Searching for northern roap stars: the UBC-OAN photometric survey

Searching for northern roap stars: the UBC-OAN photometric survey

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Because they pulsate in multiple high-overtone p-modes, rapidly oscillating Ap stars (roAp) represent a very powerful tool to apply the techniques of asteroseismology, which can lead to the global properties and internal structure of stars. The majority of roAp stars are in the Southern Hemispher...

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Main Author: Chagnon, François
Format: Others
Language:English
Published: 2009
Online Access:http://hdl.handle.net/2429/8021
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-80212018-01-05T17:33:58Z Searching for northern roap stars: the UBC-OAN photometric survey Chagnon, François Because they pulsate in multiple high-overtone p-modes, rapidly oscillating Ap stars (roAp) represent a very powerful tool to apply the techniques of asteroseismology, which can lead to the global properties and internal structure of stars. The majority of roAp stars are in the Southern Hemisphere, beyond the reach of northern observatories like CFHT and DAO, which have superb coude spectrographs that can help reveal additional modes and clues to the pulsation dynamics. To try to correct this imbalance, we began a systematic search for roAp stars in the Northern Hemisphere. The UBC-OAN roAp star Survey was conducted with the 84-cm and 1.5-m telescopes at the Observatorio Astronomico Nacional (OAN) in Mexico, equipped with a single-channel photoelectric photometer and a Johnson B filter. During 28 nights in July/August 1997 and 16 nights in May/June 1998, we monitored about 50 cool A-Fp stars with time resolution of less than a minute. The reduced data were Fourier analysed to search for periodic signals and we were generally sensitive to amplitudes as small as 0.3 millimagnitude in the period range of 4-15 min. We have made one detection, HD 10088, which shows two periods near 9.3 and 10.6 min, and amplitudes of about 1.6 and 1.3 mmag respectively, at the 99% confidence level. A tentative candidate, HD 3883, with period near 9.2 min and amplitude around 1.35 mmag is highlighted for further study. We also observed the known roAp star 10 Aql (HD 176232) and detected its main pulsation at a period near 11.5 min, the largest amplitude yet observed for this star. Finally, we independently confirm the newly discovered roAp star HD 122970 (Handler & Paunzen 1998) and combine our data with those of a global campaign (Handler et al. 1998) to infer some of the characteristics of this star. Science, Faculty of Physics and Astronomy, Department of Graduate 2009-05-20T23:04:43Z 2009-05-20T23:04:43Z 1998 1998-11 Text Thesis/Dissertation http://hdl.handle.net/2429/8021 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. 4818304 bytes application/pdf
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description Because they pulsate in multiple high-overtone p-modes, rapidly oscillating Ap stars (roAp) represent a very powerful tool to apply the techniques of asteroseismology, which can lead to the global properties and internal structure of stars. The majority of roAp stars are in the Southern Hemisphere, beyond the reach of northern observatories like CFHT and DAO, which have superb coude spectrographs that can help reveal additional modes and clues to the pulsation dynamics. To try to correct this imbalance, we began a systematic search for roAp stars in the Northern Hemisphere. The UBC-OAN roAp star Survey was conducted with the 84-cm and 1.5-m telescopes at the Observatorio Astronomico Nacional (OAN) in Mexico, equipped with a single-channel photoelectric photometer and a Johnson B filter. During 28 nights in July/August 1997 and 16 nights in May/June 1998, we monitored about 50 cool A-Fp stars with time resolution of less than a minute. The reduced data were Fourier analysed to search for periodic signals and we were generally sensitive to amplitudes as small as 0.3 millimagnitude in the period range of 4-15 min. We have made one detection, HD 10088, which shows two periods near 9.3 and 10.6 min, and amplitudes of about 1.6 and 1.3 mmag respectively, at the 99% confidence level. A tentative candidate, HD 3883, with period near 9.2 min and amplitude around 1.35 mmag is highlighted for further study. We also observed the known roAp star 10 Aql (HD 176232) and detected its main pulsation at a period near 11.5 min, the largest amplitude yet observed for this star. Finally, we independently confirm the newly discovered roAp star HD 122970 (Handler & Paunzen 1998) and combine our data with those of a global campaign (Handler et al. 1998) to infer some of the characteristics of this star. === Science, Faculty of === Physics and Astronomy, Department of === Graduate
author Chagnon, François
spellingShingle Chagnon, François
Searching for northern roap stars: the UBC-OAN photometric survey
author_facet Chagnon, François
author_sort Chagnon, François
title Searching for northern roap stars: the UBC-OAN photometric survey
title_short Searching for northern roap stars: the UBC-OAN photometric survey
title_full Searching for northern roap stars: the UBC-OAN photometric survey
title_fullStr Searching for northern roap stars: the UBC-OAN photometric survey
title_full_unstemmed Searching for northern roap stars: the UBC-OAN photometric survey
title_sort searching for northern roap stars: the ubc-oan photometric survey
publishDate 2009
url http://hdl.handle.net/2429/8021
work_keys_str_mv AT chagnonfrancois searchingfornorthernroapstarstheubcoanphotometricsurvey
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