Your search keyword '"Szkody P"' showing total 150 results

1. A Surprising Periodicity Detected During a Super-outburst of V844 Herculis by TESS

Author

Greiveldinger, A., Garnavich, P., Littlefield, C., Kennedy, M. R., Halpern, J. P., Thorstensen, J. R., Szkody, P., Oksanen, A., Boyle, R. S., Greiveldinger, A., Garnavich, P., Littlefield, C., Kennedy, M. R., Halpern, J. P., Thorstensen, J. R., Szkody, P., Oksanen, A., and Boyle, R. S.

Abstract

We identify a previously undetected periodicity at a frequency of 49.08$\pm$0.01 d$^{-1}$ (period of 29.34$\pm$0.01 minutes) during a super-outburst of V844 Her observed by TESS. V844 Her is an SU UMa type cataclysmic variable with an orbital period of 78.69 minutes, near the period minimum. The frequency of this new signal is constant in contrast to the superhump oscillations commonly seen in SU UMa outbursts. We searched without success for oscillations during quiescence using MDM, TESS, and XMM-Newton data. The lack of a periodic signal in the XMM light curve and the relatively low X-ray luminosity of V844 Her suggests that it is not a typical IP. We consider the possibility that the 29 min signal is the result of super-Nyquist sampling of a Dwarf Nova Oscillation with a period near the 2-minute cadence of the TESS data. Our analysis of archival AAVSO photometry from a 2006 super-outburst supports the existence of a 29 min oscillation, although a published study of an earlier superoutburst did not detect the signal. We compare the X-ray properties of V844 Her with short orbital period intermediate polars (IP), V1025 Cen and DW Cnc. We conclude that the new signal is a real photometric oscillation coming from the V844 Her system and that it is unlikely to be an aliased high-frequency oscillation. The steady frequency of the new signal suggests that its origin is related to an asynchronously rotating white dwarf in V844 Her, although the precise mechanism producing the flux variations remains unclear., Comment: 13 pages, 10 figures, accepted for publication in the Astrophysical Journal

Published

2023

2. LSST Survey Strategy in the Galactic Plane and Magellanic Clouds

Author

Street, R. A., Li, X., Khakpash, S., Bellm, E., Girardi, L., Jones, L., Abrams, N. S., Tsapras, Y., Hundertmark, M. P. G., Bachelet, E., Gandhi, P., Szkody, P., Clarkson, W. I., Szabo, R., Prisinzano, L., Bonito, R., Buckley, D. A. H., Marais, J. P., Di Stefano, R., Street, R. A., Li, X., Khakpash, S., Bellm, E., Girardi, L., Jones, L., Abrams, N. S., Tsapras, Y., Hundertmark, M. P. G., Bachelet, E., Gandhi, P., Szkody, P., Clarkson, W. I., Szabo, R., Prisinzano, L., Bonito, R., Buckley, D. A. H., Marais, J. P., and Di Stefano, R.

Abstract

Galactic science encompasses a wide range of subjects in the study of the Milky Way and Magellanic Clouds, from Young Stellar Objects to X-ray Binaries. Mapping these populations, and exploring transient phenomena within them, are among the primary science goals of the Vera C. Rubin Observatory's Legacy Survey of Space and Time (LSST). While early versions of the survey strategy dedicated relatively few visits to the Galactic Plane region, more recent strategies under consideration envision higher cadence within selected regions of high scientific interest. The range of galactic science presents a challenge in evaluating which strategies deliver the highest scientific returns. Here we present metrics designed to evaluate Rubin survey strategy simulations based on the cadence of observations they deliver within regions of interest to different topics in galactic science, using variability categories defined by timescale. We also compare the fractions of exposures obtained in each filter with those recommended for the different science goals. We find that the baseline_v2.x simulations deliver observations of the high-priority regions at sufficiently high cadence to reliably detect variability on timescales >10 d or more. Follow-up observations may be necessary to properly characterize variability, especially transients, on shorter timescales. Combining the regions of interest for all the science cases considered, we identify those areas of the Galactic Plane and Magellanic Clouds of highest priority. We recommend that these refined survey footprints be used in future simulations to explore rolling cadence scenarios, and to optimize the sequence of observations in different bandpasses., Comment: Accepted for publication in ApJS. 26 pages and 36 figures

Published

2023

3. Localized thermonuclear bursts from accreting magnetic white dwarfs

Author

Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., Timmes, F.X., Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., and Timmes, F.X.

Abstract

Contains fulltext : 249212.pdf (Publisher’s version ) (Closed access) Contains fulltext : 249212.pdf (Author’s version preprint ) (Open Access)

Published

2022

4. Localised thermonuclear bursts from accreting magnetic white dwarfs

Author

Scaringi, S., Groot, P. J., Knigge, C., Bird, A. J., Breedt, E., Buckley, D. A. H., Cavecchi, Y., Degenaar, N. D., de Martino, D., Done, C., Fratta, M., Ilkiewicz, K., Koerding, E., Lasota, J. -P., Littlefield, C., Manara, C. F., O'Brien, M., Szkody, P., Timmes, F. X., Scaringi, S., Groot, P. J., Knigge, C., Bird, A. J., Breedt, E., Buckley, D. A. H., Cavecchi, Y., Degenaar, N. D., de Martino, D., Done, C., Fratta, M., Ilkiewicz, K., Koerding, E., Lasota, J. -P., Littlefield, C., Manara, C. F., O'Brien, M., Szkody, P., and Timmes, F. X.

Abstract

Nova explosions are caused by global thermonuclear runaways triggered in the surface layers of accreting white dwarfs. It has been predicted that localised thermonuclear bursts on white dwarfs can also take place, similar to Type I X-ray bursts observed in accreting neutron stars. Unexplained rapid bursts from the binary system TV Columbae, in which mass is accreted onto a moderately-strong magnetised white dwarf from a low-mass companion, have been observed on several occasions in the past $\approx40$ years. During these bursts the optical/UV luminosity increases by a factor of $>3$ in less than an hour and fades over $\approx10$ hours. Fast outflows have been observed in UV spectral lines, with velocities $>3500$ km s$^{-1}$, comparable to the escape velocity from the white dwarf surface. Here we report on optical bursts observed in TV Columbae as well as in two additional accreting systems, EI Ursae Majoris and ASASSN-19bh. The bursts have a total energy $\approx~10^{-6}$ those of classical nova explosions ("micronovae"), and bear a strong resemblance to Type I X-ray bursts. We exclude accretion or stellar magnetic reconnection events as their origin and suggest thermonuclear runaway events in magnetically-confined accretion columns as a viable explanation., Comment: 11 pages, 7 figures. Submitted on 4 October 2021. Accepted for publication in Nature on 1 February 2022

Published

2022

5. Localized thermonuclear bursts from accreting magnetic white dwarfs

Author

Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., Timmes, F.X., Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., and Timmes, F.X.

Abstract

Contains fulltext : 249212.pdf (Publisher’s version ) (Closed access) Contains fulltext : 249212.pdf (Author’s version preprint ) (Open Access)

Published

2022

6. Localized thermonuclear bursts from accreting magnetic white dwarfs

Author

Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., Timmes, F.X., Scaringi, S., Groot, P.J., Knigge, C., Bird, A.J., Breedt, E., Buckley, D.A.H., Cavecchi, Y., Degenaar, N.D., Martino, D. de, Done, C., Fratta, M., Iłkiewicz, K., Koerding, E., Lasota, J.P., Littlefield, C., Manara, C.F., O'Brien, M., Szkody, P., and Timmes, F.X.

Abstract

Contains fulltext : 249212.pdf (Publisher’s version ) (Closed access) Contains fulltext : 249212.pdf (Author’s version preprint ) (Open Access)

Published

2022

7. Localised thermonuclear bursts from accreting magnetic white dwarfs

Author

Scaringi, S., Groot, P. J., Knigge, C., Bird, A. J., Breedt, E., Buckley, D. A. H., Cavecchi, Y., Degenaar, N. D., de Martino, D., Done, C., Fratta, M., Ilkiewicz, K., Koerding, E., Lasota, J. -P., Littlefield, C., Manara, C. F., O'Brien, M., Szkody, P., Timmes, F. X., Scaringi, S., Groot, P. J., Knigge, C., Bird, A. J., Breedt, E., Buckley, D. A. H., Cavecchi, Y., Degenaar, N. D., de Martino, D., Done, C., Fratta, M., Ilkiewicz, K., Koerding, E., Lasota, J. -P., Littlefield, C., Manara, C. F., O'Brien, M., Szkody, P., and Timmes, F. X.

Abstract

Nova explosions are caused by global thermonuclear runaways triggered in the surface layers of accreting white dwarfs. It has been predicted that localised thermonuclear bursts on white dwarfs can also take place, similar to Type I X-ray bursts observed in accreting neutron stars. Unexplained rapid bursts from the binary system TV Columbae, in which mass is accreted onto a moderately-strong magnetised white dwarf from a low-mass companion, have been observed on several occasions in the past $\approx40$ years. During these bursts the optical/UV luminosity increases by a factor of $>3$ in less than an hour and fades over $\approx10$ hours. Fast outflows have been observed in UV spectral lines, with velocities $>3500$ km s$^{-1}$, comparable to the escape velocity from the white dwarf surface. Here we report on optical bursts observed in TV Columbae as well as in two additional accreting systems, EI Ursae Majoris and ASASSN-19bh. The bursts have a total energy $\approx~10^{-6}$ those of classical nova explosions ("micronovae"), and bear a strong resemblance to Type I X-ray bursts. We exclude accretion or stellar magnetic reconnection events as their origin and suggest thermonuclear runaway events in magnetically-confined accretion columns as a viable explanation., Comment: 11 pages, 7 figures. Submitted on 4 October 2021. Accepted for publication in Nature on 1 February 2022

Published

2022

8. Constraining the Evolution of Cataclysmic Variables via the Masses and Accretion Rates of their Underlying White Dwarfs

Author

Pala, A. F., Gänsicke, B. T., Belloni, D., Parsons, S. G., Marsh, T. R., Schreiber, M. R., Breedt, E., Knigge, C., Sion, E. M., Szkody, P., Townsley, D., Bildsten, L., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Kafka, S., Kouprianov, V., Long, K. S., Monard, B., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Shears, J., Stubbings, R., Toloza, O., Pala, A. F., Gänsicke, B. T., Belloni, D., Parsons, S. G., Marsh, T. R., Schreiber, M. R., Breedt, E., Knigge, C., Sion, E. M., Szkody, P., Townsley, D., Bildsten, L., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Kafka, S., Kouprianov, V., Long, K. S., Monard, B., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Shears, J., Stubbings, R., and Toloza, O.

Abstract

We report on the masses ($M_\mathrm{WD}$), effective temperatures ($T_\mathrm{eff}$) and secular mean accretion rates ($\langle \dot{M} \rangle$) of 43 cataclysmic variable (CV) white dwarfs, 42 of which were obtained from the combined analysis of their $\mathit{Hubble~Space~Telescope}$ ultraviolet data with the parallaxes provided by the Early Third Data Release of the $\mathit{Gaia}$ space mission, and one from the white dwarf gravitational redshift. Our results double the number of CV white dwarfs with an accurate mass measurement, bringing the total census to 89 systems. From the study of the mass distribution, we derive $\langle M_\mathrm{WD} \rangle = 0.81^{+0.16}_{-0.20}\,\mathrm{M_\odot}$, in perfect agreement with previous results, and find no evidence of any evolution of the mass with orbital period. Moreover, we identify five systems with $M_\mathrm{WD} < 0.5\mathrm{M_\odot}$, which are most likely representative of helium-core white dwarfs, showing that these CVs are present in the overall population. We reveal the presence of an anti-correlation between the average accretion rates and the white dwarf masses for the systems below the $2-3\,$h period gap. Since $\langle \dot{M} \rangle$ reflects the rate of system angular momentum loss, this correlation suggests the presence of an additional mechanism of angular momentum loss that is more efficient at low white dwarf masses. This is the fundamental concept of the recently proposed empirical prescription of consequential angular momentum loss (eCAML) and our results provide observational support for it, although we also highlight how its current recipe needs to be refined to better reproduce the observed scatter in $T_\mathrm{eff}$ and $\langle \dot{M} \rangle$, and the presence of helium-core white dwarfs., Comment: Accepted for publication in MNRAS. 22 pages of main body (6 tables and 14 figures) and 54 pages of appendices. Appendix B includes the best-fitting parameters and models to the HST data

Published

2021

9. Discovery and characterization of five new eclipsing AM CVn systems

Author

van Roestel, J., Kupfer, T., Green, M. J., Wong, S., Bildsten, L., Burdge, K., Prince, T., Marsh, T. R., Szkody, P., Fremling, C., Graham, M. J., Dhillon, V. S., Littlefair, S. P., Bellm, E. C., Coughlin, M., Duev, D. A., Goldstein, D. A., Laher, R. R., Rusholme, B., Riddle, R., Dekany, R., Kulkarni, S. R., van Roestel, J., Kupfer, T., Green, M. J., Wong, S., Bildsten, L., Burdge, K., Prince, T., Marsh, T. R., Szkody, P., Fremling, C., Graham, M. J., Dhillon, V. S., Littlefair, S. P., Bellm, E. C., Coughlin, M., Duev, D. A., Goldstein, D. A., Laher, R. R., Rusholme, B., Riddle, R., Dekany, R., and Kulkarni, S. R.

