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Work Package 2 – Overview of instrumentation, data gathering and calibration issues Lidar Calibration Ewan O’Connor, Anthony Illingworth and Robin Hogan.

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Presentation on theme: "Work Package 2 – Overview of instrumentation, data gathering and calibration issues Lidar Calibration Ewan O’Connor, Anthony Illingworth and Robin Hogan."— Presentation transcript:

1 Work Package 2 – Overview of instrumentation, data gathering and calibration issues Lidar Calibration Ewan O’Connor, Anthony Illingworth and Robin Hogan Progress meeting 3 –Reading – 24-25 Oct 2002

2 Calibration technique  ’=1/2  k Use Mie theory for spherical droplets. k is constant for cloud droplets (D=8-30  m).

3 Multiple scattering Calculate  as a function of range using Eloranta’s model (1998). Need to know laser divergence and telescope FOV.

4 Aerosol k in aerosol variable  therefore extinction unknown  effect on calibration unknown Current solution: Reject profile for calibration if  a > than some predetermined value

5 Validation – UV Raman lidar Calibrate UV Raman lidar with molecular backscatter. To validate – need to calculate atmospheric transmission at both wavelengths and the value of  for each instrument.

6 Validation – UV Raman lidar Calibrate UV Raman lidarCompare calibrated CT75K ceilometer

7 Validation – UV Raman lidar Step 1. Calibrate both lidars Step 2. Adjust for differences in atmospheric transmission Step 3. Adjust for differences in multiple scattering

8 Validation in space – LITE

9 CT75K – solar background

10

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