Your search keyword '"Ziegerer"' showing total 72 results

1. The EREBOS project -- Investigating the effect of substellar and low-mass stellar companions on late stellar evolution

Author

Schaffenroth, V., Barlow, B. N., Geier, S., Vu{č}ković, M., Kilkenny, D., Wolz, M., Kupfer, T., Heber, U., Drechsel, H., Kimeswenger, S., Marsh, T., Wolf, M., Pelisoli, I., Freudenthal, J., Dreizler, S., Kreuzer, S., Ziegerer, E., Schaffenroth, V., Barlow, B. N., Geier, S., Vu{č}ković, M., Kilkenny, D., Wolz, M., Kupfer, T., Heber, U., Drechsel, H., Kimeswenger, S., Marsh, T., Wolf, M., Pelisoli, I., Freudenthal, J., Dreizler, S., Kreuzer, S., and Ziegerer, E.

Abstract

Eclipsing post-common envelope binaries are highly important for resolving the poorly understood, very short-lived common envelope phase. Most hot subdwarfs (sdO/Bs) are the bare He-burning cores of red giants which have lost almost all of their hydrogen envelopes. This mass loss is often triggered by common envelope interactions with close stellar or even sub-stellar companions. In the recently published catalog of eclipsing binaries in the Galactic Bulge and in the ATLAS survey, we discovered 161 new eclipsing systems showing a reflection effect by visual inspection of the light curves and using a machine-learning algorithm. The EREBOS (Eclipsing Reflection Effect Binaries from Optical Surveys) project aims at analyzing all newly discovered eclipsing binaries with reflection effect based on a spectroscopic and photometric follow up. To constrain the nature of the primary we derived the absolute magnitude and the reduced proper motion of all our targets with the help of the parallaxes and proper motions measured by the Gaia mission and compared those to the Gaia white dwarf catalogue. For a sub-set of our targets with observed spectra the nature could be derived by measuring the atmospheric parameter of the primary confirming that less than 10\% of our systems are not sdO/Bs with cool companions but white dwarfs or central stars of planetary nebula. This large sample of eclipsing hot subdwarfs with cool companions allowed us to derive a significant period distribution for hot subdwarfs with cool companions for the first time showing that the period distribution is much broader than previously thought and ideally suited to find the lowest mass companions to hot subdwarf stars. In the future several new photometric surveys will be carried out, which will increase the sample of this project even more giving the potential to test many aspects of common envelope theory and binary evolution., Comment: accepted in A&A, 29 pages, 18 figures

Published

2019

2. The EREBOS project -- Investigating the effect of substellar and low-mass stellar companions on late stellar evolution

Author

Schaffenroth, V., Barlow, B. N., Geier, S., Vu{č}ković, M., Kilkenny, D., Wolz, M., Kupfer, T., Heber, U., Drechsel, H., Kimeswenger, S., Marsh, T., Wolf, M., Pelisoli, I., Freudenthal, J., Dreizler, S., Kreuzer, S., Ziegerer, E., Schaffenroth, V., Barlow, B. N., Geier, S., Vu{č}ković, M., Kilkenny, D., Wolz, M., Kupfer, T., Heber, U., Drechsel, H., Kimeswenger, S., Marsh, T., Wolf, M., Pelisoli, I., Freudenthal, J., Dreizler, S., Kreuzer, S., and Ziegerer, E.

Abstract

Eclipsing post-common envelope binaries are highly important for resolving the poorly understood, very short-lived common envelope phase. Most hot subdwarfs (sdO/Bs) are the bare He-burning cores of red giants which have lost almost all of their hydrogen envelopes. This mass loss is often triggered by common envelope interactions with close stellar or even sub-stellar companions. In the recently published catalog of eclipsing binaries in the Galactic Bulge and in the ATLAS survey, we discovered 161 new eclipsing systems showing a reflection effect by visual inspection of the light curves and using a machine-learning algorithm. The EREBOS (Eclipsing Reflection Effect Binaries from Optical Surveys) project aims at analyzing all newly discovered eclipsing binaries with reflection effect based on a spectroscopic and photometric follow up. To constrain the nature of the primary we derived the absolute magnitude and the reduced proper motion of all our targets with the help of the parallaxes and proper motions measured by the Gaia mission and compared those to the Gaia white dwarf catalogue. For a sub-set of our targets with observed spectra the nature could be derived by measuring the atmospheric parameter of the primary confirming that less than 10\% of our systems are not sdO/Bs with cool companions but white dwarfs or central stars of planetary nebula. This large sample of eclipsing hot subdwarfs with cool companions allowed us to derive a significant period distribution for hot subdwarfs with cool companions for the first time showing that the period distribution is much broader than previously thought and ideally suited to find the lowest mass companions to hot subdwarf stars. In the future several new photometric surveys will be carried out, which will increase the sample of this project even more giving the potential to test many aspects of common envelope theory and binary evolution., Comment: accepted in A&A, 29 pages, 18 figures

Published

2019

3. The MUCHFUSS photometric campaign

Author

Schaffenroth, V., Geier, S., Heber, U., Gerber, R., Schneider, D., Ziegerer, E., Cordes, O., Schaffenroth, V., Geier, S., Heber, U., Gerber, R., Schneider, D., Ziegerer, E., and Cordes, O.

Abstract

Hot subdwarfs (sdO/Bs) are the helium-burning cores of red giants, which lost almost all of their hydrogen envelopes. This mass loss is often triggered by common envelope interactions with close stellar or even substellar companions. Cool companions like late-type stars or brown dwarfs are detectable via characteristic light curve variations like reflection effects and often also eclipses. To search for such objects we obtained multi-band light curves of 26 close sdO/B binary candidates from the MUCHFUSS project with the BUSCA instrument. We discovered a new eclipsing reflection effect system ($P=0.168938$~d) with a low-mass M dwarf companion ($0.116 M_{\rm \odot}$). Three more reflection effect binaries found in the course of the campaign were already published, two of them are eclipsing systems, in one system only showing the reflection effect but no eclipses the sdB primary is found to be pulsating. Amongst the targets without reflection effect a new long-period sdB pulsator was discovered and irregular light variations were found in two sdO stars. The found light variations allowed us to constrain the fraction of reflection effect binaries and the substellar companion fraction around sdB stars. The minimum fraction of reflection effect systems amongst the close sdB binaries might be greater than 15\% and the fraction of close substellar companions in sdB binaries might be as high as $8.0\%$. This would result in a close substellar companion fraction to sdB stars of about 3\%. This fraction is much higher than the fraction of brown dwarfs around possible progenitor systems, which are solar-type stars with substellar companions around 1 AU, as well as close binary white dwarfs with brown dwarf companions. This might be a hint that common envelope interactions with substellar objects are preferentially followed by a hot subdwarf phase., Comment: accepted for A&A

Published

2018

4. The MUCHFUSS photometric campaign

Author

Schaffenroth, V., Geier, S., Heber, U., Gerber, R., Schneider, D., Ziegerer, E., Cordes, O., Schaffenroth, V., Geier, S., Heber, U., Gerber, R., Schneider, D., Ziegerer, E., and Cordes, O.