Abstract

AM CVn systems are ultra-compact, helium-rich, accreting binaries with degenerate or semi-degenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 minutes. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) lightcurves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra of two long-period systems (61.5 and 53.3 minutes) show many emission and absorption lines, indicating the presence of N, O, Na, Mg, Si, and Ca, and also the K and Zn, elements which have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is $\approx0.8$$\mathrm{M_{\odot}}$, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of $\approx$ 2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with He-star progenitors, although the observed spectral features seem to contradict this. The discovery of 5 new eclipsing AM~CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency. Based on this estimate, we expect to find another 1--4 eclipsing AM CVn systems as ZTF continues to obtain data. This will further increase our understanding of the population, but will require high precision data to better characterize these 5 systems and any new discoveries., Comment: submitted to MNRAS

Published

2021

10. Constraining the Evolution of Cataclysmic Variables via the Masses and Accretion Rates of their Underlying White Dwarfs

Author

Pala, A. F., Gänsicke, B. T., Belloni, D., Parsons, S. G., Marsh, T. R., Schreiber, M. R., Breedt, E., Knigge, C., Sion, E. M., Szkody, P., Townsley, D., Bildsten, L., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Kafka, S., Kouprianov, V., Long, K. S., Monard, B., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Shears, J., Stubbings, R., Toloza, O., Pala, A. F., Gänsicke, B. T., Belloni, D., Parsons, S. G., Marsh, T. R., Schreiber, M. R., Breedt, E., Knigge, C., Sion, E. M., Szkody, P., Townsley, D., Bildsten, L., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Kafka, S., Kouprianov, V., Long, K. S., Monard, B., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Shears, J., Stubbings, R., and Toloza, O.

Abstract

We report on the masses ($M_\mathrm{WD}$), effective temperatures ($T_\mathrm{eff}$) and secular mean accretion rates ($\langle \dot{M} \rangle$) of 43 cataclysmic variable (CV) white dwarfs, 42 of which were obtained from the combined analysis of their $\mathit{Hubble~Space~Telescope}$ ultraviolet data with the parallaxes provided by the Early Third Data Release of the $\mathit{Gaia}$ space mission, and one from the white dwarf gravitational redshift. Our results double the number of CV white dwarfs with an accurate mass measurement, bringing the total census to 89 systems. From the study of the mass distribution, we derive $\langle M_\mathrm{WD} \rangle = 0.81^{+0.16}_{-0.20}\,\mathrm{M_\odot}$, in perfect agreement with previous results, and find no evidence of any evolution of the mass with orbital period. Moreover, we identify five systems with $M_\mathrm{WD} < 0.5\mathrm{M_\odot}$, which are most likely representative of helium-core white dwarfs, showing that these CVs are present in the overall population. We reveal the presence of an anti-correlation between the average accretion rates and the white dwarf masses for the systems below the $2-3\,$h period gap. Since $\langle \dot{M} \rangle$ reflects the rate of system angular momentum loss, this correlation suggests the presence of an additional mechanism of angular momentum loss that is more efficient at low white dwarf masses. This is the fundamental concept of the recently proposed empirical prescription of consequential angular momentum loss (eCAML) and our results provide observational support for it, although we also highlight how its current recipe needs to be refined to better reproduce the observed scatter in $T_\mathrm{eff}$ and $\langle \dot{M} \rangle$, and the presence of helium-core white dwarfs., Comment: Accepted for publication in MNRAS. 22 pages of main body (6 tables and 14 figures) and 54 pages of appendices. Appendix B includes the best-fitting parameters and models to the HST data

Published

2021

11. Discovery and characterization of five new eclipsing AM CVn systems

Author

van Roestel, J., Kupfer, T., Green, M. J., Wong, S., Bildsten, L., Burdge, K., Prince, T., Marsh, T. R., Szkody, P., Fremling, C., Graham, M. J., Dhillon, V. S., Littlefair, S. P., Bellm, E. C., Coughlin, M., Duev, D. A., Goldstein, D. A., Laher, R. R., Rusholme, B., Riddle, R., Dekany, R., Kulkarni, S. R., van Roestel, J., Kupfer, T., Green, M. J., Wong, S., Bildsten, L., Burdge, K., Prince, T., Marsh, T. R., Szkody, P., Fremling, C., Graham, M. J., Dhillon, V. S., Littlefair, S. P., Bellm, E. C., Coughlin, M., Duev, D. A., Goldstein, D. A., Laher, R. R., Rusholme, B., Riddle, R., Dekany, R., and Kulkarni, S. R.

Abstract

AM CVn systems are ultra-compact, helium-rich, accreting binaries with degenerate or semi-degenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 minutes. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) lightcurves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra of two long-period systems (61.5 and 53.3 minutes) show many emission and absorption lines, indicating the presence of N, O, Na, Mg, Si, and Ca, and also the K and Zn, elements which have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is $\approx0.8$$\mathrm{M_{\odot}}$, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of $\approx$ 2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with He-star progenitors, although the observed spectral features seem to contradict this. The discovery of 5 new eclipsing AM~CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency. Based on this estimate, we expect to find another 1--4 eclipsing AM CVn systems as ZTF continues to obtain data. This will further increase our understanding of the population, but will require high precision data to better characterize these 5 systems and any new discoveries., Comment: submitted to MNRAS

Published

2021

12. Search for magnetic accretion in SW Sextantis systems

Author

Lima, I. J., Rodrigues, C. V., Lopes, C. E. Ferreira, Szkody, P., Jablonski, F. J., Oliveira, A. S., Silva, K. M. G., Belloni, D., Palhares, M. S., Shugarov, S., Baptista, R., Almeida, L. A., Lima, I. J., Rodrigues, C. V., Lopes, C. E. Ferreira, Szkody, P., Jablonski, F. J., Oliveira, A. S., Silva, K. M. G., Belloni, D., Palhares, M. S., Shugarov, S., Baptista, R., and Almeida, L. A.

Abstract

SW Sextantis systems are nova-like cataclysmic variables that have unusual spectroscopic properties, which are thought to be caused by an accretion geometry having part of the mass flux trajectory out of the orbital plane. Accretion onto a magnetic white dwarf is one of the proposed scenarios for these systems. To verify this possibility, we analysed photometric and polarimetric time-series data for a sample of six SW Sex stars. We report possible modulated circular polarization in BO Cet, SW Sex, and UU Aqr with periods of 11.1, 41.2 and 25.7 min, respectively, and less significant periodicities for V380 Oph at 22 min and V442 Oph at 19.4 min. We confirm previous results that LS Peg shows variable circular polarization. However, we determine a period of 18.8 min, which is different from the earlier reported value. We interpret these periods as the spin periods of the white dwarfs. Our polarimetric results indicate that 15% of the SW Sex systems have direct evidence of magnetic accretion. We also discuss SW Sex objects within the perspective of being magnetic systems, considering the latest findings about cataclysmic variables demography, formation and evolution., Comment: 29 pages, 17 figures

Published

2021

13. NGTS and HST insights into the long period modulation in GW Librae

Author

Chote, P., Gaensicke, B. T., McCormac, J., Aungwerojwit, A., Bayliss, D., Burleigh, M. R., Casewell, S. L., Eigmueller, Ph., Gill, S., Goad, M. R., Hermes, J. J., Jenkins, J. S., Mukadam, A. S., Poshyachinda, S., Raynard, L., Reichart, D. E., Szkody, P., Toloza, O., West, R. G., Wheatley, P. J., Chote, P., Gaensicke, B. T., McCormac, J., Aungwerojwit, A., Bayliss, D., Burleigh, M. R., Casewell, S. L., Eigmueller, Ph., Gill, S., Goad, M. R., Hermes, J. J., Jenkins, J. S., Mukadam, A. S., Poshyachinda, S., Raynard, L., Reichart, D. E., Szkody, P., Toloza, O., West, R. G., and Wheatley, P. J.

Abstract

Light curves of the accreting white dwarf pulsator GW Librae spanning a 7.5 month period in 2017 were obtained as part of the Next Generation Transit Survey. This data set comprises 787 hours of photometry from 148 clear nights, allowing the behaviour of the long (hours) and short period (20min) modulation signals to be tracked from night to night over a much longer observing baseline than has been previously achieved. The long period modulations intermittently detected in previous observations of GW Lib are found to be a persistent feature, evolving between states with periods ~83min and 2-4h on time-scales of several days. The 20min signal is found to have a broadly stable amplitude and frequency for the duration of the campaign, but the previously noted phase instability is confirmed. Ultraviolet observations obtained with the Cosmic Origin Spectrograph onboard the Hubble Space Telescope constrain the ultraviolet-to-optical flux ratio to ~5 for the 4h modulation, and <=1 for the 20min period, with caveats introduced by non-simultaneous observations. These results add further observational evidence that these enigmatic signals must originate from the white dwarf, highlighting our continued gap in theoretical understanding of the mechanisms that drive them., Comment: Accepted for publication in MNRAS, 8 pages, 7 figures

Published

2021

14. Machine learning for the Zwicky transient facility

Author

Mahabal, A, Mahabal, A, Rebbapragada, U, Walters, R, Masci, FJ, Blagorodnova, N, van Roestel, J, Ye, QZ, Biswas, R, Burdge, K, Chang, CK, Duev, DA, Zach Golkhou, V, Miller, AA, Nordin, J, Ward, C, Adams, S, Bellm, EC, Branton, D, Bue, B, Cannella, C, Connolly, A, Dekany, R, Feindt, U, Hung, T, Fortson, L, Frederick, S, Fremling, C, Gezari, S, Graham, M, Groom, S, Kasliwal, MM, Kulkarni, S, Kupfer, T, Lin, HW, Lintott, C, Lunnan, R, Parejko, J, Prince, TA, Riddle, R, Rusholme, B, Saunders, N, Sedaghat, N, Shupe, DL, Singer, LP, Soumagnac, MT, Szkody, P, Tachibana, Y, Tirumala, K, van Velzen, S, Wright, D, Mahabal, A, Mahabal, A, Rebbapragada, U, Walters, R, Masci, FJ, Blagorodnova, N, van Roestel, J, Ye, QZ, Biswas, R, Burdge, K, Chang, CK, Duev, DA, Zach Golkhou, V, Miller, AA, Nordin, J, Ward, C, Adams, S, Bellm, EC, Branton, D, Bue, B, Cannella, C, Connolly, A, Dekany, R, Feindt, U, Hung, T, Fortson, L, Frederick, S, Fremling, C, Gezari, S, Graham, M, Groom, S, Kasliwal, MM, Kulkarni, S, Kupfer, T, Lin, HW, Lintott, C, Lunnan, R, Parejko, J, Prince, TA, Riddle, R, Rusholme, B, Saunders, N, Sedaghat, N, Shupe, DL, Singer, LP, Soumagnac, MT, Szkody, P, Tachibana, Y, Tirumala, K, van Velzen, S, and Wright, D

Abstract

The Zwicky Transient Facility is a large optical survey in multiple filters producing hundreds of thousands of transient alerts per night. We describe here various machine learning (ML) implementations and plans to make the maximal use of the large data set by taking advantage of the temporal nature of the data, and further combining it with other data sets. We start with the initial steps of separating bogus candidates from real ones, separating stars and galaxies, and go on to the classification of real objects into various classes. Besides the usual methods (e.g., based on features extracted from light curves) we also describe early plans for alternate methods including the use of domain adaptation, and deep learning. In a similar fashion we describe efforts to detect fast moving asteroids. We also describe the use of the Zooniverse platform for helping with classifications through the creation of training samples, and active learning. Finally we mention the synergistic aspects of ZTF and LSST from the ML perspective.

