can be learned about such fundamental physics using magnetar bursts. Both the instability mechanisms that trigger the bursts, and the subsequent dynamical and radiative response of the star, can be used to explore stellar and magnetospheric structure and composition., Comment: 6 pages, invited review, to appear in the proceedings of the ERPM conference, Zielona Gora, April 2012

Published
2012

209. Detection of spectral evolution in the bursts emitted during the 2008-2009 active episode of SGR J1550 - 5418

Author

von Kienlin, Andreas, Gruber, David, Kouveliotou, Chryssa, Granot, Jonathan, Baring, Matthew G., Göğüş, Ersin, Huppenkothen, Daniela, Kaneko, Yuki, Lin, Lin, Watts, Anna L., Bhat, P. Narayana, Guiriec, Sylvain, van der Horst, Alexander J., Bissaldi, Elisabetta, Greiner, Jochen, Meegan, Charles A., Paciesas, William S., Preece, Robert D., Rau, Arne, von Kienlin, Andreas, Gruber, David, Kouveliotou, Chryssa, Granot, Jonathan, Baring, Matthew G., Göğüş, Ersin, Huppenkothen, Daniela, Kaneko, Yuki, Lin, Lin, Watts, Anna L., Bhat, P. Narayana, Guiriec, Sylvain, van der Horst, Alexander J., Bissaldi, Elisabetta, Greiner, Jochen, Meegan, Charles A., Paciesas, William S., Preece, Robert D., and Rau, Arne

Abstract

In early October 2008, the Soft Gamma Repeater SGRJ1550 - 5418 (1E 1547.0 - 5408, AXJ155052 - 5418, PSR J1550 - 5418) became active, emitting a series of bursts which triggered the Fermi Gamma-ray Burst Monitor (GBM) after which a second especially intense activity period commenced in 2009 January and a third, less active period was detected in 2009 March-April. Here we analyze the GBM data all the bursts from the first and last active episodes. We performed temporal and spectral analysis for all events and found that their temporal characteristics are very similar to the ones of other SGR bursts, as well the ones reported for the bursts of the main episode (average burst durations \sim 170 ms). In addition, we used our sample of bursts to quantify the systematic uncertainties of the GBM location algorithm for soft gamma-ray transients to < 8 deg. Our spectral analysis indicates significant spectral evolution between the first and last set of events. Although the 2008 October events are best fit with a single blackbody function, for the 2009 bursts an Optically Thin Thermal Bremsstrahlung (OTTB) is clearly preferred. We attribute this evolution to changes in the magnetic field topology of the source, possibly due to effects following the very energetic main bursting episode., Comment: 17 pages, 7 figures, 2 tables

Published
2012
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210. Observable QPOs produced by steep pulse profiles in Magnetar Flares

Author

D'Angelo, Caroline R., Watts, Anna L., D'Angelo, Caroline R., and Watts, Anna L.

Abstract

Strong quasi-periodic oscillations in the tails of the giant gamma-ray flares seen in SGR 1806-20 and SGR 1900+14 are thought to be produced by starquakes in the flaring magnetar. However, the large fractional amplitudes (up to ~20%) observed are difficult to reconcile with predicted amplitudes of starquakes. Here we demonstrate that the steeply pulsed emission profile in the tail of the giant flare can enhance the observed amplitude of the underlying oscillation, analogously to a beam of light oscillating in and out of the line of sight. This mechanism will also broaden the feature in the power spectrum and introduce power at harmonics of the oscillation. The observed strength of the oscillation depends on the amplitude of the underlying starquake, the orientation and location of the emission on the surface of the star, and the gradient of the light curve profile. While the amplification of the signal can be significant, we demonstrate that even with uncertainties in the emission geometry, this effect is not sufficient to produce the observed QPOs. This result excludes the direct observation of a starquake, and suggests that the observed variations come from modulations in the intensity of the emission., Comment: 5 pages, 4 figures, accepted by ApJL

Published
2012
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211. Thermonuclear burst oscillations

Author

Watts, Anna L. and Watts, Anna L.