Abstract

Hot subdwarfs (sdO/Bs) are the helium-burning cores of red giants, which lost almost all of their hydrogen envelopes. This mass loss is often triggered by common envelope interactions with close stellar or even substellar companions. Cool companions like late-type stars or brown dwarfs are detectable via characteristic light curve variations like reflection effects and often also eclipses. To search for such objects we obtained multi-band light curves of 26 close sdO/B binary candidates from the MUCHFUSS project with the BUSCA instrument. We discovered a new eclipsing reflection effect system ($P=0.168938$~d) with a low-mass M dwarf companion ($0.116 M_{\rm \odot}$). Three more reflection effect binaries found in the course of the campaign were already published, two of them are eclipsing systems, in one system only showing the reflection effect but no eclipses the sdB primary is found to be pulsating. Amongst the targets without reflection effect a new long-period sdB pulsator was discovered and irregular light variations were found in two sdO stars. The found light variations allowed us to constrain the fraction of reflection effect binaries and the substellar companion fraction around sdB stars. The minimum fraction of reflection effect systems amongst the close sdB binaries might be greater than 15\% and the fraction of close substellar companions in sdB binaries might be as high as $8.0\%$. This would result in a close substellar companion fraction to sdB stars of about 3\%. This fraction is much higher than the fraction of brown dwarfs around possible progenitor systems, which are solar-type stars with substellar companions around 1 AU, as well as close binary white dwarfs with brown dwarf companions. This might be a hint that common envelope interactions with substellar objects are preferentially followed by a hot subdwarf phase., Comment: accepted for A&A

Published

2018

5. Die Bildung finanzieller Reserven in spendensammelnden Organisationen

Author

Gmür, Markus, Ziegerer, Martina, Gmür, Markus, and Ziegerer, Martina

Abstract

Mit dem gezielten Aufbau von frei verfügbarem Organisationskapital können NPO verschiedene Ziele verfolgen: Sie sichern sich gegen unvorhergesehene Einnahmenverluste ab, vermindern die Abhängigkeit von einzelnen Finanzierungsquellen oder eröffnen sich flexible Handlungsmöglichkeiten oder Wachstumspotenziale. Daneben gibt es auch ungeplante Gründe für eine Veränderung des Organisations-und des zweckgebundenen Fondskapitals. Am Beispiel von rund 400 Schweizer Hilfswerken wird gezeigt, dass sich die Höhe von Reserven teilweise durch Risikoüberlegungen auf der Einnahmenseite erklären lässt: Je grösser für ein Hilfswerk die Abhängigkeit von einzelnen Einnahmequellen ist und je stärker die Einnahmeschwankungen ausfallen, umso höher ist auch das Organisationskapital. Die Abhängigkeit von privaten Spenden und Beiträgen der öffentlichen Hand wirken sich dabei sehr unterschiedlich aus. Über diese Risikofaktoren hinaus tragen auch Grösse, Alter und Tätigkeitsbereich der Organisation zur Erklärung ihrer Reserven bei, nicht aber die Rechtsform. Die Analyse bietet für Organisationen Anhaltspunkte und Vergleichswerte zur Festsetzung ihrer Reservenziele.

Published

2018

6. Rural Electrification and Livelihood Generation for Women Enterprises in Rural India: Experience of Implementing Two-Stage Biomass Gasifiers

Author

Silvia Hostettler, Samira Najih Besson, Jean-Claude Bolay, Dhingra, Sunil, Tanvir, Barkha, Henriksen, Ulrik Birk, Jaboyedoff, Pierre, Sinha, Shirish, Ziegerer, Daniel, Silvia Hostettler, Samira Najih Besson, Jean-Claude Bolay, Dhingra, Sunil, Tanvir, Barkha, Henriksen, Ulrik Birk, Jaboyedoff, Pierre, Sinha, Shirish, and Ziegerer, Daniel

Abstract

As per 2011 census, nearly 44% of rural households do not have access to electricity in India and those who have access suffer from unreliable electricity supply affecting education, income generation and access to information. For lighting, one-third households rely on kerosene, which provides poor quality light and is damaging to health. Lack of access and reliable supply undermines the ability of the households and micro/small enterprises to move out of the vicious cycle of energy poverty. In rural India, several of these enterprises are owned and managed by women entrepreneurs and self-help groups, which were established for income-generating activities and empowerment of women. In 2005, Government of India initiated a large, national rural electrification programme to provide electricity to all villages and households. It has been recognized that grid supply may not be feasible or cost-effective for every village, and hence, due attention is being given to renewable-based decentralized distributed generation systems, such as biomass gasifiers. This paper provides insights regarding experience of developing two-stage biomass gasifier for Indian conditions through an innovative technology transfer and intellectual property rights sharing agreement and its field implementation through partnerships with the state government and community-based organizations in the state of Odisha and Madhya Pradesh. This technology will provide reliable electricity to women groups owned livelihood activities, increasing the income generated by them, and electrify rural households.

Published

2018

7. Close Binary Progenitors and Ejected Companions of Thermonuclear Supernovae

Author

Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., Bloemen, S., Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., and Bloemen, S.

Abstract

Contains fulltext : 173505.pdf (publisher's version ) (Closed access) Contains fulltext : 173505-1.pdf (preprint version ) (Closed access)

Published

2017

8. Spectroscopic twin to the hypervelocity sdO star US 708 and three fast sdB stars from the Hyper-MUCHFUSS project

Author

Ziegerer, E., Heber, U., Geier, S., Irrgang, A., Kupfer, T., Fürst, F., Schaffenroth, J., Ziegerer, E., Heber, U., Geier, S., Irrgang, A., Kupfer, T., Fürst, F., and Schaffenroth, J.

Abstract

Important tracers for the dark matter halo of the Galaxy are hypervelocity stars (HVSs), which are faster than the local escape velocity of the Galaxy and their slower counterparts, the high-velocity stars in the Galactic halo. Such HVSs are believed to be ejected from the Galactic Centre (GC) through tidal disruption of a binary by the super-massive black hole (Hills mechanism). The Hyper-MUCHFUSS survey aims at finding high-velocity potentially unbound hot subdwarf stars. We present the spectroscopic and kinematical analyses of a He-sdO as well as three candidates among the sdB stars using optical Keck/ESI and VLT (Xshooter, FORS) spectroscopy. Proper motions are determined by combining positions from early-epoch photographic plates with those derived from modern digital sky surveys. The Galactic rest frame velocities range from 203 km\,s$^{-1}$ to 660 km\,s$^{-1}$, indicating that most likely all four stars are gravitationally bound to the Galaxy. With $T_\text{eff}=47000$ K and a surface gravity of $\log g = 5.7$, SDSS J205030.39$-$061957.8 (J2050) is a spectroscopic twin of the hypervelocity He-sdO US 708. As for the latter, the GC is excluded as a place of origin based on the kinematic analysis. Hence, the Hills mechanism can be excluded for J2050. The ejection velocity is much more moderate ($385\pm79$ km\,s$^{-1}$) than that of US 708 ($998\pm68$ km\,s$^{-1}$). The binary thermonuclear supernova scenario suggested for US 708 would explain the observed properties of J2050 very well without pushing the model parameters to their extreme limits, as required for US 708. Accordingly, the star would be the surviving donor of a type Ia supernova. Three sdB stars also showed extreme kinematics; one could be a HVS ejected from the GC, whereas the other two could be ejected from the Galactic disk through the binary supernova mechanism. Alternatively, they might be extreme halo stars., Comment: Accepted for publication by A&A

Published

2017

9. Close Binary Progenitors and Ejected Companions of Thermonuclear Supernovae

Author

Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., Bloemen, S., Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., and Bloemen, S.

