Utilization of independent solar flux measurements to eliminate nongeochemical variation in X-ray fluorescence data.
Abstract
It is shown that the direct method of solar activity correction for lunar XRF data produces XRF data with better statistics than uncorrected data. Direct measurements of the solar flux made by Solrad 10 are converted to emissions of the sun from two assumed temperature regions. These emissions are ratioed to produce emission measure ratios, sensitive indicators of shifts in solar activity. The Tucker-Koren model (1971) of the solar flux is used in the calculation of EMRs and in the calculation of theoretical lunar Si, Al, and Mg fluorescence of maria and highland soils. Al/Si(Mg/Si) ratios calculated at a 'normal' EMR of 0.030 are divided by Al/Si(Mg/Si) ratios at particular EMRs. The relationship between EMR and the quotients of this division, called 'correction factors', is well explained by empirically derived power law functions.
- Publication:
-
Lunar and Planetary Science Conference Proceedings
- Pub Date:
- 1978
- Bibcode:
- 1978LPSC....9.3029C
- Keywords:
-
- Error Correcting Devices;
- Selenology;
- Solar Activity Effects;
- Solar Flux;
- X Ray Fluorescence;
- Aluminum;
- Lunar Soil;
- Magnesium;
- Silicon;
- Solar X-Rays;
- X-RAY FLUORESCENCE;
- ALUMINUM;
- MAGNESIUM;
- SILICON;
- PHOTON FLUX;
- DATA;
- REMOTE SENSING;
- LASER ALTIMETER;
- Lunar and Planetary Exploration; Space Exploration;
- Moon Surface:Solar Activity