Abstract

Burst oscillations, a phenomenon observed in a significant fraction of Type I (thermonuclear) X-ray bursts, involve the development of highly asymmetric brightness patches in the burning surface layers of accreting neutron stars. Intrinsically interesting as nuclear phenomena, they are also important as probes of dense matter physics and the strong gravity, high magnetic field environment of the neutron star surface. Burst oscillation frequency is also used to measure stellar spin, and doubles the sample of rapidly rotating (above 10 Hz) accreting neutron stars with known spins. Although the mechanism remains mysterious, burst oscillation models must take into account thermonuclear flame spread, nuclear processes, rapid rotation, and the dynamical role of the magnetic field. This review provides a comprehensive summary of the observational properties of burst oscillations, an assessment of the status of the theoretical models that are being developed to explain them, and an overview of how they can be used to constrain neutron star properties such as spin, mass and radius., Comment: Preprint of article submitted to Annual Reviews of Astronomy and Astrophysics (2012). 35 pages

Published
2012
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212. Burst and Persistent Emission Properties during the Recent Active Episode of the Anomalous X-Ray Pulsar 1E 1841-045

Author

Lin, Lin, Kouveliotou, Chryssa, Göğüş, Ersin, van der Horst, Alexander J, Watts, Anna L, Baring, Matthew G, Kaneko, Yuki, Wijers, Ralph A M J, Woods, Peter M, Barthelmy, Scott, Burgess, James Michael, Chaplin, Vandiver, Gehrels, Neil, Goldstein, Adam, Granot, Jonathan, Guiriec, Sylvain, McEnery, Julie, Preece, Robert D, Tierney, David, van der Klis, Michiel, von Kienlin, Andreas, Zhang, Shuang Nan, Lin, Lin, Kouveliotou, Chryssa, Göğüş, Ersin, van der Horst, Alexander J, Watts, Anna L, Baring, Matthew G, Kaneko, Yuki, Wijers, Ralph A M J, Woods, Peter M, Barthelmy, Scott, Burgess, James Michael, Chaplin, Vandiver, Gehrels, Neil, Goldstein, Adam, Granot, Jonathan, Guiriec, Sylvain, McEnery, Julie, Preece, Robert D, Tierney, David, van der Klis, Michiel, von Kienlin, Andreas, and Zhang, Shuang Nan

Abstract

The Swift/Burst Alert Telescope detected the first burst from 1E 1841-045 in 2010 May with intermittent burst activity recorded through at least 2011 July. Here we present Swift and Fermi/Gamma-ray Burst Monitor observations of this burst activity and search for correlated changes to the persistent X-ray emission of the source. The T 90 durations of the bursts range between 18 and 140 ms, comparable to other magnetar burst durations, while the energy released in each burst ranges between (0.8-25) × 1038 erg, which is on the low side of soft gamma repeater bursts. We find that the bursting activity did not have a significant effect on the persistent flux level of the source. We argue that the mechanism leading to this sporadic burst activity in 1E 1841-045 might not involve large-scale restructuring (either crustal or magnetospheric) as seen in other magnetar sources., QC 20160405

Published
2011
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213. Fermi/GBM Observations of SGR J0501+4516 Bursts

Author

Lin, Lin, Kouveliotou, Chryssa, Baring, Matthew G., van der Horst, Alexander J., Guiriec, Sylvain, Woods, Peter M., Gogus, Ersin, Kaneko, Yuki, Scargle, Jeffrey, Granot, Jonathan, Preece, Robert, von Kienlin, Andreas, Chaplin, Vandiver, Watts, Anna L., Wijers, Ralph A. M. J., Zhang, Shuang Nan, Bhat, Narayan, Finger, Mark H., Gehrels, Neil, Harding, Alice, Kaper, Lex, Kaspi, Victoria, Mcenery, Julie, Meegan, Charles A., Paciesas, William S., Pe'er, Asaf, Ramirez-Ruiz, Enrico, van der Klis, Michiel, Wachter, Stefanie, Wilson-Hodge, Colleen, Lin, Lin, Kouveliotou, Chryssa, Baring, Matthew G., van der Horst, Alexander J., Guiriec, Sylvain, Woods, Peter M., Gogus, Ersin, Kaneko, Yuki, Scargle, Jeffrey, Granot, Jonathan, Preece, Robert, von Kienlin, Andreas, Chaplin, Vandiver, Watts, Anna L., Wijers, Ralph A. M. J., Zhang, Shuang Nan, Bhat, Narayan, Finger, Mark H., Gehrels, Neil, Harding, Alice, Kaper, Lex, Kaspi, Victoria, Mcenery, Julie, Meegan, Charles A., Paciesas, William S., Pe'er, Asaf, Ramirez-Ruiz, Enrico, van der Klis, Michiel, Wachter, Stefanie, and Wilson-Hodge, Colleen

