Spectroscopy of Stratospheric Molecular O3 Christy Predaina University of Colorado at Boulder Colorado Space Grant Consortium April 4, 2005
Presentation Overview Ozone in the Atmosphere Spectroscopy Chemistry CX 1 Mission Overview Three main science instruments Spectrophotometer Photometer Ground Based Aerosol Meter CX 1 Data Analysis & TOMS Algorithm
Ozone in the Atmosphere Blocks all UV-C radiation 200-290 nm Blocks most UV-B radiation 290-320 nm 320 to 400 UV-B and UV-C radiation are harmful to living organisms because they can be absorbed by the nucleic acid in cells A 1 % decrease in atmospheric ozone causes UV-B to increase about 2 % at the Earth’s surface
Spectroscopy Break down light into wavelengths using a grating What is Spectroscopy? The study of the interaction of electromagnetic radiation with matter Break down light into wavelengths using a grating Each wavelength intensity measured separately Comparison of measured wavelength intensities is basics of Spectroscopy
Hartley and Huggins Bands O3 Absorption Hartley Band 200- 310 nm Huggins Band 310-350 nm
Chemistry of Stratospheric O3 Production of O3 UV-C helps produce O3 Protection of Earth by O3
Chemistry of Stratospheric O3 Destruction of O3 Nitrogen Oxide Chlorine
CX 1 Mission Overview
CX 1 Data Collection Overview Spectrophotometer measures backscattered UV to determine ozone levels Photometer measures albedo to calibrate backscattered signal K-12 students measure UV on ground Students also measure aerosols (smog, brown cloud, haze, etc.) which partially block visible and UV light
CX 1 Science Subsystem Spectrophotometer – “Speck” Photometer – “Mo”
Spectrophotometer - “Spec”
Spec - Optical Layout Optical Features 280 - 350 nm Range 5 nm Resolution 7 x 0.5 ° FOV Delrin/Graphite Baffles
Spec - Ray Trace Ray trace for Speck showing the n= -1 diffraction from 280 - 350 nm.
Photometer – “Mo” Measures albedo of swath for calibration Consists of an aperture, a lens, a filter, and a photodiode
Ground Instruments Measure aerosols in atmosphere Reflected Sunlight Transmitted Measure aerosols in atmosphere Measure UV light reaching ground Study UV absorption of aerosols Compare ground measurements to satellite measurements Compare theoretical and experimental intensity readings Provide a hands on learning experience for students Create a ground based map of aerosols
Radiative Transfer Model CX 1 Data Analysis ADS Mission Ops Photometer Weather Satellites [O3], [Aerosol] Viewing Geometry Global Position Planetary Albedo Cloud Cover Initial Guess Atmospheric Model Optical Depth Single Scatter Albedo Radiative Transfer Model DISORT N-Value Matching N-Values? D[O3], D[Aerosol] No N-Value SPECK Pair Ratios Yes Mission Ops
TOMS Algorithm Wavelength Pairs Method One sensitive to UV absorption One insensitive to UV absorption Ratio tells absorption by Ozone Combines all variables measured by satellite and ground such as: Wavelength Viewing Geometry Global positioning Albedo Reflectivity / Cloud Cover Aerosols Produces ozone value
Presentation Review Ozone in the Atmosphere Spectroscopy Chemistry CX 1 Mission Overview Three main science instruments Spectrophotometer Photometer Ground Based Aerosol Meter CX 1 Data Analysis & TOMS Algorithm
Questions
Mission Requirements Requirement Met By: Detectable Ozone Trends Operations Nadir FOV = 6.9 x 0.57 degrees Structure / Mounting Low thermal noise / thermal stability Passive cooling Integration times ~ 0.1 sec. Dynamically chosen in flight Dynamic Range > 1000 Multiple OpAmps Spectral Resolution < 5 nm Telescope / Slit geometry
Error Budget Item Error Passed Requirement Statistical Sampling < 10% Instrument S/N > 10 Modeling Scattering Line Profile < 3% < 5 nm Bandpass Pair-wise measurements within 20 nm of each other Radiometric Calibration Ground Characterization Wavelength Calibration < 1% Solar Irradiant < 5% Corrected in flight measurements Total Error 15.6 %
Passed Requirement (Base/Min.) Science Requirements Mission Baseline/ Minimal Performance Passed Requirement (Base/Min.) Detectable Ozone Trends 2 / 5 % Daily measurements of same location Ground measurements Cost ~ $ 100.00 Simple remote sensing instrument Instrument S/N Spectral Resolution Detector Thermal Noise < 10% of total detector noise Instrument Thermal Stability Dynamic Range > 5000/1000 Integration Time ~ 0.1/0.05 sec. 2.5/5 nm Detector Temp.< 10/22 C Instrument DT < 20 C Variable gain / 16 bit data Data Rate Infrared Field of Vision (IFOV) =6.9/6.9 x 0.57x0.34 degrees FP(700 km)=168/168 x 14/8.4 km Payload/Spacecraft Internal Volume Instrument:15 x 15 x 8 cm Payload: 16 x 16 x 9 cm Weight Instrument: 1 kg Payload < 1.75 kg Power < 0.75 W 15 V < 1 W