Your search keyword '"Geier, Stefan"' showing total 11 results

1. Spins and shapes of basaltic asteroids and the missing mantle problem

Author

Oszkiewicz, Dagmara, Troianskyi, Volodymyr, Galád, Adrián, Hanuš, Josef, Ďurech, Josef, Wilawer, Emil, Marciniak, Anna, Kwiatkowski, Tomasz, Koleńczuk, Paweł, Skiff, Brian A., Polakis, Tom, Moskovitz, Nicholas A., Geier, Stefan, Föhring, Dóra, Hung, Denise, Gajdoš, Štefan, Világi, Jozef, Polčic, L’udovít, Kashuba, Volodymyr, Udovichenko, Sergei, Keir, Leonid, Benishek, Vladimir, Pray, Donald P., Shevchenko, Vasilij, Krugly, Yurij, Kankiewicz, Paweł, Hasegawa, Sunao, Behrend, Raoul, Bernasconi, Laurent, Leroy, Arnaud, Roy, René, Ivanova, Oleksandra, Husárik, Marek, and Simon, Andrii

Published

2023

2. A glint in the eye: Photographic plate archive searches for non-terrestrial artefacts

Author

Villarroel, Beatriz, Mattsson, Lars, Guergouri, Hichem, Solano, Enrique, Geier, Stefan, Dom, Onyeuwaoma Nnaemeka, and Ward, Martin J.

Published

2022

3. First survey of phase curves of V-type asteroids

Author

Oszkiewicz, Dagmara, Wilawer, Emil, Podlewska-Gaca, Edyta, Kryszczyńska, Agnieszka, Kwiatkowski, Tomasz, Troianskyi, Volodymyr, Koleńczuk, Paweł, Föhring, Dóra, Galád, Adrián, Skiff, Brian A., Geier, Stefan, Borczyk, Wojciech, Moskovitz, Nicholas A., Gajdoš, Štefan, Világi, Jozef, Polcic, Ludovít, Kashuba, Volodymyr, Benishek, Vladimir, and Shevchenko, Vasilij

Published

2021

4. Exploring nine simultaneously occurring transients on April 12th 1950

Author

Villarroel, Beatriz, Marcy, Geoffrey W., Geier, Stefan, Streblyanska, Alina, Solano, Enrique, Andruk, Vitaly N., Shultz, Matthew E., Gupta, Alok C., and Mattsson, Lars

Published

2021

5. A precise measurement of the magnetic field in the corona of the black hole binary V404 Cygni

Author

Dallilar, Yigit, Eikenberry, Stephen S., Garner, Alan, Stelter, Richard D., Gottlieb, Amy, Gandhi, Poshak, Casella, Piergiorgio, Dhillon, Vik S., Marsh, Tom R., Littlefair, Stuart P., Hardy, Liam, Fender, Rob, Mooley, Kunal, Walton, Dominic J., Fuerst, Felix, Bachetti, Matteo, Castro-Tirado, A. J., Charcos, Miguel, Edwards, Michelle L., Lasso-Cabrera, Nestor M., Marin-Franch, Antonio, Raines, S. Nicholas, Ackley, Kendall, Bennett, John G., Cenarro, A. Javier, Chinn, Brian, Donoso, H. Veronica, Frommeyer, Raymond, Hanna, Kevin, Herlevich, Michael D., Julian, Jeff, Miller, Paola, Mullin, Scott, Murphey, Charles H., Packham, Chris, Varosi, Frank, Vega, Claudia, Warner, Craig, Ramaprakash, A. N., Burse, Mahesh, Punnadi, Sujit, Chordia, Pravin, Gerarts, Andreas, de Paz Martín, Héctor, Calero, María Martín, Scarpa, Riccardo, Acosta, Sergio Fernandez, Sánchez, William Miguel Hernández, Siegel, Benjamin, Pérez, Francisco Francisco, Martín, Himar D. Viera, Losada, José A. Rodríguez, Nuñez, Agustín, Tejero, Álvaro, González, Carlos E. Martín, Rodríguez, César Cabrera, Molgó, Jordi, Rodriguez, J. Esteban, Cáceres, J. Israel Fernández, García, Luis A. Rodríguez, Lopez, Manuel Huertas, Dominguez, Raul, Gaggstatter, Tim, Lavers, Antonio Cabrera, Geier, Stefan, Pessev, Peter, and Sarajedini, Ata