Abstract

We present our temporal and spectral analyses of 29 bursts from SGR J0501+4516, detected with the Gamma-ray Burst Monitor onboard the Fermi Gamma-ray Space Telescope during the 13 days of the source activation in 2008 (August 22 to September 3). We find that the T90 durations of the bursts can be fit with a log-normal distribution with a mean value of ~ 123 ms. We also estimate for the first time event durations of Soft Gamma Repeater (SGR) bursts in photon space (i.e., using their deconvolved spectra) and find that these are very similar to the T90s estimated in count space (following a log-normal distribution with a mean value of ~ 124 ms). We fit the time-integrated spectra for each burst and the time-resolved spectra of the five brightest bursts with several models. We find that a single power law with an exponential cutoff model fits all 29 bursts well, while 18 of the events can also be fit with two black body functions. We expand on the physical interpretation of these two models and we compare their parameters and discuss their evolution. We show that the time-integrated and time-resolved spectra reveal that Epeak decreases with energy flux (and fluence) to a minimum of ~30 keV at F=8.7e-6 erg/cm2/s, increasing steadily afterwards. Two more sources exhibit a similar trend: SGRs J1550-5418 and 1806-20. The isotropic luminosity corresponding to these flux values is roughly similar for all sources (0.4-1.5 e40 erg/s)., Comment: accepted for publication in ApJ

Published
2011
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214. Neutron starquakes and the dynamic crust

Author

Watts, Anna L. and Watts, Anna L.

Abstract

The most strongly magnetized neutron stars, the magnetars, have spectacular outbursts of gamma-ray flares powered by decay of the magnetic field. The rapidly changing field is strong enough that it should be able to stress and rupture the star's crust, with potentially interesting seismic consequences. This was confirmed in dramatic fashion a few years ago with the discovery of long-lived seismic vibrations excited by rare giant flares. The starquakes associated with the giant flares are, it seems, so catastrophic that they leave the whole star ringing. These discoveries have opened up the possibility of using asteroseismology to study the extreme conditions of the neutron star interior - the dense matter equation of state in crust and core, and the core magnetic field. This chapter reviews the main observational properties of the oscillations seen in the giant flares, and the state of the art in terms of theoretical models of global seismic vibrations in magnetars. I discuss efforts to extend oscillation searches to smaller magnetar bursts (which are more frequent but less energetic), and the role that crust rupturing might play in triggering magnetar flares and exciting global seismic oscillations., Comment: 16 pages, 2 figures; to appear as a chapter in the book "Neutron Star Crust", edited by C. A. Bertulani and J. Piekarewicz

Published
2011

215. Pulse-phase resolved spectroscopy of continuum and reflection in SAX J1808.4-3658

Author

Wilkinson, Tony, Patruno, Alessandro, Watts, Anna, Uttley, Philip, Wilkinson, Tony, Patruno, Alessandro, Watts, Anna, and Uttley, Philip

Abstract

We perform phase-resolved spectroscopy of the accreting millisecond pulsar, SAX J1808.4-3658, during the slow-decay phase of the 2002 outburst. Simple phenomenological fits to RXTE PCA data reveal a pulsation in the iron line at the spin frequency of the neutron star. However, fitting more complex spectral models reveals a degeneracy between iron-line pulsations and changes in the underlying hotspot blackbody temperature with phase. By comparing with the variations in reflection continuum, which are much weaker than the iron line variations, we infer that the iron-line is not pulsed. The observed spectral variations can be explained by variations in blackbody temperature associated with rotational Doppler shifts at the neutron star surface. By allowing blackbody temperature to vary in this way, we also find a larger phase-shift between the pulsations in the Comptonised and blackbody components than has been seen in previous work. The phase-shift between the pulsation in the blackbody temperature and normalisation is consistent with a simple model where the Doppler shift is maximised at the limb of the neutron star, ~90 degrees prior to maximisation of the hot-spot projected area., Comment: 8 pages, 10 figures, 2 tables. Accepted by MNRAS

Published
2010
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216. Photospheric radius expansion during magnetar bursts

Author

Watts, Anna L., Kouveliotou, Chryssa, van der Horst, Alexander J., Gogus, Ersin, Kaneko, Yuki, van der Klis, Michiel, Wijers, Ralph A. M. J., Harding, Alice K., Baring, Matthew G., Watts, Anna L., Kouveliotou, Chryssa, van der Horst, Alexander J., Gogus, Ersin, Kaneko, Yuki, van der Klis, Michiel, Wijers, Ralph A. M. J., Harding, Alice K., and Baring, Matthew G.