Abstract

Contains fulltext : 173505.pdf (publisher's version ) (Closed access) Contains fulltext : 173505-1.pdf (preprint version ) (Closed access)

Published

2017

10. Close Binary Progenitors and Ejected Companions of Thermonuclear Supernovae

Author

Tremblay, P.-E., Gäensicke, B., Marsh, T., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., Bloemen, S., Tremblay, P.-E., Gäensicke, B., Marsh, T., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., and Bloemen, S.

Abstract

Hot subdwarf stars (sdO/Bs) are evolved core helium-burning stars with very thin hydrogen envelopes, which can be formed by common envelope ejection. Close sdB binaries with massive white dwarf (WD) companions are potential progenitors of thermonuclear supernovae type Ia (SN Ia). We discovered such a progenitor candidate as well as a candidate for a surviving companion star, which escapes from the Galaxy. More candidates for both types of objects have been found by cross-matching known sdB stars with proper motion and light curve catalogues. We found 72 sdO/B candidates with high Galactic restframe velocities, 12 of them might be unbound to our Galaxy. Furthermore, we discovered the second-most compact sdB+WD binary known. However, due to the low mass of the WD companion, it is unlikely to be a SN Ia progenitor.

Published

2017

11. Close Binary Progenitors and Ejected Companions of Thermonuclear Supernovae

Author

Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., Bloemen, S., Tremblay, P.-E., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T.R., Gänsicke, B.T., Barlow, B.N., and Bloemen, S.

Abstract

Contains fulltext : 173505.pdf (Publisher’s version ) (Closed access) Contains fulltext : 173505-1.pdf (Author’s version preprint ) (Closed access)

Published

2017

12. Spectroscopic twin to the hypervelocity sdO star US 708 and three fast sdB stars from the Hyper-MUCHFUSS project

Author

Ziegerer, E., Heber, U., Geier, S., Irrgang, A., Kupfer, T., Fürst, F., Schaffenroth, J., Ziegerer, E., Heber, U., Geier, S., Irrgang, A., Kupfer, T., Fürst, F., and Schaffenroth, J.

Abstract

Important tracers for the dark matter halo of the Galaxy are hypervelocity stars (HVSs), which are faster than the local escape velocity of the Galaxy and their slower counterparts, the high-velocity stars in the Galactic halo. Such HVSs are believed to be ejected from the Galactic Centre (GC) through tidal disruption of a binary by the super-massive black hole (Hills mechanism). The Hyper-MUCHFUSS survey aims at finding high-velocity potentially unbound hot subdwarf stars. We present the spectroscopic and kinematical analyses of a He-sdO as well as three candidates among the sdB stars using optical Keck/ESI and VLT (Xshooter, FORS) spectroscopy. Proper motions are determined by combining positions from early-epoch photographic plates with those derived from modern digital sky surveys. The Galactic rest frame velocities range from 203 km\,s$^{-1}$ to 660 km\,s$^{-1}$, indicating that most likely all four stars are gravitationally bound to the Galaxy. With $T_\text{eff}=47000$ K and a surface gravity of $\log g = 5.7$, SDSS J205030.39$-$061957.8 (J2050) is a spectroscopic twin of the hypervelocity He-sdO US 708. As for the latter, the GC is excluded as a place of origin based on the kinematic analysis. Hence, the Hills mechanism can be excluded for J2050. The ejection velocity is much more moderate ($385\pm79$ km\,s$^{-1}$) than that of US 708 ($998\pm68$ km\,s$^{-1}$). The binary thermonuclear supernova scenario suggested for US 708 would explain the observed properties of J2050 very well without pushing the model parameters to their extreme limits, as required for US 708. Accordingly, the star would be the surviving donor of a type Ia supernova. Three sdB stars also showed extreme kinematics; one could be a HVS ejected from the GC, whereas the other two could be ejected from the Galactic disk through the binary supernova mechanism. Alternatively, they might be extreme halo stars., Comment: Accepted for publication by A&A

Published

2017

13. An extremely fast halo hot subdwarf star in a wide binary system

Author

Nemeth, P., Ziegerer, E., Irrgang, A., Geier, S., Furst, F., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Geier, S., Furst, F., Kupfer, T., and Heber, U.

Abstract

Contains fulltext : 157958.pdf (preprint version ) (Open Access), New spectroscopic observations of the halo hyper-velocity star candidate SDSS J121150.27+143716.2 (V = 17.92 mag) revealed a cool companion to the hot subdwarf primary. The components have a very similar radial velocity and their absolute luminosities are consistent with the same distance, confirming the physical nature of the binary, which is the first double-lined hyper-velocity candidate. Our spectral decomposition of the Keck/ESI spectrum provided an sdB+K3V pair, analogous to many long-period subdwarf binaries observed in the Galactic disk. We found the subdwarf atmospheric parameters: T-eff = 30 600 +/- 500 K, log g= 5.57 +/- 0.06 cm s(-2), and He abundance log(nHe/nH)= -3.0 +/- 0.2. Oxygen is the most abundant metal in the hot subdwarf atmosphere, and Mg and Na lines are the most prominent spectral features of the cool companion, consistent with a metallicity of [Fe/H] = -1.3. The non-detection of radial velocity variations suggest the orbital period to be a few hundred days, in agreement with similar binaries observed in the disk. Using the SDSS-III flux calibrated spectrum we measured the distance to the system d = 5.5 +/- 0.5 kpc, which is consistent with ultraviolet, optical, and infrared photometric constraints derived from binary spectral energy distributions. Our kinematic study shows that the Galactic rest-frame velocity of the system is so high that an unbound orbit cannot be ruled out. On the other hand, a bound orbit requires a massive dark matter halo. We conclude that the binary either formed in the halo or was accreted from the tidal debris of a dwarf galaxy by the Milky Way.

Published

2016

14. Close binary progenitors and ejected companions of thermonuclear supernovae

Author

Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., Bloemen, S., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., and Bloemen, S.

Abstract

Hot subdwarf stars (sdO/Bs) are evolved core helium-burning stars with very thin hydrogen envelopes, which can be formed by common envelope ejection. Close sdB binaries with massive white dwarf (WD) companions are potential progenitors of thermonuclear supernovae type Ia (SN~Ia). We discovered such a progenitor candidate as well as a candidate for a surviving companion star, which escapes from the Galaxy. More candidates for both types of objects have been found by crossmatching known sdB stars with proper motion and light curve catalogues. We found 72 sdO/B candidates with high Galactic restframe velocities, 12 of them might be unbound to our Galaxy. Furthermore, we discovered the second-most compact sdB+WD binary known. However, due to the low mass of the WD companion, it is unlikely to be a SN\,Ia progenitor., Comment: 5 pages, to be published by Astronomical Society of the Pacific Conference Series in the proceedings of the 20th European Workshop on White Dwarfs. arXiv admin note: substantial text overlap with arXiv:1604.05469

Published

2016

15. Hot subdwarf stars and their connection to thermonuclear supernovae

Author

Geier, S., Kupfer, T., Ziegerer, E., Heber, U., Nemeth, P., Irrgang, A., team, MUCHFUSS, Geier, S., Kupfer, T., Ziegerer, E., Heber, U., Nemeth, P., Irrgang, A., and team, MUCHFUSS