Published

2017

6. Detailed spectrophotometric analysis of the superluminous and fast evolving SN 2019neq.

Author

Fiore, Achille, Benetti, Stefano, Tartaglia, Leonardo, Jerkstrand, Anders, Salmaso, Irene, Tomasella, Lina, Morales-Garoffolo, Antonia, Geier, Stefan, Elias-Rosa, Nancy, Cappellaro, Enrico, Wang, Xiaofeng, Mo, Jun, Chen, Zhihao, Yan, Shengyu, Pastorello, Andrea, Mazzali, Paolo A, Ciolfi, Riccardo, Cai, Yongzhi, Fraser, Morgan, and Gutiérrez, Claudia P

Subjects

MAGNETARS, LIGHT curves, STAR formation, MAGNETIC fields, SUPERNOVAE, DATA analysis

Abstract

SN 2019neq was a very fast evolving superluminous supernova. At a redshift z  = 0.1059, its peak absolute magnitude was −21.5 ± 0.2 mag in g band. In this work, we present data and analysis from an extensive spectrophotometric follow-up campaign using multiple observational facilities. Thanks to a nebular spectrum of SN 2019neq, we investigated some of the properties of the host galaxy at the location of SN 2019neq and found that its metallicity and specific star formation rate are in a good agreement with those usually measured for SLSNe-I hosts. We then discuss the plausibility of the magnetar and the circumstellar interaction scenarios to explain the observed light curves, and interpret a nebular spectrum of SN 2019neq using published sumo radiative-transfer models. The results of our analysis suggest that the spin-down radiation of a millisecond magnetar with a magnetic field |$B\simeq 6\times 10^{14}\, \mathrm{G}$| could boost the luminosity of SN 2019neq. [ABSTRACT FROM AUTHOR]

Published

2024

7. A bright triple transient that vanished within 50 min.

Author

Solano, Enrique, Marcy, Geoffrey W, Villarroel, Beatriz, Geier, Stefan, Streblyanska, Alina, Lombardi, Gianluca, Bär, Rudolf E, and Andruk, Vitaly N

Subjects

GRAVITATIONAL lenses, TELESCOPES, OBSERVATORIES, SURFACE brightness (Astronomy), IMAGE processing

Abstract

We report on three optically bright, ∼16th mag, point sources within 10 arcsec of each other that vanished within 1 h, based on two consecutive exposures at Palomar Observatory on 1952 July 19 (POSS I Red and Blue). The three point sources have continued to be absent in telescope exposures during 71 yr with detection thresholds of ∼21st mag. We obtained two deep exposures with the 10.4-m Gran Telescopio Canarias on 2023 April 25 and 27 in r and g band, both reaching magnitude 25.5 (3σ). The three point sources are still absent, implying they have dimmed by more than 10 mag within an hour back in 1952. When bright in 1952, the most isolated transient source has a profile nearly the same as comparison stars, implying the sources are subarcsec in angular size and they exhibit no elongation due to movement. This triple transient has observed properties similar to other cases where groups of transients ('multiple transients') have appeared and vanished in a small region within a plate exposure. The explanation for these three transients and the previously reported cases remains unclear. Models involving background objects that are optically luminous for less than 1 h coupled with foreground gravitational lensing seem plausible. If so, a significant population of massive objects with structure serving as the lenses, to produce three images, are required to explain the subhour transients. [ABSTRACT FROM AUTHOR]