Abstract

On August 24th 2008 the new magnetar SGR 0501+4516 (discovered by SWIFT) emitted a bright burst with a pronounced double-peak structure in hard X-rays, reminiscent of the double-peak temporal structure seen in some bright thermonuclear bursts on accreting neutron stars. In the latter case this is due to Photospheric Radius Expansion (PRE): when the flux reaches the Eddington limit, the photosphere expands and cools so that emission becomes softer and drops temporarily out of the X-ray band, re-appearing as the photosphere settles back down. We consider the factors necessary to generate double-peaked PRE events, and show that such a mechanism could plausibly operate in magnetar bursts, despite the vastly different emission process. Identification of the magnetic Eddington limit in a magnetar would constrain magnetic field and distance and could, in principle, enable a measurement of gravitational redshift. It would also locate the emitting region at the neutron star surface, constraining the burst trigger mechanism. Conclusive confirmation of PRE events will require more detailed radiative models for bursts. However for SGR 0501+4516 the predicted critical flux (using the magnetic field strength inferred from timing and the distance suggested by its probable location in the Perseus arm of our Galaxy) is consistent with that observed in the August 24th burst., Comment: 12 pages, 3 figures, ApJ in press

Published
2010
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217. Detecting gravitational waves from accreting neutron stars

Author

Watts, Anna L., Krishnan, Badri, Watts, Anna L., and Krishnan, Badri

Abstract

The gravitational waves emitted by neutron stars carry unique information about their structure and composition. Direct detection of these gravitational waves, however, is a formidable technical challenge. In a recent study we quantified the hurdles facing searches for gravitational waves from the known accreting neutron stars, given the level of uncertainty that exists regarding spin and orbital parameters. In this paper we reflect on our conclusions, and issue an open challenge to the theoretical community to consider how searches should be designed to yield the most astrophysically interesting upper limits. With this in mind we examine some more optimistic emission scenarios involving spin-down, and show that there are technically feasible searches, particularly for the accreting millisecond pulsars, that might place meaningful constraints on torque mechanisms. We finish with a brief discussion of prospects for indirect detection., Comment: 13 pages, 3 figures, contribution to the session on "Probing Dense Matter and Strong Gravity with X-rays" at the 37th COSPAR Scientific Assembly (Montreal, July 2008). To appear in Advances in Space Research

Published
2009
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218. Discovery of burst oscillations in the intermittent accretion-powered millisecond pulsar HETE J1900.1-2455

Author

Watts, Anna L., Altamirano, Diego, Linares, Manuel, Patruno, Alessandro, Casella, Piergiorgio, Cavecchi, Yuri, Degenaar, Nathalie, Rea, Nanda, Soleri, Paolo, van der Klis, Michiel, Wijnands, Rudy, Watts, Anna L., Altamirano, Diego, Linares, Manuel, Patruno, Alessandro, Casella, Piergiorgio, Cavecchi, Yuri, Degenaar, Nathalie, Rea, Nanda, Soleri, Paolo, van der Klis, Michiel, and Wijnands, Rudy

Abstract

We report the discovery of burst oscillations from the intermittent accretion-powered millisecond pulsar (AMP) HETE J1900.1-2455, with a frequency approximately 1 Hz below the known spin frequency. The burst oscillation properties are far more similar to those of the non-AMPs and Aql X-1 (an intermittent AMP with a far lower duty cycle), than those of the AMPs SAX J1808.4-3658 and XTE J1814-338. We discuss the implications for models of the burst oscillation and intermittency mechanisms., Comment: 4 pages, 4 figures, submitted to ApJ Letters

Published
2009
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219. Constraints on Neutron Star Crusts From Oscillations in Giant Flares

Author

Steiner, Andrew W., Watts, Anna L., Steiner, Andrew W., and Watts, Anna L.