Abstract

Hot subdwarf stars (sdO/Bs) are evolved core helium-burning stars with very thin hydrogen envelopes, which can be formed by common envelope ejection. Close sdB binaries with massive white dwarf (WD) companions are potential progenitors of thermonuclear supernovae type Ia (SN Ia). We discovered such a progenitor candidate as well as a candidate for a surviving companion star, which escapes from the Galaxy. More candidates for both types of objects have been found by crossmatching known sdB stars with proper motion and light curve catalogues. The Gaia mission will provide accurate astrometry and light curves of all the stars in our hot subdwarf sample and will allow us to compile a much larger all-sky catalogue of those stars. In this way we expect to find hundreds of progenitor binaries and ejected companions., Comment: Proceedings of the 11th Pacific Rim Conference on Stellar Astrophysics, Hong Kong 2015, Journal of Physics: Conference Series, in press

Published

2016

16. An extremely fast halo hot subdwarf star in a wide binary system

Author

Németh, Péter, Ziegerer, Eva, Irrgang, Andreas, Geier, Stephan, Fürst, Felix, Kupfer, Thomas, Heber, Ulrich, Németh, Péter, Ziegerer, Eva, Irrgang, Andreas, Geier, Stephan, Fürst, Felix, Kupfer, Thomas, and Heber, Ulrich

Abstract

New spectroscopic observations of the halo hyper-velocity star candidate SDSS J121150.27+143716.2 ($V=17.92$ mag) revealed a cool companion to the hot subdwarf primary. The components have a very similar radial velocity and their absolute luminosities are consistent with the same distance, confirming the physical nature of the binary, which is the first double-lined hyper-velocity candidate. Our spectral decomposition of the Keck/ESI spectrum provided an sdB+K3V pair, analogous to many long-period subdwarf binaries observed in the Galactic disk. We found the subdwarf atmospheric parameters: $T_{\rm eff}=30\,600\pm500$ K, $\log{g}=5.57\pm0.06$ cm s$^{-2}$ and He abundance $\log(n{\rm He}/n{\rm H})=-3.0\pm0.2$. Oxygen is the most abundant metal in the hot subdwarf atmosphere, and Mg and Na lines are the most prominent spectral features of the cool companion, consistent with a metallicity of $[{\rm Fe}/{\rm H}]=-1.3$. The non-detection of radial velocity variations suggest the orbital period to be a few hundred days, in agreement with similar binaries observed in the disk. Using the SDSS-III flux calibrated spectrum we measured the distance to the system $d=5.5\pm0.5$ kpc, which is consistent with ultraviolet, optical, and infrared photometric constraints derived from binary spectral energy distributions. Our kinematic study shows that the Galactic rest-frame velocity of the system is so high that an unbound orbit cannot be ruled out. On the other hand, a bound orbit requires a massive dark matter halo. We conclude that the binary either formed in the halo or it was accreted from the tidal debris of a dwarf galaxy by the Milky Way., Comment: Accepted for publication in the Astrophysical Journal Letters

Published

2016

17. An extremely fast halo hot subdwarf star in a wide binary system

Author

Nemeth, P., Ziegerer, E., Irrgang, A., Geier, S., Furst, F., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Geier, S., Furst, F., Kupfer, T., and Heber, U.

Abstract

Contains fulltext : 157958.pdf (preprint version ) (Open Access), New spectroscopic observations of the halo hyper-velocity star candidate SDSS J121150.27+143716.2 (V = 17.92 mag) revealed a cool companion to the hot subdwarf primary. The components have a very similar radial velocity and their absolute luminosities are consistent with the same distance, confirming the physical nature of the binary, which is the first double-lined hyper-velocity candidate. Our spectral decomposition of the Keck/ESI spectrum provided an sdB+K3V pair, analogous to many long-period subdwarf binaries observed in the Galactic disk. We found the subdwarf atmospheric parameters: T-eff = 30 600 +/- 500 K, log g= 5.57 +/- 0.06 cm s(-2), and He abundance log(nHe/nH)= -3.0 +/- 0.2. Oxygen is the most abundant metal in the hot subdwarf atmosphere, and Mg and Na lines are the most prominent spectral features of the cool companion, consistent with a metallicity of [Fe/H] = -1.3. The non-detection of radial velocity variations suggest the orbital period to be a few hundred days, in agreement with similar binaries observed in the disk. Using the SDSS-III flux calibrated spectrum we measured the distance to the system d = 5.5 +/- 0.5 kpc, which is consistent with ultraviolet, optical, and infrared photometric constraints derived from binary spectral energy distributions. Our kinematic study shows that the Galactic rest-frame velocity of the system is so high that an unbound orbit cannot be ruled out. On the other hand, a bound orbit requires a massive dark matter halo. We conclude that the binary either formed in the halo or was accreted from the tidal debris of a dwarf galaxy by the Milky Way.

Published

2016

18. Close binary progenitors and ejected companions of thermonuclear supernovae

Author

Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., Bloemen, S., Geier, S., Kupfer, T., Heber, U., Nemeth, P., Ziegerer, E., Irrgang, A., Schindewolf, M., Marsh, T. R., Gänsicke, B. T., Barlow, B. N., and Bloemen, S.

Abstract

Hot subdwarf stars (sdO/Bs) are evolved core helium-burning stars with very thin hydrogen envelopes, which can be formed by common envelope ejection. Close sdB binaries with massive white dwarf (WD) companions are potential progenitors of thermonuclear supernovae type Ia (SN~Ia). We discovered such a progenitor candidate as well as a candidate for a surviving companion star, which escapes from the Galaxy. More candidates for both types of objects have been found by crossmatching known sdB stars with proper motion and light curve catalogues. We found 72 sdO/B candidates with high Galactic restframe velocities, 12 of them might be unbound to our Galaxy. Furthermore, we discovered the second-most compact sdB+WD binary known. However, due to the low mass of the WD companion, it is unlikely to be a SN\,Ia progenitor., Comment: 5 pages, to be published by Astronomical Society of the Pacific Conference Series in the proceedings of the 20th European Workshop on White Dwarfs. arXiv admin note: substantial text overlap with arXiv:1604.05469

Published

2016

19. Hot subdwarf stars and their connection to thermonuclear supernovae

Author

Geier, S., Kupfer, T., Ziegerer, E., Heber, U., Nemeth, P., Irrgang, A., team, MUCHFUSS, Geier, S., Kupfer, T., Ziegerer, E., Heber, U., Nemeth, P., Irrgang, A., and team, MUCHFUSS

Abstract

Hot subdwarf stars (sdO/Bs) are evolved core helium-burning stars with very thin hydrogen envelopes, which can be formed by common envelope ejection. Close sdB binaries with massive white dwarf (WD) companions are potential progenitors of thermonuclear supernovae type Ia (SN Ia). We discovered such a progenitor candidate as well as a candidate for a surviving companion star, which escapes from the Galaxy. More candidates for both types of objects have been found by crossmatching known sdB stars with proper motion and light curve catalogues. The Gaia mission will provide accurate astrometry and light curves of all the stars in our hot subdwarf sample and will allow us to compile a much larger all-sky catalogue of those stars. In this way we expect to find hundreds of progenitor binaries and ejected companions., Comment: Proceedings of the 11th Pacific Rim Conference on Stellar Astrophysics, Hong Kong 2015, Journal of Physics: Conference Series, in press

Published

2016

20. An extremely fast halo hot subdwarf star in a wide binary system

Author

Németh, Péter, Ziegerer, Eva, Irrgang, Andreas, Geier, Stephan, Fürst, Felix, Kupfer, Thomas, Heber, Ulrich, Németh, Péter, Ziegerer, Eva, Irrgang, Andreas, Geier, Stephan, Fürst, Felix, Kupfer, Thomas, and Heber, Ulrich