Published

2024

8. Life Cycle Assessment for Photovoltaic Structures—Comparative Study of Rooftop and Free-Field PV Applications.

Author

Neumüller, Anna, Geier, Stefan, and Österreicher, Doris

Abstract

The European Union has set itself the goal of increasing its share in renewable energy up to 42.5% by 2030 by accelerating the clean energy transition plan. National legislation within the Member States must now adapt the strategic plans to rapidly implement their allocation in renewable energy. Solar photovoltaics are in this context considered to be one of the technologies that could rapidly be rolled out, with both building-integrated as well as free-field photovoltaic systems needed to reach these ambitious goals. There are strong arguments for prioritizing photovoltaics on buildings, as they make use of land that is already sealed, and the environmental impact is considered lower as fewer resources might be needed for the structures holding the panels. However, since there is limited literature available to back this claim with quantitative data, this paper presents a comparative study of the structures needed to implement rooftop versus free-field photovoltaic applications. With a detailed life cycle analysis, several commonly used structures have been analyzed in relation to their environmental impact. The findings show that the impact on resources can be up to 50% lower in rooftop systems compared with free-field applications but that a series of site- and material-related factors need to be considered to prioritize one system over another on a regional scale. This study thus aims at providing fact-based decision support for strategic considerations related to photovoltaic implementation plans. [ABSTRACT FROM AUTHOR]

Published

2023

9. Launching the VASCO Citizen Science Project.

Author

Villarroel, Beatriz, Pelckmans, Kristiaan, Solano, Enrique, Laaksoharju, Mikael, Souza, Abel, Dom, Onyeuwaoma Nnaemeka, Laggoune, Khaoula, Mimouni, Jamal, Guergouri, Hichem, Mattsson, Lars, García, Aurora Lago, Soodla, Johan, Castillo, Diego, Shultz, Matthew E., Aworka, Rubby, Comerón, Sébastien, Geier, Stefan, Marcy, Geoffrey W., Gupta, Alok C., and Bergstedt, Josefine

Subjects

CITIZEN science, BIG data, ASTRONOMICAL surveys, INFRARED imaging, INSPECTION & review, MACHINE learning, RADIO telescopes

Abstract

The Vanishing & Appearing Sources during a Century of Observations (VASCO) project investigates astronomical surveys spanning a time interval of 70 years, searching for unusual and exotic transients. We present herein the VASCO Citizen Science Project, which can identify unusual candidates driven by three different approaches: hypothesis, exploratory, and machine learning, which is particularly useful for SETI searches. To address the big data challenge, VASCO combines three methods: the Virtual Observatory, user-aided machine learning, and visual inspection through citizen science. Here we demonstrate the citizen science project and its improved candidate selection process, and we give a progress report. We also present the VASCO citizen science network led by amateur astronomy associations mainly located in Algeria, Cameroon, and Nigeria. At the moment of writing, the citizen science project has carefully examined 15,593 candidate image pairs in the data (ca. 10% of the candidates), and has so far identified 798 objects classified as "vanished". The most interesting candidates will be followed up with optical and infrared imaging, together with the observations by the most potent radio telescopes. [ABSTRACT FROM AUTHOR]

Published

2022

10. Spin rates of V-type asteroids.

Author

Oszkiewicz, Dagmara, Troianskyi, Volodymyr, Föhring, Dóra, Galád, Adrián, Kwiatkowski, Tomasz, Marciniak, Anna, Skiff, Brian A., Geier, Stefan, Borczyk, Wojciech, Moskovitz, Nicholas A., Kankiewicz, Paweł, Gajdoš, Štefan, Világi, Jozef, Polčic, L'udovít, Kluwak, Tomasz, Wilawer, Emil, Kashuba, Volodymyr, Udovichenko, Sergei, Keir, Leonid, and Kamiński, Krzysztof

Subjects

ASTEROIDS, SOLAR system, DISTRIBUTION (Probability theory), HEAT radiation & absorption, SMALL solar system bodies, FAMILY leave