Abstract

We show that the fundamental seismic shear mode, observed as a quasi-periodic oscillation in giant flares emitted by highly-magnetized neutron stars, is particularly sensitive to the nuclear physics of the crust. The identification of an oscillation at ~ 30 Hz as the fundamental crustal shear mode requires a nuclear symmetry energy that depends very weakly on density near saturation. If the nuclear symmetry energy varies more strongly with density, then lower frequency oscillations, previously identified as torsional Alfven modes of the fluid core, could instead be associated with the crust. If this is the case, then future observations of giant flares should detect oscillations at around 18 Hz. An accurate measurement of the neutron skin thickness of lead will also constrain the frequencies predicted by the model., Comment: 5 pages, 3 figures; Version to appear in Phys. Rev. Lett

Published
2009
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220. Detecting gravitational wave emission from the known accreting neutron stars

Author

Watts, Anna, Krishnan, Badri, Bildsten, Lars, Schutz, Bernard, Watts, Anna, Krishnan, Badri, Bildsten, Lars, and Schutz, Bernard

Abstract

Detection of gravitational waves from accreting neutron stars (NSs) in our galaxy, due to ellipticity or internal oscillation, would be a breakthrough in our understanding of compact objects and explain the absence of NSs rotating near the break-up limit. Direct detection, however, poses a formidable challenge. Using the current data available on the properties of the accreting NSs in Low Mass X-Ray Binaries (LMXBs), we quantify the detectability for the known accreting NSs, considering various emission scenarios and taking into account the negative impact of parameter uncertainty on the data analysis process. Only a few of the persistently bright NSs accreting at rates near the Eddington limit are detectable by Advanced LIGO if they are emitting gravitational waves at a rate matching the torque from accretion. A larger fraction of the known population is detectable if the spin and orbital parameters are known in advance, especially with the narrow-band Advanced LIGO. We identify the most promising targets, and list specific actions that would lead to significant improvements in detection probability. These include astronomical observations (especially for unknown orbital periods), improvements in data analysis algorithms and capabilities, and further detector development., Comment: Minor revisions, MNRAS accepted

Published
2008
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221. The Luminosity and Energy Dependence of Pulse Phase Lags in the Accretion-powered Millisecond Pulsar SAX J1808.4-3658

Author

Hartman, Jacob M., Watts, Anna L., Chakrabarty, Deepto, Hartman, Jacob M., Watts, Anna L., and Chakrabarty, Deepto

Abstract

Soft phase lags, in which X-ray pulses in lower energy bands arrive later than pulses in higher energy bands, have been observed in nearly all accretion-powered millisecond pulsars, but their origin remains an open question. In a study of the 2.5 ms accretion-powered pulsar SAX J1808.4-3658, we report that the magnitude of these lags is strongly dependent on the accretion rate. During the brightest stage of the outbursts from this source, the lags increase in magnitude as the accretion rate drops; when the outbursts enter their dimmer flaring-tail stage, the relationship reverses. We evaluate this complex dependence in the context of two theoretical models for the lags, one relying on the scattering of photons by the accretion disk and the other invoking a two-component model for the photon emission. In both cases, the turnover suggests that we are observing the source transitioning into the "propeller" accretion regime., Comment: 7 pages, 4 figures; accepted by ApJ

Published
2008
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222. Lighthouses with two lights: burst oscillations from the accretion-powered millisecond pulsars

Author

Watts, Anna L. and Watts, Anna L.

Abstract

The key contribution of the discovery of nuclear-powered pulsations from the accretion-powered millisecond pulsars (AMPs) has been the establishment of burst oscillation frequency as a reliable proxy for stellar spin rate. This has doubled the sample of rapidly-rotating accreting neutron stars and revealed the unexpected absence of any stars rotating near the break-up limit. The resulting `braking problem' is now a major concern for theorists, particularly given the possible role of gravitational wave emission in limiting spin. This, however, is not the only area where burst oscillations from the AMPs are having an impact. Burst oscillation timing is developing into a promising technique for verifying the level of spin variability in the AMPs (a topic of considerable debate). These sources also provide unique input to our efforts to understand the still-elusive burst oscillation mechanism. This is because they are the only stars where we can reliably gauge the role of uneven fuel deposition and, of course, the magnetic field., Comment: Invited review, to appear in the proceedings of the workshop 'A decade of accreting millisecond x-ray pulsars' (Amsterdam, April 2008)

Published
2008
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223. The Swift capture of a long X-ray burst from XTE J1701-407

Author

Linares, Manuel, Watts, Anna L., Wijnands, Rudy, Soleri, Paolo, Degenaar, Nathalie, Curran, Peter A., Starling, Rhaana L. C., van der Klis, Michiel, Linares, Manuel, Watts, Anna L., Wijnands, Rudy, Soleri, Paolo, Degenaar, Nathalie, Curran, Peter A., Starling, Rhaana L. C., and van der Klis, Michiel

