1 / 11

Physics 681: Solar Physics and Instrumentation – Lecture 20

Physics 681: Solar Physics and Instrumentation – Lecture 20. Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research. Internal Angular Velocity. Angular velocity Ω ( r , θ ) and meridional circulation

gay-torres
Download Presentation

Physics 681: Solar Physics and Instrumentation – Lecture 20

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Physics 681: Solar Physics and Instrumentation – Lecture 20 Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research

  2. Internal Angular Velocity • Angular velocity Ω(r, θ) and meridional circulation • Solar rotation removes the (2l + 1)-fold degeneracy of the frequencies of non-radial p-mode of degree l • Inversion of the frequency splitting  angular velocity as a function of depth Ω(r ) • Multiplets with non-equidistant frequency spacing  angular velocity as a function of latitude Ω(θ) • Strong gradients of Ω(r, θ) near the surface r = 0.95 and at the bottom of the convection zone r = 0.7 • Transition from solid-body rotation of the radiative core to differentially rotating convection zone  solar tachocline • The angular velocity of the core matches the surface rotation at about ±30° (≈435 nHz) • Shear results from non-uniform rotation  converts poloidal to torroidal magnetic fields  αΩdynamo  solar activity Center for Solar-Terrestrial Research

  3. Kosovichev et al. (1997) Center for Solar-Terrestrial Research

  4. Bertello et al. (2000) Center for Solar-Terrestrial Research

  5. Angular Velocity at the Surface • Measuring the solar surface rotation is complicated by the presence of other velocity fields • Surface rotation is represented in the form • The coefficients A, B, and C are determined by a least-square fit to the measurements • Gegenbauer and Legendre polynomials • A represents the equatorial rotation rate (≈14.5°/day) • Old (recurrent) sunspots rotate slower than the average sunspot • The parameter C corresponds to high latitudes  not meaningful for sunspots, which do not occur at latitudes higher than ≈40° • Tracers include prominences, EUV bright points, coronal holes, … • Coronal holes seem to rotate rigidly Center for Solar-Terrestrial Research

  6. Schröter (1985) Center for Solar-Terrestrial Research

  7. Timothy et al. (1975) Center for Solar-Terrestrial Research

  8. Variability • Variations of the Sun’s angular velocity (small effect ≈0.1°/day) • The whole solar surface slowly speeds up and slows down in unison • “Torsional Oscillator” (equatorial retardation ≈0.04°/day and wave-like periodic variation) • 11-year periodicity Howe, Komm, & Hill (2000) Center for Solar-Terrestrial Research

  9. Meridional Circulation • Axisymmetric longitudinally averaged north-south and radial velocity components • LOS component of meridional circulation ≈10 m/s, same order of magnitude as measurement errors • Equatorward flow at latitudes lower than ≈25° • Poleward flow at higher latitudes • Dividing line corresponds to the central latitude of the sunspot zone • Antisymmetric component: northward flow around ±15° • Same symmetries a visible in giant cell patterns and large-scale magnetic field • Meridional flow patter extents to a depth of ≈107 m • No proper theoretical description, yet! Center for Solar-Terrestrial Research

  10. Howard & Gilman (1986) Center for Solar-Terrestrial Research

  11. Haber et al. (2000) Center for Solar-Terrestrial Research

More Related