The vertical propagation of waves in the solar atmosphere. II Phase delays in the quiet chromosphere and cell-network distinctions

The differences in the phase of the velocity oscillations between a pair of chromospheric Ca II lines was measured using the Vacuum Tower Telescope at the Sacramento Peak Observatory. The observed phase differences indicate that the acoustic modes are trapped or envanescent, rather than propagating...

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Veröffentlicht in:	Astrophys. J.; (United States) 1982-02, Vol.253, p.367
Hauptverfasser:	Lites, B. W., Chipman, E. G., White, O. R.
Format:	Artikel
Sprache:	eng
Schlagworte:	640104 - Astrophysics & Cosmology- Solar Phenomena ATMOSPHERES CALCIUM IONS CHARGED PARTICLES CHROMOSPHERE CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS IONS MAGNETIC FIELDS MATHEMATICAL MODELS OSCILLATIONS PHASE VELOCITY SOLAR ATMOSPHERE SOUND WAVES VELOCITY WAVE PROPAGATION
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container_title	Astrophys. J.; (United States)
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creator	Lites, B. W. Chipman, E. G. White, O. R.
description	The differences in the phase of the velocity oscillations between a pair of chromospheric Ca II lines was measured using the Vacuum Tower Telescope at the Sacramento Peak Observatory. The observed phase differences indicate that the acoustic modes are trapped or envanescent, rather than propagating in the chromosphere. We find systematic distinctions in the phase delays between quiet network and cell interior regions for both intensity and velocity oscillations in photospheric and chromospheric lines. The theory of linear perturbations in a isothermal atmosphere is invoked to interpret these differences. From this analysis we find that one or more of the following explanations is possible. (1) the radiative damping is more effective in the network than in the cell interior; (2) the network features exclude oscillations of large horizontal wavenumber; or (3) the scale height of the chromosphere is larger in the network than in the cell interior.
doi_str_mv	10.1086/159641
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From this analysis we find that one or more of the following explanations is possible. (1) the radiative damping is more effective in the network than in the cell interior; (2) the network features exclude oscillations of large horizontal wavenumber; or (3) the scale height of the chromosphere is larger in the network than in the cell interior.</description><identifier>ISSN: 0004-637X</identifier><identifier>EISSN: 1538-4357</identifier><identifier>DOI: 10.1086/159641</identifier><language>eng</language><publisher>United States</publisher><subject>640104 - Astrophysics & Cosmology- Solar Phenomena ; ATMOSPHERES ; CALCIUM IONS ; CHARGED PARTICLES ; CHROMOSPHERE ; CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ; IONS ; MAGNETIC FIELDS ; MATHEMATICAL MODELS ; OSCILLATIONS ; PHASE VELOCITY ; SOLAR ATMOSPHERE ; SOUND WAVES ; VELOCITY ; WAVE PROPAGATION</subject><ispartof>Astrophys. 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J.; (United States)</title><description>The differences in the phase of the velocity oscillations between a pair of chromospheric Ca II lines was measured using the Vacuum Tower Telescope at the Sacramento Peak Observatory. The observed phase differences indicate that the acoustic modes are trapped or envanescent, rather than propagating in the chromosphere. We find systematic distinctions in the phase delays between quiet network and cell interior regions for both intensity and velocity oscillations in photospheric and chromospheric lines. The theory of linear perturbations in a isothermal atmosphere is invoked to interpret these differences. From this analysis we find that one or more of the following explanations is possible. 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J.; (United States)</jtitle><date>1982-02</date><risdate>1982</risdate><volume>253</volume><spage>367</spage><pages>367-</pages><issn>0004-637X</issn><eissn>1538-4357</eissn><abstract>The differences in the phase of the velocity oscillations between a pair of chromospheric Ca II lines was measured using the Vacuum Tower Telescope at the Sacramento Peak Observatory. The observed phase differences indicate that the acoustic modes are trapped or envanescent, rather than propagating in the chromosphere. We find systematic distinctions in the phase delays between quiet network and cell interior regions for both intensity and velocity oscillations in photospheric and chromospheric lines. The theory of linear perturbations in a isothermal atmosphere is invoked to interpret these differences. From this analysis we find that one or more of the following explanations is possible. (1) the radiative damping is more effective in the network than in the cell interior; (2) the network features exclude oscillations of large horizontal wavenumber; or (3) the scale height of the chromosphere is larger in the network than in the cell interior.</abstract><cop>United States</cop><doi>10.1086/159641</doi></addata></record>
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subjects	640104 - Astrophysics & Cosmology- Solar Phenomena ATMOSPHERES CALCIUM IONS CHARGED PARTICLES CHROMOSPHERE CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS IONS MAGNETIC FIELDS MATHEMATICAL MODELS OSCILLATIONS PHASE VELOCITY SOLAR ATMOSPHERE SOUND WAVES VELOCITY WAVE PROPAGATION
title	The vertical propagation of waves in the solar atmosphere. II Phase delays in the quiet chromosphere and cell-network distinctions
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