Abstract

XTE J1701-407 is a new transient X-ray source discovered on June 8th, 2008. More than one month later it showed a rare type of thermonuclear explosion: a long type I X-ray burst. We report herein the results of our study of the spectral and flux evolution during this burst, as well as the analysis of the outburst in which it took place. We find an upper limit on the distance to the source of 6.1 kpc by considering the maximum luminosity reached by the burst. We measure a total fluence of 3.5*10^{-6} erg/cm^2 throughout the ~20 minutes burst duration and a fluence of 2.6*10^{-3} erg/cm^2 during the first two months of the outburst. We show that the flux decay is best fitted by a power law (index ~1.6) along the tail of the burst. Finally, we discuss the implications of the long burst properties, and the presence of a second and shorter burst detected by Swift ten days later, for the composition of the accreted material and the heating of the burning layer., Comment: MNRAS-Letters, accepted. Minor changes according to referee's report. 5 pages, 3 figures

Published
2008
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224. Coherence of burst oscillations and accretion-powered pulsations in the accreting millisecond pulsar XTE J1814-338

Author

Watts, Anna L., Patruno, Alessandro, van der Klis, Michiel, Watts, Anna L., Patruno, Alessandro, and van der Klis, Michiel

Abstract

X-ray timing of the accretion-powered pulsations during the 2003 outburst of the accreting millisecond pulsar XTE J1814-338 has revealed variation in the pulse time of arrival residuals. These can be interpreted in several ways, including spin-down and wandering of the fuel impact point around the magnetic pole. In this Letter we show that the burst oscillations of this source are coherent with the persistent pulsations, to the level where they track all of the observed fluctuations. Only one burst, which occurs at the lowest accretion rates, shows a significant phase offset. We discuss what might lead to such rigid phase-locking between the modulations in the accretion and thermonuclear burst emission, and consider the implications for spin variation and the burst oscillation mechanism. Wandering of the fuel impact hot spot around a fixed magnetic pole seems the most likely cause for the accretion-powered pulse phase variations. This means that the burst asymmetry is coupled to the hot spot, not the magnetic pole. If premature ignition at this point (due to higher local temperatures) triggers a burning front that stalls before spreading over the entire surface, the resulting localized nuclear hot spot may explain the unusual burst and burst oscillation properties of this source., Comment: Improvements throughout, accepted for publication in ApJ Letters

Published
2008
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228. Accretion rate and the occurrence of multi-peaked X-ray bursts

Author

Watts, Anna L., Maurer, Immanuel, Watts, Anna L., and Maurer, Immanuel

Abstract

Most Type I X-ray bursts from accreting neutron stars have a lightcurve with a single peak, but there is a rare population of faint bursts that are double or even triple peaked. Suggested mechanisms include polar ignition with equatorial stalling, or multi-step energy release; the latter being caused by hydrodynamic instabilities or waiting points in the nuclear reaction sequence. We present an analysis of the accretion rate dependence of the multi-peak bursts, and discuss the consequences for the various models. The observations pose particular challenges for the polar ignition mechanism given current models of ignition latitude dependence., Comment: 5 pages, 4 figures, accepted for publication in A&A Letters

Published
2007
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230. BROADBAND SPECTRAL INVESTIGATIONS OF SGR J1550–5418 BURSTS

Author

Lin, Lin, primary, Göğüş, Ersin, additional, Baring, Matthew G., additional, Granot, Jonathan, additional, Kouveliotou, Chryssa, additional, Kaneko, Yuki, additional, van der Horst, Alexander, additional, Gruber, David, additional, von Kienlin, Andreas, additional, Younes, George, additional, Watts, Anna L., additional, and Gehrels, Neil, additional

Published
2012
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231. DETECTION OF SPECTRAL EVOLUTION IN THE BURSTS EMITTED DURING THE 2008-2009 ACTIVE EPISODE OF SGR J1550–5418

Author

von Kienlin, Andreas, primary, Gruber, David, additional, Kouveliotou, Chryssa, additional, Granot, Jonathan, additional, Baring, Matthew G., additional, Göğüş, Ersin, additional, Huppenkothen, Daniela, additional, Kaneko, Yuki, additional, Lin, Lin, additional, Watts, Anna L., additional, Bhat, Narayana P., additional, Guiriec, Sylvain, additional, van der Horst, Alexander J., additional, Bissaldi, Elisabetta, additional, Greiner, Jochen, additional, Meegan, Charles A., additional, Paciesas, William S., additional, Preece, Robert D., additional, and Rau, Arne, additional

