1 / 12

Refractivity During IHOP_2002

Refractivity During IHOP_2002. Tammy M. Weckwerth (NCAR/ATD), Crystalyne R. Pettet (NCAR/ATD), Frédéric Fabry (McGill University), ShinJu Park (McGill University) and James W. Wilson (NCAR/ATD). c d( Ф – Ф o ) —— ———— 4 π f dr. Refractive index: n – n o =.

lena
Télécharger la présentation

Refractivity During IHOP_2002

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. Refractivity During IHOP_2002 Tammy M. Weckwerth (NCAR/ATD), Crystalyne R. Pettet (NCAR/ATD), Frédéric Fabry (McGill University), ShinJu Park (McGill University) and James W. Wilson (NCAR/ATD)

  2. c d(Ф – Фo) —— ———— 4πf dr Refractive index: n – no = Radar Measurements of Refractive Index Target phase—phase measured at fixed ground targets 4πf —— r n c Target phase: Ф(r) = 2πf ttravel(r) =

  3. Radar Measurements of Refractive Index For fixed targets, phase will change as n changes.

  4. Radar Measurements of Refractive Index

  5. Determining Refractivity Field • Calibration file—Calculate phase changes returned from (and between) stationary ground targets at a time of uniform temperature, pressure, and moisture across the field • Refractivity field—Calculate differences in phase between current time and calibration file.

  6. N = Refractivity near the surface • N = (n – 1) 106 where n is the index of refraction • N = f(e, T, P) • N changes as air mass properties (moisture and temperature) change • For conditions of T = 28ºC, p = 910 mb, q = 7 g kg-1, • Δ1ºC = Δ1 N units • Δ1 mb = Δ0.3 N units • Δ1 g kg-1 = Δ6 N units

  7. S-Pol Refractivity Data • 24/7 operations from 1450 UTC 13 May 2002 through 1345 UTC 26 June 2002 • Refractivity scan every 5 min • Preliminary data on: http://www.atd.ucar.edu/rtf/projects/ihop_2002/ spol/summary/N_quicklook/img_viewer.html

  8. warm/dry cool/moist Preliminary data on: http://www.atd.ucar.edu/rtf/projects/ihop_2002/spol/summary/ N_quicklook/img_viewer.html

  9. Intercomparisons to Come

  10. Refractive Index and Meteorology N = Refractivity N = (n – 1) 106 where n is the index of refraction N = 77.6 P / T + 373000 e / T2 Density termmoisture term During warm season, N varies most strongly with water vapor.

  11. warm/dry cool/moist

More Related