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dc.contributor.authorGascoyne, A.
dc.contributor.authorJain, R.
dc.contributor.authorHindman, B. W.
dc.date.accessioned2018-01-17T11:37:54Z
dc.date.available2018-01-17T11:37:54Z
dc.date.issued2014-06-19
dc.identifier.citationGascoyne, A., Jain, R. and Hindman, B.W. (2014) Energy loss of solar p modes due to the excitation of magnetic sausage tube waves: importance of coupling the upper atmosphere, The Astrophysical Journal, 789 (2):109
dc.identifier.issn0004-637X
dc.identifier.issn1538-4357
dc.identifier.doi10.1088/0004-637X/789/2/109
dc.identifier.urihttp://hdl.handle.net/2436/621037
dc.descriptionThis is an accepted manuscript of an article published by American Astronomical Society in Astrophysical Journal on 19/06/2014, available online: https://doi.org/10.1088/0004-637X/789/2/109 The accepted version of the publication may differ from the final published version.
dc.description.abstractWe consider damping and absorption of solar p modes due to their energy loss to magnetic tube waves that can freely carry energy out of the acoustic cavity. The coupling of p modes and sausage tube waves is studied in a model atmosphere composed of a polytropic interior above which lies an isothermal upper atmosphere. The sausage tube waves, excited by p modes, propagate along a magnetic fibril which is assumed to be a vertically aligned, stratified, thin magnetic flux tube. The deficit of p-mode energy is quantified through the damping rate, Γ, and absorption coefficient, α. The variation of Γ and α as a function of frequency and the tube's plasma properties is studied in detail. Previous similar studies have considered only a subphotospheric layer, modeled as a polytrope that has been truncated at the photosphere. Such studies have found that the resulting energy loss by the p modes is very sensitive to the upper boundary condition, which, due to the lack of an upper atmosphere, have been imposed in a somewhat ad hoc manner. The model presented here avoids such problems by using an isothermal layer to model the overlying atmosphere (chromosphere, and, consequently, allows us to analyze the propagation of p-mode-driven sausage waves above the photosphere. In this paper, we restrict our attention to frequencies below the acoustic cut off frequency. We demonstrate the importance of coupling all waves (acoustic, magnetic) in the subsurface solar atmosphere with the overlying atmosphere in order to accurately model the interaction of solar f and p modes with sausage tube waves. In calculating the absorption and damping of p modes, we find that for low frequencies, below ≈3.5 mHz, the isothermal atmosphere, for the two-region model, behaves like a stress-free boundary condition applied at the interface (z = –z 0).
dc.description.sponsorshipSTFC (UK) and NASA grants NNX09AB04G, NNX14AC05G, and NNX14AG05G
dc.language.isoen
dc.publisherIOP Publishing
dc.relation.urlhttp://stacks.iop.org/0004-637X/789/i=2/a=109?key=crossref.12fa799fd6cc98cde74ef0a63642f649
dc.subjectmagnetohydrodynamics (MHD)
dc.subjectSun: chromosphere
dc.subjectSun: helioseismology
dc.subjectSun: magnetic fields
dc.subjectSun: oscillations
dc.subjectwaves
dc.titleEnergy loss of solar p modes due to the excitation of magnetic sausage tube waves: importance of coupling the upper atmosphere
dc.typeJournal article
dc.identifier.journalThe Astrophysical Journal
dc.identifier.articlenumber109
dc.date.accepted2014-05-22
dc.source.volume789
dc.source.issue2
refterms.dateFOA2018-08-21T14:44:22Z
html.description.abstractWe consider damping and absorption of solar p modes due to their energy loss to magnetic tube waves that can freely carry energy out of the acoustic cavity. The coupling of p modes and sausage tube waves is studied in a model atmosphere composed of a polytropic interior above which lies an isothermal upper atmosphere. The sausage tube waves, excited by p modes, propagate along a magnetic fibril which is assumed to be a vertically aligned, stratified, thin magnetic flux tube. The deficit of p-mode energy is quantified through the damping rate, Γ, and absorption coefficient, α. The variation of Γ and α as a function of frequency and the tube's plasma properties is studied in detail. Previous similar studies have considered only a subphotospheric layer, modeled as a polytrope that has been truncated at the photosphere. Such studies have found that the resulting energy loss by the p modes is very sensitive to the upper boundary condition, which, due to the lack of an upper atmosphere, have been imposed in a somewhat ad hoc manner. The model presented here avoids such problems by using an isothermal layer to model the overlying atmosphere (chromosphere, and, consequently, allows us to analyze the propagation of p-mode-driven sausage waves above the photosphere. In this paper, we restrict our attention to frequencies below the acoustic cut off frequency. We demonstrate the importance of coupling all waves (acoustic, magnetic) in the subsurface solar atmosphere with the overlying atmosphere in order to accurately model the interaction of solar f and p modes with sausage tube waves. In calculating the absorption and damping of p modes, we find that for low frequencies, below ≈3.5 mHz, the isothermal atmosphere, for the two-region model, behaves like a stress-free boundary condition applied at the interface (z = –z 0).


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