Abstract

New spectroscopic observations of the halo hyper-velocity star candidate SDSS J121150.27+143716.2 ($V=17.92$ mag) revealed a cool companion to the hot subdwarf primary. The components have a very similar radial velocity and their absolute luminosities are consistent with the same distance, confirming the physical nature of the binary, which is the first double-lined hyper-velocity candidate. Our spectral decomposition of the Keck/ESI spectrum provided an sdB+K3V pair, analogous to many long-period subdwarf binaries observed in the Galactic disk. We found the subdwarf atmospheric parameters: $T_{\rm eff}=30\,600\pm500$ K, $\log{g}=5.57\pm0.06$ cm s$^{-2}$ and He abundance $\log(n{\rm He}/n{\rm H})=-3.0\pm0.2$. Oxygen is the most abundant metal in the hot subdwarf atmosphere, and Mg and Na lines are the most prominent spectral features of the cool companion, consistent with a metallicity of $[{\rm Fe}/{\rm H}]=-1.3$. The non-detection of radial velocity variations suggest the orbital period to be a few hundred days, in agreement with similar binaries observed in the disk. Using the SDSS-III flux calibrated spectrum we measured the distance to the system $d=5.5\pm0.5$ kpc, which is consistent with ultraviolet, optical, and infrared photometric constraints derived from binary spectral energy distributions. Our kinematic study shows that the Galactic rest-frame velocity of the system is so high that an unbound orbit cannot be ruled out. On the other hand, a bound orbit requires a massive dark matter halo. We conclude that the binary either formed in the halo or it was accreted from the tidal debris of a dwarf galaxy by the Milky Way., Comment: Accepted for publication in the Astrophysical Journal Letters

Published

2016

21. The fastest unbound star in our Galaxy ejected by a thermonuclear supernova

Author

Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., Waters, C., Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., and Waters, C.

Abstract

Item does not contain fulltext

Published

2015

22. The Population of White Dwarf Binaries with Hot Subdwarf Companions

Author

Dufour, P., Geier, S., Kupfer, T., Heber, U., Barlow, B.N., Maxted, P.F.L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R.H., Gänsicke, B.T., Dufour, P., Geier, S., Kupfer, T., Heber, U., Barlow, B.N., Maxted, P.F.L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R.H., and Gänsicke, B.T.

Abstract

Contains fulltext : 143841.pdf (preprint version ) (Open Access)

Published

2015

23. The catalogue of radial velocity variable hot subluminous stars from the MUCHFUSS project

Author

Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., Niederhofer, F., Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., and Niederhofer, F.

Abstract

Contains fulltext : 141195.pdf (preprint version ) (Open Access)

Published

2015

24. Candidate hypervelocity stars of spectral type G and K revisited

Author

Ziegerer, E., Volkert, M., Heber, U., Irrgang, A., Gaensicke, B. T., Geier, S., Ziegerer, E., Volkert, M., Heber, U., Irrgang, A., Gaensicke, B. T., and Geier, S.

Abstract

Hypervelocity stars (HVS) move so fast that they are unbound to the Galaxy. When they were first discovered in 2005, dynamical ejection from the supermassive black hole (SMBH) in the Galactic Centre (GC) was suggested as their origin. The two dozen HVSs known today are young massive B stars, mostly of 3-4 solar masses. Recently, 20 HVS candidates of low mass were discovered in the Segue G and K dwarf sample, but none of them originates from the GC. We embarked on a kinematic analysis of the Segue HVS candidate sample using the full 6D phase space information based on new proper motion measurements. Their orbital properties can then be derived by tracing back their trajectories in different mass models of our Galaxy. We present the results for 14 candidate HVSs, for which proper motion measurements were possible. Significantly lower proper motions than found in the previous study were derived. Considering three different Galactic mass models we find that all stars are bound to the Galaxy. We confirm that the stars do not originate from the GC. The distribution of their proper motions and radial velocities is consistent with predictions for runaway stars ejected from the Galactic disk by the binary supernova mechanism. However, their kinematics are also consistent with old disk membership. Moreover, most stars have rather low metallicities and strong $\alpha$-element enrichment as typical for thick disk and halo stars, whereas the metallicity of the three most metal-rich stars could possibly indicate that they are runaway stars from the thin disk. One star shows halo kinematics., Comment: A&A letter accepted

Published

2015

25. The fastest unbound star in our Galaxy ejected by a thermonuclear supernova

Author

Geier, S., Fürst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W. S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., Waters, C., Geier, S., Fürst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W. S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., and Waters, C.

Abstract

Hypervelocity stars (HVS) travel with velocities so high, that they exceed the escape velocity of the Galaxy. Several acceleration mechanisms have been discussed. Only one HVS (US 708, HVS 2) is a compact helium star. Here we present a spectroscopic and kinematic analysis of US\,708. Travelling with a velocity of $\sim1200\,{\rm km\,s^{-1}}$, it is the fastest unbound star in our Galaxy. In reconstructing its trajectory, the Galactic center becomes very unlikely as an origin, which is hardly consistent with the most favored ejection mechanism for the other HVS. Furthermore, we discovered US\,708 to be a fast rotator. According to our binary evolution model it was spun-up by tidal interaction in a close binary and is likely to be the ejected donor remnant of a thermonuclear supernova., Comment: 16 pages report, 20 pages supplementary materials

Published

2015

26. The enigmatic He-sdB pulsator LS IV$-$14$^\circ$116: new insights from the VLT

Author

Randall, S. K., Bagnulo, S., Ziegerer, E., Geier, S., Fontaine, G., Randall, S. K., Bagnulo, S., Ziegerer, E., Geier, S., and Fontaine, G.

Abstract

The intermediate Helium subdwarf B star LS IV$-$14$^\circ$116 is a unique object showing extremely peculiar atmospheric abundances as well as long-period pulsations that cannot be explained in terms of the usual opacity mechanism. One hypothesis invoked was that a strong magnetic field may be responsible. We discredit this possibility on the basis of FORS2 spectro-polarimetry, which allows us to rule out a mean longitudinal magnetic field down to 300 G. Using the same data, we derive the atmospheric parameters for LS IV$-$14$^\circ$116 to be $T_{\rm eff}$ = 35,150$\pm$111 K, $\log{g}$ = 5.88$\pm$0.02 and $\log{N(\rm He)/N(\rm H)}$ = $-$0.62$\pm$0.01. The high surface gravity in particular is at odds with the theory that LS IV$-$14$^\circ$116 has not yet settled onto the Helium Main Sequence, and that the pulsations are excited by an $\epsilon$ mechanism acting on the Helium-burning shells present after the main Helium flash. Archival UVES spectroscopy reveals LS IV$-$14$^\circ$116 to have a radial velocity of 149.1$\pm$2.1 km/s. Running a full kinematic analysis, we find that it is on a retrograde orbit around the Galactic centre, with a Galactic radial velocity component $U$=13.23$\pm$8.28 km/s and a Galactic rotational velocity component $V$=$-$55.56$\pm$22.13 km/s. This implies that LS IV$-$14$^\circ$116 belongs to the halo population, an intriguing discovery., Comment: accepted for publication in A&A

Published

2015

27. The population of white dwarf binaries with hot subdwarf companions

Author

Geier, S., Kupfer, T., Heber, U., Barlow, B. N., Maxted, P. F. L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R. H., Gänsicke, B. T., Geier, S., Kupfer, T., Heber, U., Barlow, B. N., Maxted, P. F. L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R. H., and Gänsicke, B. T.

