Accession Number:

ADA413912

Title:

Surface Layer Stability Transition Research Maximum Time Delay from Sunrise/Non-Ideal Conditions: 2001 June Case Study

Descriptive Note:

Final rept.

Corporate Author:

ARMY RESEARCH LAB ADELPHI MD COMPUTATIONAL AND INFORMATION SCIENCES DIRECTORATE

Report Date:

2003-05-01

Pagination or Media Count:

58.0

Abstract:

Near surface target acquisition and EO propagation significantly improve during the Surface Layer Stability Transition SLST. Thus, this research expands Army Chief of Staff Shinsekis vision from to see first to, to see better. The SLST is also the starting and ending points for the atmospheric convection growth phase, an important factor in chemical warfare modeling. In 2001, the Meteorological-sensors Integration Team of the Army Research Laboratory conducted the second of three field tests with the primary purpose of characterizing, modeling and exploiting repeatable patterns in the lower portion of the atmospheric boundary layer. The repeatable patterns investigated were the morning Stability Transitions ST or Neutral Events NE. The 2001 June 2O-22 test dates were selected based on a forecasted maximum time interval between the local Sunrise and an Ideal case NE. Two other field tests addressed the minimum Sunrise-to-NE time interval March and September. These Tests are documented separately. The SLST Research pursued two measurement and analysis methods Eulerian Tower data and quasi-Lagrangian Rawinsonde data. The June results were as unexpected as the atypical Monsoon weather conditions observed. Excellent examples of Extended and Multiple STs were quantified by the data. A ST lasting at least 26 minutes surprised scientists by occurring well before sunrise and the morning twilight. The cumulative findings over this 2001 Solstice time period have expanded the documented character of a desert stable-neutral-unstable morning transition. The information in this report is a useful building block in support of the primary goal.

Subject Categories:

  • Atmospheric Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE