E
Edward J. Rhodes
Researcher at University of Southern California
Publications - 68
Citations - 2647
Edward J. Rhodes is an academic researcher from University of Southern California. The author has contributed to research in topics: Convection zone & Helioseismology. The author has an hindex of 14, co-authored 68 publications receiving 2539 citations. Previous affiliations of Edward J. Rhodes include Jet Propulsion Laboratory & University of California.
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Journal ArticleDOI
The Current State of Solar Modeling
Jørgen Christensen-Dalsgaard,Werner Däppen,S. V. Ajukov,E. Anderson,H. M. Antia,Sarbani Basu,V. A. Baturin,Gabrielle Berthomieu,Brian Chaboyer,S. M. Chitre,Arthur N. Cox,Pierre Demarque,J. Donatowicz,W. A. Dziembowski,M. Gabriel,Douglas Gough,David B. Guenther,Joyce A. Guzik,J. W. Harvey,Frank Hill,G. Houdek,Carlos A. Iglesias,Alexander G. Kosovichev,John Leibacher,Pierre Morel,C. R. Proffitt,Janine Provost,J. Reiter,Edward J. Rhodes,Forrest J. Rogers,Ian W. Roxburgh,Michael Thompson,Roger K. Ulrich +32 more
TL;DR: Data from the GONG project and other helioseismic experiments reveal subtle errors in the models, such as an excess in sound speed just beneath the convection zone, which is plausible that the sound-speed differences reflect weak mixing in stellar interiors.
Journal ArticleDOI
Differential Rotation and Dynamics of the Solar Interior
Michael Thompson,Juri Toomre,E. Anderson,H. M. Antia,Gabrielle Berthomieu,D. Burtonclay,S. M. Chitre,Joergen Christensen-Dalsgaard,Thierry Corbard,Marc L. DeRosa,Christopher R. Genovese,Douglas Gough,Deborah A. Haber,J. W. Harvey,Frank Hill,R. Howe,Sylvain G. Korzennik,Alexander G. Kosovichev,John Leibacher,Frank P. Pijpers,Janine Provost,Edward J. Rhodes,Jesper Schou,Takashi Sekii,Philip B. Stark,P. R. Wilson +25 more
TL;DR: Frequency splittings derived from GONG observations confirm that the variation of rotation rate with latitude seen at the surface carries through much of the convection zone, at the base of which is an adjustment layer leading to latitudinally independent rotation at greater depths.
Book ChapterDOI
Structure and rotation of the solar interior: initial results from the MDI medium-l program
Alexander G. Kosovichev,Jesper Schou,Philip H. Scherrer,R. S. Bogart,R. I. Bush,J. T. Hoeksema,J. Aloise,L. Bacon,A. Burnette,C. De Forest,P. M. Giles,K. Leibrand,R. Nigam,M. Rubin,K. Scott,S. D. Williams,Sarbani Basu,Joergen Christensen-Dalsgaard,Werner Däppen,Edward J. Rhodes,Thomas L. Duvall,R. Howe,Michael Thompson,Douglas Gough,Takashi Sekii,Juri Toomre,Theodore D. Tarbell,Alan M. Title,D. Mathur,M. Morrison,J. L. R. Saba,C. J. Wolfson,I. Zayer,P. N. Milford +33 more
TL;DR: In this article, the Michelson Doppler Imager instrument on board SOHO provides continuous observations of oscillation modes of angular degree, l, from 0 to ∼ 300.
Journal ArticleDOI
Speed of sound in the solar interior
TL;DR: The sound speed of the solar interior is directly determinable on the basis of the frequencies of solar 5-min oscillations, irrespective of solar model, and relying only on a simple asymptotic description of the oscillations in terms of trapped acoustic waves as discussed by the authors.
Journal ArticleDOI
The Solar Acoustic Spectrum and Eigenmode Parameters
Frank Hill,Philip B. Stark,Robin T. Stebbins,E. Anderson,H. M. Antia,Timothy M. Brown,Thomas L. Duvall,Deborah A. Haber,J. W. Harvey,David H. Hathaway,R. Howe,R. P. Hubbard,Harrison P. Jones,J. R. Kennedy,Sylvain G. Korzennik,Alexander G. Kosovichev,John Leibacher,Kenneth G. Libbrecht,J. A. Pintar,Edward J. Rhodes,Jesper Schou,Michael Thompson,Steven Tomczyk,C. G. Toner,R. Toussaint,W. E. Williams +25 more
TL;DR: The GONG m-averaged frequency measurements differ from other helioseismic data sets by 0.03 to 0.08 microhertz; the differences arise from a combination of systematic errors, random errors, and possible changes in solar structure.