Abstract

Hot subdwarfs (sdBs) are core helium-burning stars, which lost almost their entire hydrogen envelope in the red-giant phase. Since a high fraction of those stars are in close binary systems, common envelope ejection is an important formation channel. We identified a total population of 51 close sdB+WD binaries based on time-resolved spectroscopy and multi-band photometry, derive the WD mass distribution and constrain the future evolution of these systems. Most WDs in those binaries have masses significantly below the average mass of single WDs and a high fraction of them might therefore have helium cores. We found 12 systems that will merge in less than a Hubble time and evolve to become either massive C/O WDs, AM\,CVn systems, RCrB stars or even explode as supernovae type Ia., Comment: 5 pages, 2 figures, to appear in the proceedings of the 19th European White Dwarf Workshop, ASP Conf. Ser

Published

2015

28. The catalogue of radial velocity variable hot subluminous stars from the MUCHFUSS project

Author

Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B. N., stensen, R. H. O, O'Toole, S. J., Ziegerer, E., Heuser, C., Maxted, P. F. L., Gänsicke, B. T., Marsh, T. R., Napiwotzki, R., Brünner, P., Schindewolf, M., Niederhofer, F., Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B. N., stensen, R. H. O, O'Toole, S. J., Ziegerer, E., Heuser, C., Maxted, P. F. L., Gänsicke, B. T., Marsh, T. R., Napiwotzki, R., Brünner, P., Schindewolf, M., and Niederhofer, F.

Abstract

The project Massive Unseen Companions to Hot Faint Underluminous Stars from SDSS (MUCHFUSS) aims to find sdBs with compact companions like massive white dwarfs, neutron stars or black holes. Here we provide classifications, atmospheric parameters and a complete radial velocity (RV) catalogue containing 1914 single measurements for an sample of 177 hot subluminous stars discovered based on SDSS DR7. 110 stars show significant RV variability, while 67 qualify as candidates. We constrain the fraction of close massive compact companions {of hydrogen-rich hot subdwarfs} in our sample to be smaller than $\sim1.3\%$, which is already close to the theoretical predictions. However, the sample might still contain such binaries with longer periods exceeding $\sim8\,{\rm d}$. We detect a mismatch between the $\Delta RV_{\rm max}$-distribution of the sdB and the more evolved sdOB and sdO stars, which challenges our understanding of their evolutionary connection. Furthermore, irregular RV variations of unknown origin with amplitudes of up to $\sim180\,{\rm km\,s^{-1}}$ on timescales of years, days and even hours have been detected in some He-sdO stars. They might be connected to irregular photometric variations in some cases., Comment: 14 pages, 9 figures, A&A accepted

Published

2015

29. An ancient F-type subdwarf from the halo crossing the Galactic plane

Author

Scholz, R. -D., Heber, U., Heuser, C., Ziegerer, E., Geier, S., Niederhofer, F., Scholz, R. -D., Heber, U., Heuser, C., Ziegerer, E., Geier, S., and Niederhofer, F.

Abstract

AIMS: We selected the bluest object, WISE~J0725$-$2351, from Luhman's new high proper motion (HPM) survey based on observations with the Wide-field Infrared Survey Explorer (WISE) for spectroscopic follow-up observations. Our aim was to unravel the nature of this relatively bright ($V$$\sim$12, $J$$\sim$11) HPM star ($\mu$$=$267\,mas/yr). METHODS: We obtained low- and medium-resolution spectra with the European Southern Observatory (ESO) New Technology Telescope (NTT)/EFOSC2 and Very Large Telescope (VLT)/XSHOOTER instruments, investigated the radial velocity and performed a quantitative spectral analysis that allowed us to determine physical parameters. The fit of the spectral energy distribution based on the available photometry to low-metallicity model spectra and the similarity of our target to a metal-poor benchmark star (HD~84937) allowed us to estimate the distance and space velocity. RESULTS: As in the case of HD~84937, we classified WISE~J0725$-$2351 as sdF5: or a metal-poor turnoff star with $[Fe/H]$$=$$-$2.0$\pm$0.2, $T_{eff}$$=$6250$\pm$100\,K, $\log{g}$$=$4.0$\pm$0.2, and a possible age of about 12\,Gyr. At an estimated distance of more than 400\,pc, its proper motion translates to a tangential velocity of more than 500\,km/s. Together with its constant (on timescales of hours, days, and months) and large radial velocity (about $+$240\,km/s), the resulting Galactic restframe velocity is about 460\,km/s, implying a bound retrograde orbit for this extreme halo object that currently crosses the Galactic plane at high speed., Comment: 8 pages, 3 tables, 7 figures, accepted for publication in Astronomy and Astrophysics

Published

2015

30. The fastest unbound star in our Galaxy ejected by a thermonuclear supernova

Author

Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., Waters, C., Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., and Waters, C.

Abstract

Item does not contain fulltext

Published

2015

31. The Population of White Dwarf Binaries with Hot Subdwarf Companions

Author

Dufour, P., Geier, S., Kupfer, T., Heber, U., Barlow, B.N., Maxted, P.F.L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R.H., Gänsicke, B.T., Dufour, P., Geier, S., Kupfer, T., Heber, U., Barlow, B.N., Maxted, P.F.L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R.H., and Gänsicke, B.T.

Abstract

Contains fulltext : 143841.pdf (preprint version ) (Open Access)

Published

2015

32. The catalogue of radial velocity variable hot subluminous stars from the MUCHFUSS project

Author

Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., Niederhofer, F., Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., and Niederhofer, F.

Abstract

Contains fulltext : 141195.pdf (preprint version ) (Open Access)

Published

2015

33. The fastest unbound star in our Galaxy ejected by a thermonuclear supernova

Author

Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., Waters, C., Geier, S., Furst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W.S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., and Waters, C.

Abstract

Item does not contain fulltext

Published

2015

34. The catalogue of radial velocity variable hot subluminous stars from the MUCHFUSS project

Author

Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., Niederhofer, F., Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B.N., Ostensen, R.H., O'Toole, S.J., Ziegerer, E., Heuser, C., Maxted, P.F.L., Gansicke, B.T., Marsh, T.R., Napiwotzki, R., Brunner, P., Schindewolf, M., and Niederhofer, F.

Abstract

Contains fulltext : 141195.pdf (preprint version ) (Open Access)

Published

2015

35. Candidate hypervelocity stars of spectral type G and K revisited

Author

Ziegerer, E., Volkert, M., Heber, U., Irrgang, A., Gaensicke, B. T., Geier, S., Ziegerer, E., Volkert, M., Heber, U., Irrgang, A., Gaensicke, B. T., and Geier, S.

Abstract

Hypervelocity stars (HVS) move so fast that they are unbound to the Galaxy. When they were first discovered in 2005, dynamical ejection from the supermassive black hole (SMBH) in the Galactic Centre (GC) was suggested as their origin. The two dozen HVSs known today are young massive B stars, mostly of 3-4 solar masses. Recently, 20 HVS candidates of low mass were discovered in the Segue G and K dwarf sample, but none of them originates from the GC. We embarked on a kinematic analysis of the Segue HVS candidate sample using the full 6D phase space information based on new proper motion measurements. Their orbital properties can then be derived by tracing back their trajectories in different mass models of our Galaxy. We present the results for 14 candidate HVSs, for which proper motion measurements were possible. Significantly lower proper motions than found in the previous study were derived. Considering three different Galactic mass models we find that all stars are bound to the Galaxy. We confirm that the stars do not originate from the GC. The distribution of their proper motions and radial velocities is consistent with predictions for runaway stars ejected from the Galactic disk by the binary supernova mechanism. However, their kinematics are also consistent with old disk membership. Moreover, most stars have rather low metallicities and strong $\alpha$-element enrichment as typical for thick disk and halo stars, whereas the metallicity of the three most metal-rich stars could possibly indicate that they are runaway stars from the thin disk. One star shows halo kinematics., Comment: A&A letter accepted

Published

2015

36. The enigmatic He-sdB pulsator LS IV$-$14$^\circ$116: new insights from the VLT

Author

Randall, S. K., Bagnulo, S., Ziegerer, E., Geier, S., Fontaine, G., Randall, S. K., Bagnulo, S., Ziegerer, E., Geier, S., and Fontaine, G.