Published

2019

15. The Eclipsing Accreting White Dwarf Z Chameleontis as Seen with TESS

Author

Court, J. M. C., Scaringi, S., Rappaport, S., Zhan, Z., Littlefield, C., Segura, N. Castro, Knigge, C., Maccarone, T., Kennedy, M., Szkody, P., Garnavich, P., Court, J. M. C., Scaringi, S., Rappaport, S., Zhan, Z., Littlefield, C., Segura, N. Castro, Knigge, C., Maccarone, T., Kennedy, M., Szkody, P., and Garnavich, P.

Abstract

We present results from a study of TESS observations of the eclipsing dwarf nova system Z Cha, covering both an outburst and a superoutburst. We discover that Z Cha undergoes hysteretic loops in eclipse depth - out-of-eclipse flux space in both the outburst and the superoutburst. The direction that these loops are executed in indicates that the disk size increases during an outburst before the mass transfer rate through the disk increases, placing constraints on the physics behind the triggering of outbursts and superoutbursts. By fitting the signature of the superhump period in a flux-phase diagram, we find the rate at which this period decreases in this system during a superoutburst for the first time. We find that the superhumps in this source skip evolutionary stage "A" seen during most dwarf nova superoutbursts, even though this evolutionary stage has been seen during previous superoutbursts of the same object. Finally, O-C values of eclipses in our sample are used to calculate new ephemerides for the system, strengthening the case for a third body in Z Cha and placing new constraints on its orbit., Comment: Accepted by MNRAS July 2019. 13 pages, 16 figures, 4 tables

Published

2019

16. Machine learning for the Zwicky transient facility

Author

Mahabal, A, Mahabal, A, Rebbapragada, U, Walters, R, Masci, FJ, Blagorodnova, N, van Roestel, J, Ye, QZ, Biswas, R, Burdge, K, Chang, CK, Duev, DA, Zach Golkhou, V, Miller, AA, Nordin, J, Ward, C, Adams, S, Bellm, EC, Branton, D, Bue, B, Cannella, C, Connolly, A, Dekany, R, Feindt, U, Hung, T, Fortson, L, Frederick, S, Fremling, C, Gezari, S, Graham, M, Groom, S, Kasliwal, MM, Kulkarni, S, Kupfer, T, Lin, HW, Lintott, C, Lunnan, R, Parejko, J, Prince, TA, Riddle, R, Rusholme, B, Saunders, N, Sedaghat, N, Shupe, DL, Singer, LP, Soumagnac, MT, Szkody, P, Tachibana, Y, Tirumala, K, van Velzen, S, Wright, D, Mahabal, A, Mahabal, A, Rebbapragada, U, Walters, R, Masci, FJ, Blagorodnova, N, van Roestel, J, Ye, QZ, Biswas, R, Burdge, K, Chang, CK, Duev, DA, Zach Golkhou, V, Miller, AA, Nordin, J, Ward, C, Adams, S, Bellm, EC, Branton, D, Bue, B, Cannella, C, Connolly, A, Dekany, R, Feindt, U, Hung, T, Fortson, L, Frederick, S, Fremling, C, Gezari, S, Graham, M, Groom, S, Kasliwal, MM, Kulkarni, S, Kupfer, T, Lin, HW, Lintott, C, Lunnan, R, Parejko, J, Prince, TA, Riddle, R, Rusholme, B, Saunders, N, Sedaghat, N, Shupe, DL, Singer, LP, Soumagnac, MT, Szkody, P, Tachibana, Y, Tirumala, K, van Velzen, S, and Wright, D

Abstract

The Zwicky Transient Facility is a large optical survey in multiple filters producing hundreds of thousands of transient alerts per night. We describe here various machine learning (ML) implementations and plans to make the maximal use of the large data set by taking advantage of the temporal nature of the data, and further combining it with other data sets. We start with the initial steps of separating bogus candidates from real ones, separating stars and galaxies, and go on to the classification of real objects into various classes. Besides the usual methods (e.g., based on features extracted from light curves) we also describe early plans for alternate methods including the use of domain adaptation, and deep learning. In a similar fashion we describe efforts to detect fast moving asteroids. We also describe the use of the Zooniverse platform for helping with classifications through the creation of training samples, and active learning. Finally we mention the synergistic aspects of ZTF and LSST from the ML perspective.

Published

2019

17. The Eclipsing Accreting White Dwarf Z Chameleontis as Seen with TESS

Author

Court, J. M. C., Scaringi, S., Rappaport, S., Zhan, Z., Littlefield, C., Segura, N. Castro, Knigge, C., Maccarone, T., Kennedy, M., Szkody, P., Garnavich, P., Court, J. M. C., Scaringi, S., Rappaport, S., Zhan, Z., Littlefield, C., Segura, N. Castro, Knigge, C., Maccarone, T., Kennedy, M., Szkody, P., and Garnavich, P.

Abstract

We present results from a study of TESS observations of the eclipsing dwarf nova system Z Cha, covering both an outburst and a superoutburst. We discover that Z Cha undergoes hysteretic loops in eclipse depth - out-of-eclipse flux space in both the outburst and the superoutburst. The direction that these loops are executed in indicates that the disk size increases during an outburst before the mass transfer rate through the disk increases, placing constraints on the physics behind the triggering of outbursts and superoutbursts. By fitting the signature of the superhump period in a flux-phase diagram, we find the rate at which this period decreases in this system during a superoutburst for the first time. We find that the superhumps in this source skip evolutionary stage "A" seen during most dwarf nova superoutbursts, even though this evolutionary stage has been seen during previous superoutbursts of the same object. Finally, O-C values of eclipses in our sample are used to calculate new ephemerides for the system, strengthening the case for a third body in Z Cha and placing new constraints on its orbit., Comment: Accepted by MNRAS July 2019. 13 pages, 16 figures, 4 tables

Published

2019

18. Target of Opportunity Observations of Gravitational Wave Events with LSST

Author

Margutti, R, Margutti, R, Cowperthwaite, P, Doctor, Z, Mortensen, K, Pankow, CP, Salafia, O, Villar, VA, Alexander, K, Annis, J, Andreoni, I, Baldeschi, A, Balmaverde, B, Berger, E, Bernardini, MG, Berry, CPL, Bianco, F, Blanchard, PK, Brocato, E, Carnerero, MI, Cartier, R, Cenko, SB, Chornock, R, Chomiuk, L, Copperwheat, CM, Coughlin, MW, Coppejans, DL, Corsi, A, D'Ammando, F, Datrier, L, D'Avanzo, P, Dimitriadis, G, Drout, MR, Foley, RJ, Fong, W, Fox, O, Ghirlanda, G, Goldstein, D, Grindlay, J, Guidorzi, C, Haiman, Z, Hendry, M, Holz, D, Hung, T, Inserra, C, Jones, DO, Kalogera, V, Kilpatrick, CD, Lamb, G, Laskar, T, Levan, A, Mason, E, Maguire, K, Melandri, A, Milisavljevic, D, Miller, A, Narayan, G, Nielsen, E, Nicholl, M, Nissanke, S, Nugent, P, Pan, Y-C, Pasham, D, Paterson, K, Piranomonte, S, Racusin, J, Rest, A, Righi, C, Sand, D, Seaman, R, Scolnic, D, Siellez, K, Singer, L, Szkody, P, Smith, M, Steeghs, D, Sullivan, M, Tanvir, N, Terreran, G, Trimble, V, Valenti, S, Transient, with the support of the LSST, Collaboration, Variable Stars, Margutti, R, Margutti, R, Cowperthwaite, P, Doctor, Z, Mortensen, K, Pankow, CP, Salafia, O, Villar, VA, Alexander, K, Annis, J, Andreoni, I, Baldeschi, A, Balmaverde, B, Berger, E, Bernardini, MG, Berry, CPL, Bianco, F, Blanchard, PK, Brocato, E, Carnerero, MI, Cartier, R, Cenko, SB, Chornock, R, Chomiuk, L, Copperwheat, CM, Coughlin, MW, Coppejans, DL, Corsi, A, D'Ammando, F, Datrier, L, D'Avanzo, P, Dimitriadis, G, Drout, MR, Foley, RJ, Fong, W, Fox, O, Ghirlanda, G, Goldstein, D, Grindlay, J, Guidorzi, C, Haiman, Z, Hendry, M, Holz, D, Hung, T, Inserra, C, Jones, DO, Kalogera, V, Kilpatrick, CD, Lamb, G, Laskar, T, Levan, A, Mason, E, Maguire, K, Melandri, A, Milisavljevic, D, Miller, A, Narayan, G, Nielsen, E, Nicholl, M, Nissanke, S, Nugent, P, Pan, Y-C, Pasham, D, Paterson, K, Piranomonte, S, Racusin, J, Rest, A, Righi, C, Sand, D, Seaman, R, Scolnic, D, Siellez, K, Singer, L, Szkody, P, Smith, M, Steeghs, D, Sullivan, M, Tanvir, N, Terreran, G, Trimble, V, Valenti, S, Transient, with the support of the LSST, and Collaboration, Variable Stars

Abstract

The discovery of the electromagnetic counterparts to the binary neutron star merger GW170817 has opened the era of GW+EM multi-messenger astronomy. Exploiting this breakthrough requires increasing samples to explore the diversity of kilonova behaviour and provide more stringent constraints on the Hubble constant, and tests of fundamental physics. LSST can play a key role in this field in the 2020s, when the gravitational wave detector network is expected to detect higher rates of merger events involving neutron stars ($\sim$10s per year) out to distances of several hundred Mpc. Here we propose comprehensive target-of-opportunity (ToOs) strategies for follow-up of gravitational-wave sources that will make LSST the premiere machine for discovery and early characterization for neutron star mergers and other gravitational-wave sources.

Published

2018

19. Unique Science from a Coordinated LSST-WFIRST Survey of the Galactic Bulge

Author

Street, R. A., Lund, M. B., Donachie, M., Khakpash, S., Golovich, N., Penny, M., Bennett, D., Dawson, W. A., Pepper, J., Rabus, M., Szkody, P., Clarkson, W. I., Di Stefano, R., Rattenbury, N., Hundertmark, M. P. G., Tsapras, Y., Ridgway, S., Stassun, K., Bozza, V., Bhattacharya, A., Novati, S. Calchi, Shvartzvald, Y., Street, R. A., Lund, M. B., Donachie, M., Khakpash, S., Golovich, N., Penny, M., Bennett, D., Dawson, W. A., Pepper, J., Rabus, M., Szkody, P., Clarkson, W. I., Di Stefano, R., Rattenbury, N., Hundertmark, M. P. G., Tsapras, Y., Ridgway, S., Stassun, K., Bozza, V., Bhattacharya, A., Novati, S. Calchi, and Shvartzvald, Y.

Abstract

NASA's WFIRST mission will perform a wide-field, NIR survey of the Galactic Bulge to search for exoplanets via the microlensing techniques. As the mission is due to launch in the mid-2020s, around half-way through the LSST Main Survey, we have a unique opportunity to explore synergistic science from two landmark programs. LSST can survey the entire footprint of the WFIRST microlensing survey in a single Deep Drilling Field. Here we explore the great scientific potential of this proposal and recommend the most effective observing strategies., Comment: White Paper submitted to the 2018 call for LSST cadence proposals. arXiv admin note: text overlap with arXiv:1812.03137

Published

2018

20. The Diverse Science Return from a Wide-Area Survey of the Galactic Plane

Author

Street, R. A., Lund, M. B., Khakpash, S., Donachie, M., Dawson, W. A., Golovich, N., Wyrzykowski, L., Szkody, P., Naylor, T., Penny, M., Rattenbury, N., Dall'Ora, M., Clarkson, W. I., Bennett, D., Pepper, J., Rabus, M., Hundertmark, M. P. G., Tsapras, Y., Di Stefano, R., Ridgway, S., Liu, M., Lin, E., Street, R. A., Lund, M. B., Khakpash, S., Donachie, M., Dawson, W. A., Golovich, N., Wyrzykowski, L., Szkody, P., Naylor, T., Penny, M., Rattenbury, N., Dall'Ora, M., Clarkson, W. I., Bennett, D., Pepper, J., Rabus, M., Hundertmark, M. P. G., Tsapras, Y., Di Stefano, R., Ridgway, S., Liu, M., and Lin, E.

Abstract

The overwhelming majority of objects visible to LSST lie within the Galactic Plane. Though many previous surveys have avoided this region for fear of stellar crowding, LSST's spatial resolution combined with its state-of-the-art Difference Image Analysis mean that it can conduct a high cadence survey of most of the Galaxy for the first time. Here we outline the many areas of science that would greatly benefit from an LSST survey that included the Galactic Plane, Magellanic Clouds and Bulge at a cadence of 2-3 d. Particular highlights include measuring the mass spectrum of black holes, and mapping the population of exoplanets in the Galaxy in relation to variations in star forming environments. But the same survey data will provide a goldmine for a wide range of science, and we explore possible survey strategies which maximize the scientific return for a number of fields including young stellar objects, cataclysmic variables and Neptune Trojans., Comment: White Paper submitted in response to the 2018 call for LSST cadence proposals

Published

2018

21. Target of Opportunity Observations of Gravitational Wave Events with LSST

Author

Margutti, R., Cowperthwaite, P., Doctor, Z., Mortensen, K., Pankow, C. P., Salafia, O., Villar, V. A., Alexander, K., Annis, J., Andreoni, I., Baldeschi, A., Balmaverde, B., Berger, E., Bernardini, M. G., Berry, C. P. L., Bianco, F., Blanchard, P. K., Brocato, E., Carnerero, M. I., Cartier, R., Cenko, S. B., Chornock, R., Chomiuk, L., Copperwheat, C. M., Coughlin, M. W., Coppejans, D. L., Corsi, A., D'Ammando, F., Datrier, L., D'Avanzo, P., Dimitriadis, G., Drout, M. R., Foley, R. J., Fong, W., Fox, O., Ghirlanda, G., Goldstein, D., Grindlay, J., Guidorzi, C., Haiman, Z., Hendry, M., Holz, D., Hung, T., Inserra, C., Jones, D. O., Kalogera, V., Kilpatrick, C. D., Lamb, G., Laskar, T., Levan, A., Mason, E., Maguire, K., Melandri, A., Milisavljevic, D., Miller, A., Narayan, G., Nielsen, E., Nicholl, M., Nissanke, S., Nugent, P., Pan, Y. -C., Pasham, D., Paterson, K., Piranomonte, S., Racusin, J., Rest, A., Righi, C., Sand, D., Seaman, R., Scolnic, D., Siellez, K., Singer, L., Szkody, P., Smith, M., Steeghs, D., Sullivan, M., Tanvir, N., Terreran, G., Trimble, V., Valenti, S., Transient, with the support of the LSST, Collaboration, Variable Stars, Margutti, R., Cowperthwaite, P., Doctor, Z., Mortensen, K., Pankow, C. P., Salafia, O., Villar, V. A., Alexander, K., Annis, J., Andreoni, I., Baldeschi, A., Balmaverde, B., Berger, E., Bernardini, M. G., Berry, C. P. L., Bianco, F., Blanchard, P. K., Brocato, E., Carnerero, M. I., Cartier, R., Cenko, S. B., Chornock, R., Chomiuk, L., Copperwheat, C. M., Coughlin, M. W., Coppejans, D. L., Corsi, A., D'Ammando, F., Datrier, L., D'Avanzo, P., Dimitriadis, G., Drout, M. R., Foley, R. J., Fong, W., Fox, O., Ghirlanda, G., Goldstein, D., Grindlay, J., Guidorzi, C., Haiman, Z., Hendry, M., Holz, D., Hung, T., Inserra, C., Jones, D. O., Kalogera, V., Kilpatrick, C. D., Lamb, G., Laskar, T., Levan, A., Mason, E., Maguire, K., Melandri, A., Milisavljevic, D., Miller, A., Narayan, G., Nielsen, E., Nicholl, M., Nissanke, S., Nugent, P., Pan, Y. -C., Pasham, D., Paterson, K., Piranomonte, S., Racusin, J., Rest, A., Righi, C., Sand, D., Seaman, R., Scolnic, D., Siellez, K., Singer, L., Szkody, P., Smith, M., Steeghs, D., Sullivan, M., Tanvir, N., Terreran, G., Trimble, V., Valenti, S., Transient, with the support of the LSST, and Collaboration, Variable Stars

Abstract

The discovery of the electromagnetic counterparts to the binary neutron star merger GW170817 has opened the era of GW+EM multi-messenger astronomy. Exploiting this breakthrough requires increasing samples to explore the diversity of kilonova behaviour and provide more stringent constraints on the Hubble constant, and tests of fundamental physics. LSST can play a key role in this field in the 2020s, when the gravitational wave detector network is expected to detect higher rates of merger events involving neutron stars ($\sim$10s per year) out to distances of several hundred Mpc. Here we propose comprehensive target-of-opportunity (ToOs) strategies for follow-up of gravitational-wave sources that will make LSST the premiere machine for discovery and early characterization for neutron star mergers and other gravitational-wave sources., Comment: White paper for LSST cadence optimization- ToOs

Published

2018

22. Evidence for mass accretion driven by spiral shocks onto the white dwarf in SDSS J123813.73-033933.0

Author

Pala, A. F., Gänsicke, B. T., Marsh, T. R., Breedt, E., Hermes, J. J., Landstreet, J. D., Schreiber, M. R., Townsley, D. M., Wang, L., Aungwerojwit, A., Hambsch, F. -J., Monard, B., Myers, G., Nelson, P., Pickard, R., Poyner, G., Reichart, D. E., Stubbings, R., Godon, P., Szkody, P., De Martino, D., Dhillon, V. S., Knigge, C., Parsons, S. G., Pala, A. F., Gänsicke, B. T., Marsh, T. R., Breedt, E., Hermes, J. J., Landstreet, J. D., Schreiber, M. R., Townsley, D. M., Wang, L., Aungwerojwit, A., Hambsch, F. -J., Monard, B., Myers, G., Nelson, P., Pickard, R., Poyner, G., Reichart, D. E., Stubbings, R., Godon, P., Szkody, P., De Martino, D., Dhillon, V. S., Knigge, C., and Parsons, S. G.

Abstract

We present high-time-resolution photometry and phase-resolved spectroscopy of the short-period ($P_\mathrm{orb} = 80.52\,\mathrm{min}$) cataclysmic variable SDSS J123813.73-033933.0, observed with the $\mathit{Hubble}$ $\mathit{Space}$ $\mathit{Telescope}$ $\mathit{(HST)}$, the $\mathit{Kepler/K2}$ mission and the Very Large Telescope (VLT). We also report observations of the first detected super-outburst. SDSS J1238-0339 shows two types of variability: quasi-regular brightenings recurring every $\simeq 8.5$ h during which the system increases in brightness by $\simeq 0.5$mag, and a double hump quasi-sinusoidal modulation at the orbital period. The detailed $\mathit{K2}$ light curve reveals that the amplitude of the double-humps increases during the brightenings and that their phase undergoes a $\simeq 90^{\circ}$ phase shift with respect to the quiescent intervals. The $\mathit{HST}$ data unambiguously demonstrate that these phenomena both arise from the heating and cooling of two relatively large regions on the white dwarf. We suggest that the double-hump modulation is related to spiral shocks in the accretion disc resulting in an enhanced accretion rate heating two localised regions on the white dwarf, with the structure of the shocks fixed in the binary frame explaining the period of the double humps. The physical origin of the 8.5 h brightenings is less clear. However, the correlation between the observed variations of the amplitude and phase of the double-humps with the occurrence of the brightenings is supportive of an origin in thermal instabilities in the accretion disc., Comment: 26 pages, 22 figures. MNRAS, in press

Published

2018

23. Target of Opportunity Observations of Gravitational Wave Events with LSST

Author

Margutti, R, Margutti, R, Cowperthwaite, P, Doctor, Z, Mortensen, K, Pankow, CP, Salafia, O, Villar, VA, Alexander, K, Annis, J, Andreoni, I, Baldeschi, A, Balmaverde, B, Berger, E, Bernardini, MG, Berry, CPL, Bianco, F, Blanchard, PK, Brocato, E, Carnerero, MI, Cartier, R, Cenko, SB, Chornock, R, Chomiuk, L, Copperwheat, CM, Coughlin, MW, Coppejans, DL, Corsi, A, D'Ammando, F, Datrier, L, D'Avanzo, P, Dimitriadis, G, Drout, MR, Foley, RJ, Fong, W, Fox, O, Ghirlanda, G, Goldstein, D, Grindlay, J, Guidorzi, C, Haiman, Z, Hendry, M, Holz, D, Hung, T, Inserra, C, Jones, DO, Kalogera, V, Kilpatrick, CD, Lamb, G, Laskar, T, Levan, A, Mason, E, Maguire, K, Melandri, A, Milisavljevic, D, Miller, A, Narayan, G, Nielsen, E, Nicholl, M, Nissanke, S, Nugent, P, Pan, Y-C, Pasham, D, Paterson, K, Piranomonte, S, Racusin, J, Rest, A, Righi, C, Sand, D, Seaman, R, Scolnic, D, Siellez, K, Singer, L, Szkody, P, Smith, M, Steeghs, D, Sullivan, M, Tanvir, N, Terreran, G, Trimble, V, Valenti, S, Transient, with the support of the LSST, Collaboration, Variable Stars, Margutti, R, Margutti, R, Cowperthwaite, P, Doctor, Z, Mortensen, K, Pankow, CP, Salafia, O, Villar, VA, Alexander, K, Annis, J, Andreoni, I, Baldeschi, A, Balmaverde, B, Berger, E, Bernardini, MG, Berry, CPL, Bianco, F, Blanchard, PK, Brocato, E, Carnerero, MI, Cartier, R, Cenko, SB, Chornock, R, Chomiuk, L, Copperwheat, CM, Coughlin, MW, Coppejans, DL, Corsi, A, D'Ammando, F, Datrier, L, D'Avanzo, P, Dimitriadis, G, Drout, MR, Foley, RJ, Fong, W, Fox, O, Ghirlanda, G, Goldstein, D, Grindlay, J, Guidorzi, C, Haiman, Z, Hendry, M, Holz, D, Hung, T, Inserra, C, Jones, DO, Kalogera, V, Kilpatrick, CD, Lamb, G, Laskar, T, Levan, A, Mason, E, Maguire, K, Melandri, A, Milisavljevic, D, Miller, A, Narayan, G, Nielsen, E, Nicholl, M, Nissanke, S, Nugent, P, Pan, Y-C, Pasham, D, Paterson, K, Piranomonte, S, Racusin, J, Rest, A, Righi, C, Sand, D, Seaman, R, Scolnic, D, Siellez, K, Singer, L, Szkody, P, Smith, M, Steeghs, D, Sullivan, M, Tanvir, N, Terreran, G, Trimble, V, Valenti, S, Transient, with the support of the LSST, and Collaboration, Variable Stars

Abstract

The discovery of the electromagnetic counterparts to the binary neutron star merger GW170817 has opened the era of GW+EM multi-messenger astronomy. Exploiting this breakthrough requires increasing samples to explore the diversity of kilonova behaviour and provide more stringent constraints on the Hubble constant, and tests of fundamental physics. LSST can play a key role in this field in the 2020s, when the gravitational wave detector network is expected to detect higher rates of merger events involving neutron stars ($\sim$10s per year) out to distances of several hundred Mpc. Here we propose comprehensive target-of-opportunity (ToOs) strategies for follow-up of gravitational-wave sources that will make LSST the premiere machine for discovery and early characterization for neutron star mergers and other gravitational-wave sources.