Abstract

Context. Basaltic V-type asteroids play a crucial role in studies of Solar System evolution and planetesimal formation. Comprehensive studies of their physical, dynamical, and statistical properties provide insight into these processes. Thanks to wide surveys, currently there are numerous known V-type and putative V-type asteroids, allowing a detailed statistical analysis. Aims. Our main goal is to analyze I corrected for US language conventions in this paper the currently available large sample of V-type spin rates, to find signatures of the non-gravitational Yarkovsky–O'Keefe–Radzievskii–Paddack (YORP) effect among the different V-type populations, and to estimate the spin barrier and critical density for V-type asteroids. Our intention is to increase the pool of information about the intriguing V-types. Methods. We collected rotational periods from the literature for spectrally confirmed V-types, putative V-types, and Vesta family members. Through spectroscopic observations we confirmed their taxonomic type and verified the high confirmation rates of the putative V-types. We combined the collected periods with periods estimated in this manuscript and produced rotational frequency distributions. We determined the spin barrier in the frequency–light curve amplitude space for V-type asteroids. Results. We analyzed rotational periods of 536 asteroids in our sample. As expected, due to the small size of the objects analyzed, the frequency distributions for the Vesta family and the V-types outside the family are inconsistent with a Maxwellian shape. The Vesta family shows an excess of slow-rotators. V-types outside the family show an excess of both slow and fast rotators. Interestingly, we found that the population of V-types outside the Vesta family shows a significant excess of fast rotators compared to the Vesta family. The estimated critical density for V-type asteroids exceeds ρc = 2.0 g cm−3, which surpasses the previous estimates. Conclusions. We demonstrated that V-type asteroids have been influenced by the thermal radiation YORP effect and that their critical spin rate is higher than for C-type asteroids. The population of V-types outside the Vesta family shows a significant excess of fast rotators compared to the Vesta family. We hypothesize that the objects that evolved from the Vesta family though the Yarkovsky drift are also more susceptible to the YORP effect. Objects for which YORP has not yet had enough time to act and those that are more YORP resistant will be left in the family, which explains the relatively small proportion of fast rotators being left. The YORP timescale must thus be similar to the migration timescale for those objects. [ABSTRACT FROM AUTHOR]

Published

2020

11. Physical and dynamical properties of the unusual V-type asteroid (2579) Spartacus.

Author

Oszkiewicz, Dagmara, Kryszczyńska, Agnieszka, Kankiewicz, Paweł, Moskovitz, Nicholas A., Skiff, Brian A., Leith, Thomas B., Ďurech, Josef, Włodarczyk, Ireneusz, Marciniak, Anna, Geier, Stefan, Fedorets, Grigori, Troianskyi, Volodymyr, and Föhring, Dóra

Subjects

ASTEROIDS, THERMAL properties, TELESCOPES, ROTATIONAL motion

Abstract

Context. Asteroid (2579) Spartacus is a small V-type object located in the inner main belt. This object shows spectral characteristics unusual for typical Vestoids, which may indicate an origin deeper than average within Vesta or an origin from an altogether different parent body. Aims. Our main goal is to study the origin of Spartacus. We derive the spin of Spartacus and a convex shape model of Spartacus in order to increase the knowledge of the body's physical properties. The rotational parameters are then used to investigate dynamical evolution of the object as well as to distinguish regions sampled by spectral observations to determine whether its surface displays heterogeneity. Methods. We collected lightcurves available from the literature (oppositions of 2009, 2012) and obtained additional photometric observations at various telescopes in 2016, 2017, and 2018. We used the lightcurve inversion method to derive a spin and convex shape model. We have collected spectral observations over two rotational periods of Spartacus and determined its spectral parameters using the modified Gaussian model (MGM). We then dynamically integrated the orbital elements of Spartacus, taking into account existing information, including its thermal properties, size and the derived spin axis orientation. Results. We find two models for (2579) Spartacus: (a) λ = 312° ± 5°, β = −57° ± 5° and (b) λ = 113° ± 5°, β = −60° ± 5° both retrograde. We find that the drift direction for Spartacus is consistent with separation from Vesta, and after a backward integration of 1 Gyr the asteroid reaches the boundary of the family. We did not observe spectral variations with rotation, thus the body most likely has a homogeneous surface. Additionally, new spectral analysis indicates that the 1.0 and 2.0 μm band centers are within ranges that are typical for Vestoids while the area ratio of these bands is about half that of typical Vestoids. Conclusions. The asteroid (2579) Spartacus is in retrograde rotation and has a drift direction consistent with an origin from Vesta. The revised spectral band centers are within ranges typical for Vestoids, while band area ratio (BAR) is unusually low compared to that of other V-types. The dynamical model shows that the asteroid could have migrated to its current location from the edges of the Vesta family within 1 Gyr, but an origin from an earlier impact on Vesta could also be plausible. [ABSTRACT FROM AUTHOR]

Published

2019