Abstract

The intermediate Helium subdwarf B star LS IV$-$14$^\circ$116 is a unique object showing extremely peculiar atmospheric abundances as well as long-period pulsations that cannot be explained in terms of the usual opacity mechanism. One hypothesis invoked was that a strong magnetic field may be responsible. We discredit this possibility on the basis of FORS2 spectro-polarimetry, which allows us to rule out a mean longitudinal magnetic field down to 300 G. Using the same data, we derive the atmospheric parameters for LS IV$-$14$^\circ$116 to be $T_{\rm eff}$ = 35,150$\pm$111 K, $\log{g}$ = 5.88$\pm$0.02 and $\log{N(\rm He)/N(\rm H)}$ = $-$0.62$\pm$0.01. The high surface gravity in particular is at odds with the theory that LS IV$-$14$^\circ$116 has not yet settled onto the Helium Main Sequence, and that the pulsations are excited by an $\epsilon$ mechanism acting on the Helium-burning shells present after the main Helium flash. Archival UVES spectroscopy reveals LS IV$-$14$^\circ$116 to have a radial velocity of 149.1$\pm$2.1 km/s. Running a full kinematic analysis, we find that it is on a retrograde orbit around the Galactic centre, with a Galactic radial velocity component $U$=13.23$\pm$8.28 km/s and a Galactic rotational velocity component $V$=$-$55.56$\pm$22.13 km/s. This implies that LS IV$-$14$^\circ$116 belongs to the halo population, an intriguing discovery., Comment: accepted for publication in A&A

Published

2015

37. The fastest unbound star in our Galaxy ejected by a thermonuclear supernova

Author

Geier, S., Fürst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W. S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., Waters, C., Geier, S., Fürst, F., Ziegerer, E., Kupfer, T., Heber, U., Irrgang, A., Wang, B., Liu, Z., Han, Z., Sesar, B., Levitan, D., Kotak, R., Magnier, E., Smith, K., Burgett, W. S., Chambers, K., Flewelling, H., Kaiser, N., Wainscoat, R., and Waters, C.

Abstract

Hypervelocity stars (HVS) travel with velocities so high, that they exceed the escape velocity of the Galaxy. Several acceleration mechanisms have been discussed. Only one HVS (US 708, HVS 2) is a compact helium star. Here we present a spectroscopic and kinematic analysis of US\,708. Travelling with a velocity of $\sim1200\,{\rm km\,s^{-1}}$, it is the fastest unbound star in our Galaxy. In reconstructing its trajectory, the Galactic center becomes very unlikely as an origin, which is hardly consistent with the most favored ejection mechanism for the other HVS. Furthermore, we discovered US\,708 to be a fast rotator. According to our binary evolution model it was spun-up by tidal interaction in a close binary and is likely to be the ejected donor remnant of a thermonuclear supernova., Comment: 16 pages report, 20 pages supplementary materials

Published

2015

38. The catalogue of radial velocity variable hot subluminous stars from the MUCHFUSS project

Author

Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B. N., stensen, R. H. O, O'Toole, S. J., Ziegerer, E., Heuser, C., Maxted, P. F. L., Gänsicke, B. T., Marsh, T. R., Napiwotzki, R., Brünner, P., Schindewolf, M., Niederhofer, F., Geier, S., Kupfer, T., Heber, U., Schaffenroth, V., Barlow, B. N., stensen, R. H. O, O'Toole, S. J., Ziegerer, E., Heuser, C., Maxted, P. F. L., Gänsicke, B. T., Marsh, T. R., Napiwotzki, R., Brünner, P., Schindewolf, M., and Niederhofer, F.

Abstract

The project Massive Unseen Companions to Hot Faint Underluminous Stars from SDSS (MUCHFUSS) aims to find sdBs with compact companions like massive white dwarfs, neutron stars or black holes. Here we provide classifications, atmospheric parameters and a complete radial velocity (RV) catalogue containing 1914 single measurements for an sample of 177 hot subluminous stars discovered based on SDSS DR7. 110 stars show significant RV variability, while 67 qualify as candidates. We constrain the fraction of close massive compact companions {of hydrogen-rich hot subdwarfs} in our sample to be smaller than $\sim1.3\%$, which is already close to the theoretical predictions. However, the sample might still contain such binaries with longer periods exceeding $\sim8\,{\rm d}$. We detect a mismatch between the $\Delta RV_{\rm max}$-distribution of the sdB and the more evolved sdOB and sdO stars, which challenges our understanding of their evolutionary connection. Furthermore, irregular RV variations of unknown origin with amplitudes of up to $\sim180\,{\rm km\,s^{-1}}$ on timescales of years, days and even hours have been detected in some He-sdO stars. They might be connected to irregular photometric variations in some cases., Comment: 14 pages, 9 figures, A&A accepted

Published

2015

39. The population of white dwarf binaries with hot subdwarf companions

Author

Geier, S., Kupfer, T., Heber, U., Barlow, B. N., Maxted, P. F. L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R. H., Gänsicke, B. T., Geier, S., Kupfer, T., Heber, U., Barlow, B. N., Maxted, P. F. L., Heuser, C., Schaffenroth, V., Ziegerer, E., Østensen, R. H., and Gänsicke, B. T.

Abstract

Hot subdwarfs (sdBs) are core helium-burning stars, which lost almost their entire hydrogen envelope in the red-giant phase. Since a high fraction of those stars are in close binary systems, common envelope ejection is an important formation channel. We identified a total population of 51 close sdB+WD binaries based on time-resolved spectroscopy and multi-band photometry, derive the WD mass distribution and constrain the future evolution of these systems. Most WDs in those binaries have masses significantly below the average mass of single WDs and a high fraction of them might therefore have helium cores. We found 12 systems that will merge in less than a Hubble time and evolve to become either massive C/O WDs, AM\,CVn systems, RCrB stars or even explode as supernovae type Ia., Comment: 5 pages, 2 figures, to appear in the proceedings of the 19th European White Dwarf Workshop, ASP Conf. Ser

Published

2015

40. An ancient F-type subdwarf from the halo crossing the Galactic plane

Author

Scholz, R. -D., Heber, U., Heuser, C., Ziegerer, E., Geier, S., Niederhofer, F., Scholz, R. -D., Heber, U., Heuser, C., Ziegerer, E., Geier, S., and Niederhofer, F.