Published

2018

24. Target of Opportunity Observations of Gravitational Wave Events with LSST

Author

Margutti, R., Cowperthwaite, P., Doctor, Z., Mortensen, K., Pankow, C. P., Salafia, O., Villar, V. A., Alexander, K., Annis, J., Andreoni, I., Baldeschi, A., Balmaverde, B., Berger, E., Bernardini, M. G., Berry, C. P. L., Bianco, F., Blanchard, P. K., Brocato, E., Carnerero, M. I., Cartier, R., Cenko, S. B., Chornock, R., Chomiuk, L., Copperwheat, C. M., Coughlin, M. W., Coppejans, D. L., Corsi, A., D'Ammando, F., Datrier, L., D'Avanzo, P., Dimitriadis, G., Drout, M. R., Foley, R. J., Fong, W., Fox, O., Ghirlanda, G., Goldstein, D., Grindlay, J., Guidorzi, C., Haiman, Z., Hendry, M., Holz, D., Hung, T., Inserra, C., Jones, D. O., Kalogera, V., Kilpatrick, C. D., Lamb, G., Laskar, T., Levan, A., Mason, E., Maguire, K., Melandri, A., Milisavljevic, D., Miller, A., Narayan, G., Nielsen, E., Nicholl, M., Nissanke, S., Nugent, P., Pan, Y. -C., Pasham, D., Paterson, K., Piranomonte, S., Racusin, J., Rest, A., Righi, C., Sand, D., Seaman, R., Scolnic, D., Siellez, K., Singer, L., Szkody, P., Smith, M., Steeghs, D., Sullivan, M., Tanvir, N., Terreran, G., Trimble, V., Valenti, S., Transient, with the support of the LSST, Collaboration, Variable Stars, Margutti, R., Cowperthwaite, P., Doctor, Z., Mortensen, K., Pankow, C. P., Salafia, O., Villar, V. A., Alexander, K., Annis, J., Andreoni, I., Baldeschi, A., Balmaverde, B., Berger, E., Bernardini, M. G., Berry, C. P. L., Bianco, F., Blanchard, P. K., Brocato, E., Carnerero, M. I., Cartier, R., Cenko, S. B., Chornock, R., Chomiuk, L., Copperwheat, C. M., Coughlin, M. W., Coppejans, D. L., Corsi, A., D'Ammando, F., Datrier, L., D'Avanzo, P., Dimitriadis, G., Drout, M. R., Foley, R. J., Fong, W., Fox, O., Ghirlanda, G., Goldstein, D., Grindlay, J., Guidorzi, C., Haiman, Z., Hendry, M., Holz, D., Hung, T., Inserra, C., Jones, D. O., Kalogera, V., Kilpatrick, C. D., Lamb, G., Laskar, T., Levan, A., Mason, E., Maguire, K., Melandri, A., Milisavljevic, D., Miller, A., Narayan, G., Nielsen, E., Nicholl, M., Nissanke, S., Nugent, P., Pan, Y. -C., Pasham, D., Paterson, K., Piranomonte, S., Racusin, J., Rest, A., Righi, C., Sand, D., Seaman, R., Scolnic, D., Siellez, K., Singer, L., Szkody, P., Smith, M., Steeghs, D., Sullivan, M., Tanvir, N., Terreran, G., Trimble, V., Valenti, S., Transient, with the support of the LSST, and Collaboration, Variable Stars

Abstract

The discovery of the electromagnetic counterparts to the binary neutron star merger GW170817 has opened the era of GW+EM multi-messenger astronomy. Exploiting this breakthrough requires increasing samples to explore the diversity of kilonova behaviour and provide more stringent constraints on the Hubble constant, and tests of fundamental physics. LSST can play a key role in this field in the 2020s, when the gravitational wave detector network is expected to detect higher rates of merger events involving neutron stars ($\sim$10s per year) out to distances of several hundred Mpc. Here we propose comprehensive target-of-opportunity (ToOs) strategies for follow-up of gravitational-wave sources that will make LSST the premiere machine for discovery and early characterization for neutron star mergers and other gravitational-wave sources., Comment: White paper for LSST cadence optimization- ToOs

Published

2018

25. The Diverse Science Return from a Wide-Area Survey of the Galactic Plane

Author

Street, R. A., Lund, M. B., Khakpash, S., Donachie, M., Dawson, W. A., Golovich, N., Wyrzykowski, L., Szkody, P., Naylor, T., Penny, M., Rattenbury, N., Dall'Ora, M., Clarkson, W. I., Bennett, D., Pepper, J., Rabus, M., Hundertmark, M. P. G., Tsapras, Y., Di Stefano, R., Ridgway, S., Liu, M., Lin, E., Street, R. A., Lund, M. B., Khakpash, S., Donachie, M., Dawson, W. A., Golovich, N., Wyrzykowski, L., Szkody, P., Naylor, T., Penny, M., Rattenbury, N., Dall'Ora, M., Clarkson, W. I., Bennett, D., Pepper, J., Rabus, M., Hundertmark, M. P. G., Tsapras, Y., Di Stefano, R., Ridgway, S., Liu, M., and Lin, E.

Abstract

The overwhelming majority of objects visible to LSST lie within the Galactic Plane. Though many previous surveys have avoided this region for fear of stellar crowding, LSST's spatial resolution combined with its state-of-the-art Difference Image Analysis mean that it can conduct a high cadence survey of most of the Galaxy for the first time. Here we outline the many areas of science that would greatly benefit from an LSST survey that included the Galactic Plane, Magellanic Clouds and Bulge at a cadence of 2-3 d. Particular highlights include measuring the mass spectrum of black holes, and mapping the population of exoplanets in the Galaxy in relation to variations in star forming environments. But the same survey data will provide a goldmine for a wide range of science, and we explore possible survey strategies which maximize the scientific return for a number of fields including young stellar objects, cataclysmic variables and Neptune Trojans., Comment: White Paper submitted in response to the 2018 call for LSST cadence proposals

Published

2018

26. Unique Science from a Coordinated LSST-WFIRST Survey of the Galactic Bulge

Author

Street, R. A., Lund, M. B., Donachie, M., Khakpash, S., Golovich, N., Penny, M., Bennett, D., Dawson, W. A., Pepper, J., Rabus, M., Szkody, P., Clarkson, W. I., Di Stefano, R., Rattenbury, N., Hundertmark, M. P. G., Tsapras, Y., Ridgway, S., Stassun, K., Bozza, V., Bhattacharya, A., Novati, S. Calchi, Shvartzvald, Y., Street, R. A., Lund, M. B., Donachie, M., Khakpash, S., Golovich, N., Penny, M., Bennett, D., Dawson, W. A., Pepper, J., Rabus, M., Szkody, P., Clarkson, W. I., Di Stefano, R., Rattenbury, N., Hundertmark, M. P. G., Tsapras, Y., Ridgway, S., Stassun, K., Bozza, V., Bhattacharya, A., Novati, S. Calchi, and Shvartzvald, Y.

Abstract

NASA's WFIRST mission will perform a wide-field, NIR survey of the Galactic Bulge to search for exoplanets via the microlensing techniques. As the mission is due to launch in the mid-2020s, around half-way through the LSST Main Survey, we have a unique opportunity to explore synergistic science from two landmark programs. LSST can survey the entire footprint of the WFIRST microlensing survey in a single Deep Drilling Field. Here we explore the great scientific potential of this proposal and recommend the most effective observing strategies., Comment: White Paper submitted to the 2018 call for LSST cadence proposals. arXiv admin note: text overlap with arXiv:1812.03137

Published

2018

27. Evidence for mass accretion driven by spiral shocks onto the white dwarf in SDSS J123813.73-033933.0

Author

Pala, A. F., Gänsicke, B. T., Marsh, T. R., Breedt, E., Hermes, J. J., Landstreet, J. D., Schreiber, M. R., Townsley, D. M., Wang, L., Aungwerojwit, A., Hambsch, F. -J., Monard, B., Myers, G., Nelson, P., Pickard, R., Poyner, G., Reichart, D. E., Stubbings, R., Godon, P., Szkody, P., De Martino, D., Dhillon, V. S., Knigge, C., Parsons, S. G., Pala, A. F., Gänsicke, B. T., Marsh, T. R., Breedt, E., Hermes, J. J., Landstreet, J. D., Schreiber, M. R., Townsley, D. M., Wang, L., Aungwerojwit, A., Hambsch, F. -J., Monard, B., Myers, G., Nelson, P., Pickard, R., Poyner, G., Reichart, D. E., Stubbings, R., Godon, P., Szkody, P., De Martino, D., Dhillon, V. S., Knigge, C., and Parsons, S. G.

Abstract

We present high-time-resolution photometry and phase-resolved spectroscopy of the short-period ($P_\mathrm{orb} = 80.52\,\mathrm{min}$) cataclysmic variable SDSS J123813.73-033933.0, observed with the $\mathit{Hubble}$ $\mathit{Space}$ $\mathit{Telescope}$ $\mathit{(HST)}$, the $\mathit{Kepler/K2}$ mission and the Very Large Telescope (VLT). We also report observations of the first detected super-outburst. SDSS J1238-0339 shows two types of variability: quasi-regular brightenings recurring every $\simeq 8.5$ h during which the system increases in brightness by $\simeq 0.5$mag, and a double hump quasi-sinusoidal modulation at the orbital period. The detailed $\mathit{K2}$ light curve reveals that the amplitude of the double-humps increases during the brightenings and that their phase undergoes a $\simeq 90^{\circ}$ phase shift with respect to the quiescent intervals. The $\mathit{HST}$ data unambiguously demonstrate that these phenomena both arise from the heating and cooling of two relatively large regions on the white dwarf. We suggest that the double-hump modulation is related to spiral shocks in the accretion disc resulting in an enhanced accretion rate heating two localised regions on the white dwarf, with the structure of the shocks fixed in the binary frame explaining the period of the double humps. The physical origin of the 8.5 h brightenings is less clear. However, the correlation between the observed variations of the amplitude and phase of the double-humps with the occurrence of the brightenings is supportive of an origin in thermal instabilities in the accretion disc., Comment: 26 pages, 22 figures. MNRAS, in press

Published

2018

28. Roche tomography of cataclysmic variables - VIII: The irradiated and spotted dwarf nova, SS Cygni

Author

Hill, C. A., Smith, Robert Connon, Hebb, L., Szkody, P., Hill, C. A., Smith, Robert Connon, Hebb, L., and Szkody, P.

Abstract

We present the results of our spectroscopic study of the dwarf nova SS Cygni, using Roche tomography to map the stellar surface and derive the system parameters. Given that this technique takes into account the inhomogeneous brightness distribution on the surface of the secondary star, our derived parameters are (in principle) the most robust yet found for this system. Furthermore, our surface maps reveal that the secondary star is highly spotted, with strongly asymmetric irradiation on the inner hemisphere. Moreover, by constructing Doppler tomograms of several Balmer emission lines, we find strong asymmetric emission from the irradiated secondary star, and an asymmetric accretion disc that exhibits spiral structures., Comment: 10 pages, 11 figures, accepted for publication in MNRAS

Published

2017

29. Effective Temperatures of Cataclysmic Variable White Dwarfs as a Probe of their Evolution

Author

Pala, A. F., Gänsicke, B. T., Townsley, D., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Haislip, J. B., Henden, A. A., Hubeny, I., Ivarsen, K. M., Kafka, S., Knigge, C., LaCluyze, A. P., Long, K. S., Marsh, T. R., Monard, B., Moore, J. P., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Schreiber, M. R., Shears, J., Sion, E. M., Stubbings, R., Szkody, P., Zorotovic, M., Pala, A. F., Gänsicke, B. T., Townsley, D., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Haislip, J. B., Henden, A. A., Hubeny, I., Ivarsen, K. M., Kafka, S., Knigge, C., LaCluyze, A. P., Long, K. S., Marsh, T. R., Monard, B., Moore, J. P., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Schreiber, M. R., Shears, J., Sion, E. M., Stubbings, R., Szkody, P., and Zorotovic, M.

Abstract

We present HST spectroscopy for 45 cataclysmic variables (CVs), observed with HST/COS and HST/STIS. For 36 CVs, the white dwarf is recognisable through its broad Ly$\alpha$ absorption profile and we measure the white dwarf effective temperatures ($T_{\mathrm{eff}}$) by fitting the HST data assuming $\log\,g=8.35$, which corresponds to the average mass for CV white dwarfs ($\simeq\,0.8\,\mathrm{M}_\odot$). Our results nearly double the number of CV white dwarfs with an accurate temperature measurement. We find that CVs above the period gap have, on average, higher temperatures ($\langle T_{\mathrm{eff}} \rangle \simeq 23\,000\,$K) and exhibit much more scatter compared to those below the gap ($\langle T_{\mathrm{eff}} \rangle \simeq 15\,000\,$K). While this behaviour broadly agrees with theoretical predictions, some discrepancies are present: (i) all our new measurements above the gap are characterised by lower temperatures ($T_{\mathrm{eff}} \simeq 16\,000 - 26\,000\,$K) than predicted by the present day CV population models ($T_{\mathrm{eff}} \simeq 38\,000 - 43\,000\,$K); (ii) our results below the gap are not clustered in the predicted narrow track and exhibit in particular a relatively large spread near the period minimum, which may point to some shortcomings in the CV evolutionary models. Finally, in the standard model of CV evolution, reaching the minimum period, CVs are expected to evolve back towards longer periods with mean accretion rates $\dot{M}\lesssim 2 \times 10^{-11}\,\mathrm{M}_\odot\,\mathrm{yr}^{-1}$, corresponding to $T_\mathrm{eff}\lesssim 11\,500\,$K. We do not unambiguously identify any such system in our survey, suggesting that this major component of the predicted CV population still remains elusive to observations., Comment: 26 pages, 21 figures. Published in MNRAS

Published

2017

30. Roche tomography of cataclysmic variables - VIII: The irradiated and spotted dwarf nova, SS Cygni

Author

Hill, C. A., Smith, Robert Connon, Hebb, L., Szkody, P., Hill, C. A., Smith, Robert Connon, Hebb, L., and Szkody, P.

Abstract

We present the results of our spectroscopic study of the dwarf nova SS Cygni, using Roche tomography to map the stellar surface and derive the system parameters. Given that this technique takes into account the inhomogeneous brightness distribution on the surface of the secondary star, our derived parameters are (in principle) the most robust yet found for this system. Furthermore, our surface maps reveal that the secondary star is highly spotted, with strongly asymmetric irradiation on the inner hemisphere. Moreover, by constructing Doppler tomograms of several Balmer emission lines, we find strong asymmetric emission from the irradiated secondary star, and an asymmetric accretion disc that exhibits spiral structures., Comment: 10 pages, 11 figures, accepted for publication in MNRAS

Published

2017

31. Effective Temperatures of Cataclysmic Variable White Dwarfs as a Probe of their Evolution

Author

Pala, A. F., Gänsicke, B. T., Townsley, D., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Haislip, J. B., Henden, A. A., Hubeny, I., Ivarsen, K. M., Kafka, S., Knigge, C., LaCluyze, A. P., Long, K. S., Marsh, T. R., Monard, B., Moore, J. P., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Schreiber, M. R., Shears, J., Sion, E. M., Stubbings, R., Szkody, P., Zorotovic, M., Pala, A. F., Gänsicke, B. T., Townsley, D., Boyd, D., Cook, M. J., De Martino, D., Godon, P., Haislip, J. B., Henden, A. A., Hubeny, I., Ivarsen, K. M., Kafka, S., Knigge, C., LaCluyze, A. P., Long, K. S., Marsh, T. R., Monard, B., Moore, J. P., Myers, G., Nelson, P., Nogami, D., Oksanen, A., Pickard, R., Poyner, G., Reichart, D. E., Perez, D. Rodriguez, Schreiber, M. R., Shears, J., Sion, E. M., Stubbings, R., Szkody, P., and Zorotovic, M.

Abstract

We present HST spectroscopy for 45 cataclysmic variables (CVs), observed with HST/COS and HST/STIS. For 36 CVs, the white dwarf is recognisable through its broad Ly$\alpha$ absorption profile and we measure the white dwarf effective temperatures ($T_{\mathrm{eff}}$) by fitting the HST data assuming $\log\,g=8.35$, which corresponds to the average mass for CV white dwarfs ($\simeq\,0.8\,\mathrm{M}_\odot$). Our results nearly double the number of CV white dwarfs with an accurate temperature measurement. We find that CVs above the period gap have, on average, higher temperatures ($\langle T_{\mathrm{eff}} \rangle \simeq 23\,000\,$K) and exhibit much more scatter compared to those below the gap ($\langle T_{\mathrm{eff}} \rangle \simeq 15\,000\,$K). While this behaviour broadly agrees with theoretical predictions, some discrepancies are present: (i) all our new measurements above the gap are characterised by lower temperatures ($T_{\mathrm{eff}} \simeq 16\,000 - 26\,000\,$K) than predicted by the present day CV population models ($T_{\mathrm{eff}} \simeq 38\,000 - 43\,000\,$K); (ii) our results below the gap are not clustered in the predicted narrow track and exhibit in particular a relatively large spread near the period minimum, which may point to some shortcomings in the CV evolutionary models. Finally, in the standard model of CV evolution, reaching the minimum period, CVs are expected to evolve back towards longer periods with mean accretion rates $\dot{M}\lesssim 2 \times 10^{-11}\,\mathrm{M}_\odot\,\mathrm{yr}^{-1}$, corresponding to $T_\mathrm{eff}\lesssim 11\,500\,$K. We do not unambiguously identify any such system in our survey, suggesting that this major component of the predicted CV population still remains elusive to observations., Comment: 26 pages, 21 figures. Published in MNRAS

Published

2017

32. Kepler K2 Observations of the Intermediate Polar FO Aquarii

Author

Kennedy, M. R., Garnavich, P., Breedt, E., Marsh, T. R., Gaensicke, B. T., Steeghs, D., Szkody, P., Dai, Z., Kennedy, M. R., Garnavich, P., Breedt, E., Marsh, T. R., Gaensicke, B. T., Steeghs, D., Szkody, P., and Dai, Z.

Abstract

We present photometry of the intermediate polar FO Aquarii obtained as part of the K2 mission using the Kepler space telescope. The amplitude spectrum of the data confirms the orbital period of 4.8508(4) h, and the shape of the light curve is consistent with the outer edge of the accretion disk being eclipsed when folded on this period. The average flux of FO Aquarii changed during the observations, suggesting a change in the mass accretion rate. There is no evidence in the amplitude spectrum of a longer period that would suggest disk precession. The amplitude spectrum also shows the white dwarf spin period of 1254.3401(4) s, the beat period of 1351.329(2) s, and 31 other spin and orbital harmonics. The detected period is longer than the last reported period of 1254.284(16) s, suggesting that FO Aqr is now spinning down, and has a positive $\dot{P}$. There is no detectable variation in the spin period over the course of the K2 observations, but the phase of the spin cycle is correlated with the system brightness. We also find the amplitude of the beat signal is correlated with the system brightness., Comment: 8 pages, 8 figures, accepted for publication in MNRAS

Published

2016

33. The new eclipsing CV MASTER OTJ192328.22+612413.5 - a possible SW Sextantis Star

Author

Kennedy, M. R., Callanan, P., Garnavich, P. M., Szkody, P., Bounane, S., Rose, B. M., Bendjoya, P., Abe, L., Rivet, J. P., Suarez, O., Kennedy, M. R., Callanan, P., Garnavich, P. M., Szkody, P., Bounane, S., Rose, B. M., Bendjoya, P., Abe, L., Rivet, J. P., and Suarez, O.

Abstract

We present optical photometry and spectroscopy of the new eclipsing Cataclysmic Variable MASTER OTJ192328.22+612413.5, discovered by the MASTER team. We find the orbital period to be P=0.16764612(5) day /4.023507(1) hour. The depth of the eclipse (2.9$\pm$0.1 mag) suggests that the system is nearly edge on, and modeling of the system confirms the inclination to be between 81.3-83.6 degree. The brightness outside of eclipse varies between observations, with a change of 1.6$\pm$0.1 mag. Spectroscopy reveals double-peaked Balmer emission lines. By using spectral features matching a late M-type companion, we bound the distance to be 750$\pm$250 pc, depending on the companion spectral type. The source displays 2 mag brightness changes on timescales of days. The amplitude of these changes, along with the spectrum at the faint state, suggest the system is possibly a dwarf nova. The lack of any high excitation HeII lines suggests this system is not magnetically dominated. The light curve in both quiescence and outburst resembles that of Lanning 386, implying MASTER OTJ192328.22+612413.5 is a possible cross between a dwarf nova and a SW Sextantis star., Comment: 10 Pages, 10 Figures, 4 Tables, accepted for publication in the Astronomical Journal

Published

2016

34. GW Librae: A unique laboratory for pulsations in an accreting white dwarf

Author

Toloza, O., Gaensicke, B. T., Hermes, J. J., Townsley, D. M., Schreiber, M. R., Szkody, P., Pala, A., Beuermann, K., Bildsten, L., Breedt, E., Cook, M., Godon, P., Henden, A. A., Hubeny, I., Knigge, C., Long, K. S., Marsh, T. R., de Martino, D., Mukadam, A. S., Myers, G., Nelson, P., Oksanen, A., Patterson, J., Sion, E. M., Zorotovic, M., Toloza, O., Gaensicke, B. T., Hermes, J. J., Townsley, D. M., Schreiber, M. R., Szkody, P., Pala, A., Beuermann, K., Bildsten, L., Breedt, E., Cook, M., Godon, P., Henden, A. A., Hubeny, I., Knigge, C., Long, K. S., Marsh, T. R., de Martino, D., Mukadam, A. S., Myers, G., Nelson, P., Oksanen, A., Patterson, J., Sion, E. M., and Zorotovic, M.

Abstract

Non-radial pulsations have been identified in a number of accreting white dwarfs in cataclysmic variables. These stars offer insight into the excitation of pulsation modes in atmospheres with mixed compositions of hydrogen, helium, and metals, and the response of these modes to changes in the white dwarf temperature. Among all pulsating cataclysmic variable white dwarfs, GW Librae stands out by having a well-established observational record of three independent pulsation modes that disappeared when the white dwarf temperature rose dramatically following its 2007 accretion outburst. Our analysis of HST ultraviolet spectroscopy taken in 2002, 2010 and 2011, showed that pulsations produce variations in the white dwarf effective temperature as predicted by theory. Additionally in May~2013, we obtained new HST/COS ultraviolet observations that displayed unexpected behaviour: besides showing variability at ~275s, which is close to the post-outburst pulsations detected with HST in 2010 and 2011, the white dwarf exhibits high-amplitude variability on a ~4.4h time-scale. We demonstrate that this variability is produced by an increase of the temperature of a region on white dwarf covering up to ~30 per cent of the visible white dwarf surface. We argue against a short-lived accretion episode as the explanation of such heating, and discuss this event in the context of non-radial pulsations on a rapidly rotating star, Comment: 11 pages, 8 figures, 2 tables, accpted in MNRAS

Published

2016

35. The new eclipsing CV MASTER OTJ192328.22+612413.5 - a possible SW Sextantis Star

Author

Kennedy, M. R., Callanan, P., Garnavich, P. M., Szkody, P., Bounane, S., Rose, B. M., Bendjoya, P., Abe, L., Rivet, J. P., Suarez, O., Kennedy, M. R., Callanan, P., Garnavich, P. M., Szkody, P., Bounane, S., Rose, B. M., Bendjoya, P., Abe, L., Rivet, J. P., and Suarez, O.

Abstract

We present optical photometry and spectroscopy of the new eclipsing Cataclysmic Variable MASTER OTJ192328.22+612413.5, discovered by the MASTER team. We find the orbital period to be P=0.16764612(5) day /4.023507(1) hour. The depth of the eclipse (2.9$\pm$0.1 mag) suggests that the system is nearly edge on, and modeling of the system confirms the inclination to be between 81.3-83.6 degree. The brightness outside of eclipse varies between observations, with a change of 1.6$\pm$0.1 mag. Spectroscopy reveals double-peaked Balmer emission lines. By using spectral features matching a late M-type companion, we bound the distance to be 750$\pm$250 pc, depending on the companion spectral type. The source displays 2 mag brightness changes on timescales of days. The amplitude of these changes, along with the spectrum at the faint state, suggest the system is possibly a dwarf nova. The lack of any high excitation HeII lines suggests this system is not magnetically dominated. The light curve in both quiescence and outburst resembles that of Lanning 386, implying MASTER OTJ192328.22+612413.5 is a possible cross between a dwarf nova and a SW Sextantis star., Comment: 10 Pages, 10 Figures, 4 Tables, accepted for publication in the Astronomical Journal

Published

2016

36. GW Librae: A unique laboratory for pulsations in an accreting white dwarf

Author

Toloza, O., Gaensicke, B. T., Hermes, J. J., Townsley, D. M., Schreiber, M. R., Szkody, P., Pala, A., Beuermann, K., Bildsten, L., Breedt, E., Cook, M., Godon, P., Henden, A. A., Hubeny, I., Knigge, C., Long, K. S., Marsh, T. R., de Martino, D., Mukadam, A. S., Myers, G., Nelson, P., Oksanen, A., Patterson, J., Sion, E. M., Zorotovic, M., Toloza, O., Gaensicke, B. T., Hermes, J. J., Townsley, D. M., Schreiber, M. R., Szkody, P., Pala, A., Beuermann, K., Bildsten, L., Breedt, E., Cook, M., Godon, P., Henden, A. A., Hubeny, I., Knigge, C., Long, K. S., Marsh, T. R., de Martino, D., Mukadam, A. S., Myers, G., Nelson, P., Oksanen, A., Patterson, J., Sion, E. M., and Zorotovic, M.