Published
2012
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233. BURST AND PERSISTENT EMISSION PROPERTIES DURING THE RECENT ACTIVE EPISODE OF THE ANOMALOUS X-RAY PULSAR 1E 1841–045

Author

Lin, Lin, primary, Kouveliotou, Chryssa, additional, Göğüş, Ersin, additional, van der Horst, Alexander J., additional, Watts, Anna L., additional, Baring, Matthew G., additional, Kaneko, Yuki, additional, Wijers, Ralph A. M. J., additional, Woods, Peter M., additional, Barthelmy, Scott, additional, Michael Burgess, James, additional, Chaplin, Vandiver, additional, Gehrels, Neil, additional, Goldstein, Adam, additional, Granot, Jonathan, additional, Guiriec, Sylvain, additional, Mcenery, Julie, additional, Preece, Robert D., additional, Tierney, David, additional, van der Klis, Michiel, additional, von Kienlin, Andreas, additional, and Zhang, Shuang Nan, additional

Published
2011
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234. Fermi/GAMMA-RAY BURST MONITOR OBSERVATIONS OF SGR J0501+4516 BURSTS

Author

Lin, Lin, primary, Kouveliotou, Chryssa, additional, Baring, Matthew G., additional, van der Horst, Alexander J., additional, Guiriec, Sylvain, additional, Woods, Peter M., additional, Göğüş, Ersin, additional, Kaneko, Yuki, additional, Scargle, Jeffrey, additional, Granot, Jonathan, additional, Preece, Robert, additional, von Kienlin, Andreas, additional, Chaplin, Vandiver, additional, Watts, Anna L., additional, Wijers, Ralph A. M. J., additional, Zhang, Shuang Nan, additional, Bhat, Narayan, additional, Finger, Mark H., additional, Gehrels, Neil, additional, Harding, Alice, additional, Kaper, Lex, additional, Kaspi, Victoria, additional, Mcenery, Julie, additional, Meegan, Charles A., additional, Paciesas, William S., additional, Pe'er, Asaf, additional, Ramirez-Ruiz, Enrico, additional, van der Klis, Michiel, additional, Wachter, Stefanie, additional, and Wilson-Hodge, Colleen, additional

Published
2011
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237. PHOTOSPHERIC RADIUS EXPANSION DURING MAGNETAR BURSTS

Author

Watts, Anna L., primary, Kouveliotou, Chryssa, additional, van der Horst, Alexander J., additional, Göğüş, Ersin, additional, Kaneko, Yuki, additional, van der Klis, Michiel, additional, Wijers, Ralph A. M. J., additional, Harding, Alice K., additional, and Baring, Matthew G., additional

Published
2010
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238. ERRATUM: “MAGNETAR TWISTS:FERMI/GAMMA-RAY BURST MONITOR DETECTION OF SGR J1550-5418” (2010, ApJ, 710, 1335)

Author

Kaneko, Yuki, primary, Göğüş, Ersin, additional, Kouveliotou, Chryssa, additional, Granot, Jonathan, additional, Ramirez-Ruiz, Enrico, additional, van der Horst, Alexander J., additional, Watts, Anna L., additional, Finger, Mark H., additional, Gehrels, Neil, additional, Pe'er, Asaf, additional, van der Klis, Michiel, additional, von Kienlin, Andreas, additional, Wachter, Stefanie, additional, Wilson-Hodge, Colleen A., additional, and Woods, Peter M., additional

Published
2010
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239. MAGNETAR TWISTS:FERMI/GAMMA-RAY BURST MONITOR DETECTION OF SGR J1550-5418

Author

Kaneko, Yuki, primary, Göğüş, Ersin, additional, Kouveliotou, Chryssa, additional, Granot, Jonathan, additional, Ramirez-Ruiz, Enrico, additional, van der Horst, Alexander J., additional, Watts, Anna L., additional, Finger, Mark H., additional, Gehrels, Neil, additional, Pe'er, Asaf, additional, van der Klis, Michiels, additional, von Kienlin, Andreas, additional, Wachter, Stefanie, additional, Wilson-Hodge, Colleen A., additional, and Woods, Peter M., additional

Published
2010
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