Abstract

AIMS: We selected the bluest object, WISE~J0725$-$2351, from Luhman's new high proper motion (HPM) survey based on observations with the Wide-field Infrared Survey Explorer (WISE) for spectroscopic follow-up observations. Our aim was to unravel the nature of this relatively bright ($V$$\sim$12, $J$$\sim$11) HPM star ($\mu$$=$267\,mas/yr). METHODS: We obtained low- and medium-resolution spectra with the European Southern Observatory (ESO) New Technology Telescope (NTT)/EFOSC2 and Very Large Telescope (VLT)/XSHOOTER instruments, investigated the radial velocity and performed a quantitative spectral analysis that allowed us to determine physical parameters. The fit of the spectral energy distribution based on the available photometry to low-metallicity model spectra and the similarity of our target to a metal-poor benchmark star (HD~84937) allowed us to estimate the distance and space velocity. RESULTS: As in the case of HD~84937, we classified WISE~J0725$-$2351 as sdF5: or a metal-poor turnoff star with $[Fe/H]$$=$$-$2.0$\pm$0.2, $T_{eff}$$=$6250$\pm$100\,K, $\log{g}$$=$4.0$\pm$0.2, and a possible age of about 12\,Gyr. At an estimated distance of more than 400\,pc, its proper motion translates to a tangential velocity of more than 500\,km/s. Together with its constant (on timescales of hours, days, and months) and large radial velocity (about $+$240\,km/s), the resulting Galactic restframe velocity is about 460\,km/s, implying a bound retrograde orbit for this extreme halo object that currently crosses the Galactic plane at high speed., Comment: 8 pages, 3 tables, 7 figures, accepted for publication in Astronomy and Astrophysics

Published

2015

41. Finding Compact Hot Subdwarf Binaries in the Galactic Disc

Author

Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., Fulton, B., Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., and Fulton, B.

Abstract

Contains fulltext : 127861.pdf (preprint version ) (Closed access)

Published

2014

42. Binaries discovered by the MUCHFUSS project SDSS J162256.66+473051.1: An eclipsing subdwarf B binary with a brown dwarf companion

Author

Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., Cordes, O., Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., and Cordes, O.

Abstract

Contains fulltext : 127918.pdf (preprint version ) (Open Access)

Published

2014

43. MUCHFUSS: Status and Highlights

Author

Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., Napiwotzki, R., Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., and Napiwotzki, R.

Abstract

Item does not contain fulltext

Published

2014

44. Binaries discovered by the MUCHFUSS project: SDSS J162256.66$+$473051.1 - An eclipsing subdwarf B binary with a brown dwarf companion

Author

Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., Cordes, O., Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., and Cordes, O.

Abstract

Hot subdwarf B stars (sdBs) are core helium-burning stars located on the extreme horizontal branch. About half of the known sdB stars are found in close binaries. Their short orbital periods of 1.2 h to a few days suggest that they are post common-envelope systems. Eclipsing hot subdwarf binaries are rare, but important to determine the fundamental stellar parameters. Low-mass companions are identified by the reflection effect. In most cases the companion is a main sequence star near the stellar mass limit. Here we report the discovery of an eclipsing hot subdwarf binary SDSS J162256.66+473051.1 (J1622) of very short orbital period (0.0697 d), found in the course of the MUCHFUSS project. The lightcurve shows grazing eclipses and a prominent reflection effect. An analysis of the light- and radial velocity (RV) curves indicated a mass ratio of $q=$ 0.1325, an RV semiamplitude $K=47.2\rm\,km\,s^{-1}$, and an inclination of $i=72.33^\circ$. We show that a companion mass of 0.064 $M_{\rm \odot}$, well below the hydrogen-burning limit, is the most plausible solution, which implies a mass close to the canonical mass (0.47 $M_{\rm \odot}$) of the sdB star. Therefore, the companion is a brown dwarf, which not only survived the engulfment by the red-giant envelope, but also triggered its ejection, and enabled the sdB star to form. The rotation of J1622 is expected to be tidally locked to the orbit. However, J1622 rotates too slowly ($v_{\rm rot}=74.5\pm 7\rm\,km\,s^{-1}$) to be synchronized, challenging tidal interaction models.

Published

2014

45. Finding Compact Hot Subdwarf Binaries in the Galactic Disc

Author

Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., Fulton, B., Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., and Fulton, B.

Abstract

Contains fulltext : 127861.pdf (preprint version ) (Closed access)

Published

2014

46. Binaries discovered by the MUCHFUSS project SDSS J162256.66+473051.1: An eclipsing subdwarf B binary with a brown dwarf companion

Author

Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., Cordes, O., Schaffenroth, V., Geier, S., Heber, U., Kupfer, T., Ziegerer, E., Heuser, C., Classen, L., and Cordes, O.

Abstract

Contains fulltext : 127918.pdf (preprint version ) (Open Access)

Published

2014

47. MUCHFUSS: Status and Highlights

Author

Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., Napiwotzki, R., Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., and Napiwotzki, R.

Abstract

Item does not contain fulltext

Published

2014

48. Finding Compact Hot Subdwarf Binaries in the Galactic Disc

Author

Van Grootel, V., Melton Green, Elizabeth, Fontaine, Gilles, Charpinet, Stéphane, Kupfer, T., Geier, S., McLeod, A. Faye, Groot, P. J., Verbeek, K., Schaffenroth, V., Heber, U., Heuser, C., Ziegerer, E., Østensen, R., Nemeth, P., Dhillon, V. S., Butterley, T., Littlefair, S. P., Wilson, R. W., Telting, J. H., Shporer, A., Fulton, B. J., Van Grootel, V., Melton Green, Elizabeth, Fontaine, Gilles, Charpinet, Stéphane, Kupfer, T., Geier, S., McLeod, A. Faye, Groot, P. J., Verbeek, K., Schaffenroth, V., Heber, U., Heuser, C., Ziegerer, E., Østensen, R., Nemeth, P., Dhillon, V. S., Butterley, T., Littlefair, S. P., Wilson, R. W., Telting, J. H., Shporer, A., and Fulton, B. J.

Abstract

We started a new project which aims to find compact hot subdwarf binaries at low Galactic latitudes. Targets are selected from several photometric surveys and a spectroscopic follow-up campaign to find radial velocity variations on timescales as short as tens of minutes has been started. Once radial variations are detected phase-resolved spectroscopy is obtained to measure the radial velocity curve and the mass function of the system. The observing strategy is described and the discovery of two short period hot subdwarf binaries is presented. UVEX J032855.25+503529.8 contains a hot subdwarf B star (sdB) orbited by a cool M-dwarf in a P=0.11017 days orbit. The lightcurve shows a strong reflection effect but no eclipses are visible. HS 1741+2133 is a short period (P=0.20 days) sdB most likely with a white dwarf (WD) companion.

Published

2014

49. MUCHFUSS: Status and Highlights

Author

Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., Napiwotzki, R., Grootel, E. van, Geier, S., Kupfer, T., Barlow, B., Schaffenroth, V., Fürst, F., Heuser, C., Ziegerer, E., Heber, U., Marsh, T., Maxred, P., Östensen, R., O'Toole, S., Gänsicke, B., and Napiwotzki, R.

Abstract

Item does not contain fulltext

Published

2014

50. Finding Compact Hot Subdwarf Binaries in the Galactic Disc

Author

Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., Fulton, B., Grootel, E. van, Kupfer, T., Geier, S., McLeod, A.F., Groot, P.J., Verbeek, K., Schafenroth, V., Heber, U., Heuser, C., Ziegerer, E., Östensen, R., Nemeth, P., Dhillon, V., Butterley, T., Littlefair, S., Wilson, R., Telting, J., Shporer, A., and Fulton, B.

Abstract

Contains fulltext : 127861.pdf (Author’s version preprint ) (Closed access)

Published

2014