Abstract

Non-radial pulsations have been identified in a number of accreting white dwarfs in cataclysmic variables. These stars offer insight into the excitation of pulsation modes in atmospheres with mixed compositions of hydrogen, helium, and metals, and the response of these modes to changes in the white dwarf temperature. Among all pulsating cataclysmic variable white dwarfs, GW Librae stands out by having a well-established observational record of three independent pulsation modes that disappeared when the white dwarf temperature rose dramatically following its 2007 accretion outburst. Our analysis of HST ultraviolet spectroscopy taken in 2002, 2010 and 2011, showed that pulsations produce variations in the white dwarf effective temperature as predicted by theory. Additionally in May~2013, we obtained new HST/COS ultraviolet observations that displayed unexpected behaviour: besides showing variability at ~275s, which is close to the post-outburst pulsations detected with HST in 2010 and 2011, the white dwarf exhibits high-amplitude variability on a ~4.4h time-scale. We demonstrate that this variability is produced by an increase of the temperature of a region on white dwarf covering up to ~30 per cent of the visible white dwarf surface. We argue against a short-lived accretion episode as the explanation of such heating, and discuss this event in the context of non-radial pulsations on a rapidly rotating star, Comment: 11 pages, 8 figures, 2 tables, accpted in MNRAS

Published

2016

37. Kepler K2 Observations of the Intermediate Polar FO Aquarii

Author

Kennedy, M. R., Garnavich, P., Breedt, E., Marsh, T. R., Gaensicke, B. T., Steeghs, D., Szkody, P., Dai, Z., Kennedy, M. R., Garnavich, P., Breedt, E., Marsh, T. R., Gaensicke, B. T., Steeghs, D., Szkody, P., and Dai, Z.

Abstract

We present photometry of the intermediate polar FO Aquarii obtained as part of the K2 mission using the Kepler space telescope. The amplitude spectrum of the data confirms the orbital period of 4.8508(4) h, and the shape of the light curve is consistent with the outer edge of the accretion disk being eclipsed when folded on this period. The average flux of FO Aquarii changed during the observations, suggesting a change in the mass accretion rate. There is no evidence in the amplitude spectrum of a longer period that would suggest disk precession. The amplitude spectrum also shows the white dwarf spin period of 1254.3401(4) s, the beat period of 1351.329(2) s, and 31 other spin and orbital harmonics. The detected period is longer than the last reported period of 1254.284(16) s, suggesting that FO Aqr is now spinning down, and has a positive $\dot{P}$. There is no detectable variation in the spin period over the course of the K2 observations, but the phase of the spin cycle is correlated with the system brightness. We also find the amplitude of the beat signal is correlated with the system brightness., Comment: 8 pages, 8 figures, accepted for publication in MNRAS

Published

2016

38. The Evolved Main-Sequence Channel: HST and LBT observations of CSS120422:111127+571239

Author

Kennedy, M., Garnavich, P. M., Callanan, P. J., Szkody, P., Littlefield, C., Pogge, R. W., Kennedy, M., Garnavich, P. M., Callanan, P. J., Szkody, P., Littlefield, C., and Pogge, R. W.

Abstract

The "evolved main-sequence" channel is thought to contribute significantly to the population of AM CVn type systems in the Galaxy, and also to the number of cataclysmic variables detected below the period minimum for hydrogen rich systems. CSS120422:J111127+571239 was discovered by the Catalina Sky Survey in April 2012. Its period was found to be 56 minutes, well below the minimum, and the optical spectrum is clearly depleted in hydrogen relative to helium, but still has two orders of magnitude more hydrogen than AM CVn stars. Doppler tomography of the H$\alpha$ line hinted at a spiral structure existing in the disk. Here we present spectroscopy of CSS120422:J111127+571239 using the COS FUV instrument on the Hubble Space Telescope and using the MODS spectrograph on the Large Binocular Telescope. The UV spectrum shows SiIV, NV and HeII, but no detectable CIV. The anomalous nitrogen/carbon ratio is seen in a small number of other CVs and confirms a unique binary evolution. We also present and compare the optical spectrum of V418 Ser and advocate that it is also an evolved main-sequence system., Comment: 33 pages, 14 figures, accepted by ApJ

Published

2015

39. The Evolved Main-Sequence Channel: HST and LBT observations of CSS120422:111127+571239

Author

Kennedy, M., Garnavich, P. M., Callanan, P. J., Szkody, P., Littlefield, C., Pogge, R. W., Kennedy, M., Garnavich, P. M., Callanan, P. J., Szkody, P., Littlefield, C., and Pogge, R. W.

Abstract

The "evolved main-sequence" channel is thought to contribute significantly to the population of AM CVn type systems in the Galaxy, and also to the number of cataclysmic variables detected below the period minimum for hydrogen rich systems. CSS120422:J111127+571239 was discovered by the Catalina Sky Survey in April 2012. Its period was found to be 56 minutes, well below the minimum, and the optical spectrum is clearly depleted in hydrogen relative to helium, but still has two orders of magnitude more hydrogen than AM CVn stars. Doppler tomography of the H$\alpha$ line hinted at a spiral structure existing in the disk. Here we present spectroscopy of CSS120422:J111127+571239 using the COS FUV instrument on the Hubble Space Telescope and using the MODS spectrograph on the Large Binocular Telescope. The UV spectrum shows SiIV, NV and HeII, but no detectable CIV. The anomalous nitrogen/carbon ratio is seen in a small number of other CVs and confirms a unique binary evolution. We also present and compare the optical spectrum of V418 Ser and advocate that it is also an evolved main-sequence system., Comment: 33 pages, 14 figures, accepted by ApJ

Published

2015

40. The continued optical to mid-IR evolution of V838 Monocerotis

Author

Loebman, S. R., Wisniewski, J. P., Schmidt, S. J., Kowalski, A. F., Barry, R. K., Bjorkman, K. S., Hammel, H. B., Hawley, S. L., Hebb, L., Kasliwal, M. M., Lynch, D. K., Russell, R. W., Sitko, M. L., Szkody, P., Loebman, S. R., Wisniewski, J. P., Schmidt, S. J., Kowalski, A. F., Barry, R. K., Bjorkman, K. S., Hammel, H. B., Hawley, S. L., Hebb, L., Kasliwal, M. M., Lynch, D. K., Russell, R. W., Sitko, M. L., and Szkody, P.

Abstract

The eruptive variable V838 Monocerotis gained notoriety in 2002 when it brightened nine magnitudes in a series of three outbursts and then rapidly evolved into an extremely cool supergiant. We present optical, near-IR, and mid-IR spectroscopic and photometric observations of V838 Monocerotis obtained between 2008 and 2012 at the Apache Point Observatory 3.5m, NASA IRTF 3m, and Gemini South 8m telescopes. We contemporaneously analyze the optical & IR spectroscopic properties of V838 Monocerotis to arrive at a revised spectral type L3 supergiant and effective temperature Teff~2000--2200 K. Because there are no existing optical observational data for L supergiants in the optical, we speculate that V838 Monocerotis may represent the prototype for L supergiants in this wavelength regime. We find a low level of Halpha emission present in the system, consistent with interaction between V838 Monocerotis and its B3V binary; however, we cannot rule out a stellar collision as the genesis event, which could result in the observed Halpha activity. Based upon a two-component blackbody fit to all wavelengths of our data, we conclude that, as of 2009, a shell of ejecta surrounded V838 Monocerotis at a radius of R=263+/-10 AU with a temperature of T=285+/-2 K. This result is consistent with IR interferometric observations from the same era and predictions from the Lynch et al. model of the expanding system, which provides a simple framework for understanding this complicated system., Comment: 6 pages, 2 tables, 6 figures; accepted to AJ

Published

2014

41. One thousand cataclysmic variables from the Catalina Real-time Transient Survey

Author

Breedt, E., Gaensicke, B. T., Drake, A. J., Rodriguez-Gil, P., Parsons, S. G., Marsh, T. R., Szkody, P., Schreiber, M. R., Djorgovski, S. G., Breedt, E., Gaensicke, B. T., Drake, A. J., Rodriguez-Gil, P., Parsons, S. G., Marsh, T. R., Szkody, P., Schreiber, M. R., and Djorgovski, S. G.

Abstract

Over six years of operation, the Catalina Real-time Transient Survey (CRTS) has identified 1043 cataclysmic variable (CV) candidates --- the largest sample of CVs from a single survey to date. Here we provide spectroscopic identification of 85 systems fainter than g<19, including three AMCVn binaries, one helium-enriched CV, one polar and one new eclipsing CV. We analyse the outburst properties of the full sample and show that it contains a large fraction of low accretion rate CVs with long outburst recurrence times. We argue that most of the high accretion rate dwarf novae in the survey footprint have already been found and that future CRTS discoveries will be mostly low accretion rate systems. We find that CVs with white dwarf dominated spectra have significantly fewer outbursts in their CRTS light curves compared to disc-dominated CVs, reflecting the difference in their accretion rates. Comparing the CRTS sample to other samples of CVs, we estimate the overall external completeness to be 23.6 per cent, but show that as much as 56 per cent of CVs have variability amplitudes that are too small to be selected using the transient selection criteria employed by current ground-based surveys. The full table of CRTS CVs, including their outburst and spectroscopic properties examined in this paper, is provided in the online materials., Comment: Accepted for publication in MNRAS. 23 pages, plus a 12 page appendix containing spectra and light curves

Published

2014

42. The continued optical to mid-IR evolution of V838 Monocerotis

Author

Loebman, S. R., Wisniewski, J. P., Schmidt, S. J., Kowalski, A. F., Barry, R. K., Bjorkman, K. S., Hammel, H. B., Hawley, S. L., Hebb, L., Kasliwal, M. M., Lynch, D. K., Russell, R. W., Sitko, M. L., Szkody, P., Loebman, S. R., Wisniewski, J. P., Schmidt, S. J., Kowalski, A. F., Barry, R. K., Bjorkman, K. S., Hammel, H. B., Hawley, S. L., Hebb, L., Kasliwal, M. M., Lynch, D. K., Russell, R. W., Sitko, M. L., and Szkody, P.

Abstract

The eruptive variable V838 Monocerotis gained notoriety in 2002 when it brightened nine magnitudes in a series of three outbursts and then rapidly evolved into an extremely cool supergiant. We present optical, near-IR, and mid-IR spectroscopic and photometric observations of V838 Monocerotis obtained between 2008 and 2012 at the Apache Point Observatory 3.5m, NASA IRTF 3m, and Gemini South 8m telescopes. We contemporaneously analyze the optical & IR spectroscopic properties of V838 Monocerotis to arrive at a revised spectral type L3 supergiant and effective temperature Teff~2000--2200 K. Because there are no existing optical observational data for L supergiants in the optical, we speculate that V838 Monocerotis may represent the prototype for L supergiants in this wavelength regime. We find a low level of Halpha emission present in the system, consistent with interaction between V838 Monocerotis and its B3V binary; however, we cannot rule out a stellar collision as the genesis event, which could result in the observed Halpha activity. Based upon a two-component blackbody fit to all wavelengths of our data, we conclude that, as of 2009, a shell of ejecta surrounded V838 Monocerotis at a radius of R=263+/-10 AU with a temperature of T=285+/-2 K. This result is consistent with IR interferometric observations from the same era and predictions from the Lynch et al. model of the expanding system, which provides a simple framework for understanding this complicated system., Comment: 6 pages, 2 tables, 6 figures; accepted to AJ

Published

2014

43. One thousand cataclysmic variables from the Catalina Real-time Transient Survey

Author

Breedt, E., Gaensicke, B. T., Drake, A. J., Rodriguez-Gil, P., Parsons, S. G., Marsh, T. R., Szkody, P., Schreiber, M. R., Djorgovski, S. G., Breedt, E., Gaensicke, B. T., Drake, A. J., Rodriguez-Gil, P., Parsons, S. G., Marsh, T. R., Szkody, P., Schreiber, M. R., and Djorgovski, S. G.

Abstract

Over six years of operation, the Catalina Real-time Transient Survey (CRTS) has identified 1043 cataclysmic variable (CV) candidates --- the largest sample of CVs from a single survey to date. Here we provide spectroscopic identification of 85 systems fainter than g<19, including three AMCVn binaries, one helium-enriched CV, one polar and one new eclipsing CV. We analyse the outburst properties of the full sample and show that it contains a large fraction of low accretion rate CVs with long outburst recurrence times. We argue that most of the high accretion rate dwarf novae in the survey footprint have already been found and that future CRTS discoveries will be mostly low accretion rate systems. We find that CVs with white dwarf dominated spectra have significantly fewer outbursts in their CRTS light curves compared to disc-dominated CVs, reflecting the difference in their accretion rates. Comparing the CRTS sample to other samples of CVs, we estimate the overall external completeness to be 23.6 per cent, but show that as much as 56 per cent of CVs have variability amplitudes that are too small to be selected using the transient selection criteria employed by current ground-based surveys. The full table of CRTS CVs, including their outburst and spectroscopic properties examined in this paper, is provided in the online materials., Comment: Accepted for publication in MNRAS. 23 pages, plus a 12 page appendix containing spectra and light curves

Published

2014

44. An Online Catalog of Cataclysmic Variable Spectra from the Far Ultraviolet Spectroscopic Explorer

Author

Godon, P., Sion, E. M., Levay, K., Linnell, A. P., Szkody, P., Barrett, P. E., Hubeny, I., Blair, W. P., Godon, P., Sion, E. M., Levay, K., Linnell, A. P., Szkody, P., Barrett, P. E., Hubeny, I., and Blair, W. P.

Abstract

We present an online catalog containing spectra and supporting information for cataclysmic variables that have been observed with the Far Ultraviolet Spectroscopic Explorer (FUSE). For each object in the catalog we list some of the basic system parameters such as (RA,Dec), period, inclination, white dwarf mass, as well as information on the available FUSE spectra: data ID, observation date and time, and exposure time. In addition, we provide parameters needed for the analysis of the FUSE spectra such as the reddening E(B-V), distance, and state (high, low, intermediate) of the system at the time it was observed. For some of these spectra we have carried out model fits to the continuum with synthetic stellar and/or disk spectra using the codes TLUSTY and SYNSPEC. We provide the parameters obtained from these model fits; this includes the white dwarf temperature, gravity, projected rotational velocity and elemental abundances of C, Si, S and N, together with the disk mass accretion rate, the resulting inclination and model-derived distance (when unknown). For each object one or more figures are provided (as gif files) with line identification and model fit(s) when available. The FUSE spectra as well as the synthetic spectra are directly available for download as ascii tables. References are provided for each object as well as for the model fits. In this article we present 36 objects, and additional ones will be added to the online catalog in the future. In addition to cataclysmic variables, we also include a few related objects, such as a wind accreting white dwarf, a pre-cataclysmic variable and some symbiotics., Comment: Online link to catalog: http://archive.stsci.edu/prepds/cvaro pending updates and corrections link: http://godonzilla.6te.net/FUSE/corrections.html The Astrophysical Journal Supplement Series, in press

Published

2012

45. An Online Catalog of Cataclysmic Variable Spectra from the Far Ultraviolet Spectroscopic Explorer

Author

Godon, P., Sion, E. M., Levay, K., Linnell, A. P., Szkody, P., Barrett, P. E., Hubeny, I., Blair, W. P., Godon, P., Sion, E. M., Levay, K., Linnell, A. P., Szkody, P., Barrett, P. E., Hubeny, I., and Blair, W. P.

Abstract

We present an online catalog containing spectra and supporting information for cataclysmic variables that have been observed with the Far Ultraviolet Spectroscopic Explorer (FUSE). For each object in the catalog we list some of the basic system parameters such as (RA,Dec), period, inclination, white dwarf mass, as well as information on the available FUSE spectra: data ID, observation date and time, and exposure time. In addition, we provide parameters needed for the analysis of the FUSE spectra such as the reddening E(B-V), distance, and state (high, low, intermediate) of the system at the time it was observed. For some of these spectra we have carried out model fits to the continuum with synthetic stellar and/or disk spectra using the codes TLUSTY and SYNSPEC. We provide the parameters obtained from these model fits; this includes the white dwarf temperature, gravity, projected rotational velocity and elemental abundances of C, Si, S and N, together with the disk mass accretion rate, the resulting inclination and model-derived distance (when unknown). For each object one or more figures are provided (as gif files) with line identification and model fit(s) when available. The FUSE spectra as well as the synthetic spectra are directly available for download as ascii tables. References are provided for each object as well as for the model fits. In this article we present 36 objects, and additional ones will be added to the online catalog in the future. In addition to cataclysmic variables, we also include a few related objects, such as a wind accreting white dwarf, a pre-cataclysmic variable and some symbiotics., Comment: Online link to catalog: http://archive.stsci.edu/prepds/cvaro pending updates and corrections link: http://godonzilla.6te.net/FUSE/corrections.html The Astrophysical Journal Supplement Series, in press

Published

2012

46. A Survey of Far Ultraviolet Spectroscopic Explorer Observations of Cataclysmic Variables

Author

Froning, C. S., Long, K. S., Gaensicke, B., Szkody, P., Froning, C. S., Long, K. S., Gaensicke, B., and Szkody, P.

Abstract

During its lifetime, the Far Ultraviolet Spectroscopic Explorer (FUSE) was used to observe 99 cataclysmic variables in 211 separate observations. Here, we present a survey of the moderate resolution (R\simeq10,000), far-ultraviolet (905 - 1188 {\deg}A), time-averaged FUSE spectra of cataclysmic variables (CVs). The FUSE spectra are morphologically diverse. They show contributions from the accretion disk, the disk chromosphere, disk outflows, and the white dwarf, but the relative contribution of each component varies widely as a function of CV subtype, orbital period and evolutionary state, inclination, mass accretion rate, and magnetic field strength of the white dwarf. The data reveal information about the structure, temperature, density and mass flow rates of the disk and disk winds, the temperature of the white dwarf and the effects of ongoing accretion on its structure, and the long-term response of the systems to disk outbursts. The complete atlas of time-averaged FUSE spectra of CVs are available at the Multimission Archive at Space Telescope Science Institute as a High Level Science Product., Comment: ApJS, in press. The extra panels in the figure sets for Figures 1 and 2 are included at the end of the manuscript

Published

2011

47. XMM-Newton observations of the dwarf nova RU Peg in quiescence: Probe of the boundary layer

Author

Balman, S., Godon, P., Sion, E. M., Ness, J. -U., Schlegel, E., Barrett, P. E., Szkody, P., Balman, S., Godon, P., Sion, E. M., Ness, J. -U., Schlegel, E., Barrett, P. E., and Szkody, P.

Abstract

We present an analysis of X-ray and UV data obtained with the XMM-Newton Observatory of the long period dwarf nova RU Peg. RU Peg contains a massive white dwarf, possibly the hottest white dwarf in a dwarf nova, it has a low inclination, thus optimally exposing its X-ray emitting boundary layer, and has an excellent trigonometric parallax distance. We modeled the X-ray data using XSPEC assuming a multi-temperature plasma emission model built from the MEKAL code. We obtained a maximum temperature of 31.7 keV, based on the EPIC MOS1, 2 and pn data, indicating that RU Peg has an X-ray spectrum harder than most dwarf novae, except U Gem. This result is consistent with and indirectly confirms the large mass of the white dwarf in RU Peg. The X-ray luminosity we computed corresponds to a boundary layer luminosity for a mass accretion rate of 2.E-11 Msun/yr (assuming Mwd=1.3Msun), in agreement with an expected quiescent accretion rate. The modeling of the O VIII emission line at 19A as observed by the RGS implies a projected stellar rotational velocity of 695 km/s, i.e. the line is emitted from material rotating at about 936-1245 km/s (for i about 34-48deg) or about 1/6 of the Keplerian speed; this velocity is much larger than the rotation speed of the white dwarf inferred from the FUSE spectrum. Cross-correlation analysis yielded an undelayed component and a delayed component of 116 +/- 17 sec where the X-ray variations/fluctuations lagged the UV variations. This indicates that the UV fluctuations in the inner disk are propagated into the X-ray emitting region in about 116 sec. The undelayed component may be related to irradiation effects.

Published

2011

48. A Survey of Far Ultraviolet Spectroscopic Explorer Observations of Cataclysmic Variables

Author

Froning, C. S., Long, K. S., Gaensicke, B., Szkody, P., Froning, C. S., Long, K. S., Gaensicke, B., and Szkody, P.

Abstract

During its lifetime, the Far Ultraviolet Spectroscopic Explorer (FUSE) was used to observe 99 cataclysmic variables in 211 separate observations. Here, we present a survey of the moderate resolution (R\simeq10,000), far-ultraviolet (905 - 1188 {\deg}A), time-averaged FUSE spectra of cataclysmic variables (CVs). The FUSE spectra are morphologically diverse. They show contributions from the accretion disk, the disk chromosphere, disk outflows, and the white dwarf, but the relative contribution of each component varies widely as a function of CV subtype, orbital period and evolutionary state, inclination, mass accretion rate, and magnetic field strength of the white dwarf. The data reveal information about the structure, temperature, density and mass flow rates of the disk and disk winds, the temperature of the white dwarf and the effects of ongoing accretion on its structure, and the long-term response of the systems to disk outbursts. The complete atlas of time-averaged FUSE spectra of CVs are available at the Multimission Archive at Space Telescope Science Institute as a High Level Science Product., Comment: ApJS, in press. The extra panels in the figure sets for Figures 1 and 2 are included at the end of the manuscript

Published

2011

49. XMM-Newton observations of the dwarf nova RU Peg in quiescence: Probe of the boundary layer

Author

Balman, S., Godon, P., Sion, E. M., Ness, J. -U., Schlegel, E., Barrett, P. E., Szkody, P., Balman, S., Godon, P., Sion, E. M., Ness, J. -U., Schlegel, E., Barrett, P. E., and Szkody, P.

Abstract

We present an analysis of X-ray and UV data obtained with the XMM-Newton Observatory of the long period dwarf nova RU Peg. RU Peg contains a massive white dwarf, possibly the hottest white dwarf in a dwarf nova, it has a low inclination, thus optimally exposing its X-ray emitting boundary layer, and has an excellent trigonometric parallax distance. We modeled the X-ray data using XSPEC assuming a multi-temperature plasma emission model built from the MEKAL code. We obtained a maximum temperature of 31.7 keV, based on the EPIC MOS1, 2 and pn data, indicating that RU Peg has an X-ray spectrum harder than most dwarf novae, except U Gem. This result is consistent with and indirectly confirms the large mass of the white dwarf in RU Peg. The X-ray luminosity we computed corresponds to a boundary layer luminosity for a mass accretion rate of 2.E-11 Msun/yr (assuming Mwd=1.3Msun), in agreement with an expected quiescent accretion rate. The modeling of the O VIII emission line at 19A as observed by the RGS implies a projected stellar rotational velocity of 695 km/s, i.e. the line is emitted from material rotating at about 936-1245 km/s (for i about 34-48deg) or about 1/6 of the Keplerian speed; this velocity is much larger than the rotation speed of the white dwarf inferred from the FUSE spectrum. Cross-correlation analysis yielded an undelayed component and a delayed component of 116 +/- 17 sec where the X-ray variations/fluctuations lagged the UV variations. This indicates that the UV fluctuations in the inner disk are propagated into the X-ray emitting region in about 116 sec. The undelayed component may be related to irradiation effects.

Published

2011

50. Galex and optical observations of GW librae during the long decline from superoutburst

Author

Bullock, E., Szkody, P., Mukadam, A., Borges, B., Fraga, L., Gänsicke, B., Harrison, T., Henden, A., Holtzman, J., Howell, S., Lawson, W., Levine, S., Plotkin, Richard, Seibert, M., Templeton, M., Teske, J., Vrba, F., Bullock, E., Szkody, P., Mukadam, A., Borges, B., Fraga, L., Gänsicke, B., Harrison, T., Henden, A., Holtzman, J., Howell, S., Lawson, W., Levine, S., Plotkin, Richard, Seibert, M., Templeton, M., Teske, J., and Vrba, F.

Abstract

The prototype of accreting, pulsating white dwarfs (GW Lib) underwent a large amplitude dwarf nova outburst in 2007. We used ultraviolet data from Galaxy Evolution Explorer and ground-based optical photometry and spectroscopy to follow GW Lib for three years following this outburst. Several variations are apparent during this interval. The optical shows a superhump modulation in the months following outburst, while a 19 minute quasi-periodic modulation lasting for several months is apparent in the year after outburst. A long timescale (about 4 hr) modulation first appears in the UV a year after outburst and increases in amplitude in the following years. This variation also appears in the optical two years after outburst but is not in phase with the UV. The pre-outburst pulsations are not yet visible after three years, likely indicating the white dwarf has not returned to its quiescent state.

Published

2011