End-to-End Models for Effects of System Noise on LIMS Analysis of Igneous Rocks

Clegg, Samuel M; Bender, Steven; Wiens, R C; Carmosino, Marco L; Speicher, Elly A; Dyar, M D

Title: End-to-End Models for Effects of System Noise on LIMS Analysis of Igneous Rocks

Conference · Thu Dec 23 00:00:00 EST 2010

OSTI ID:1044915

Clegg, Samuel M ^[1]; Bender, Steven ^[1]; Wiens, R C ^[1]; Carmosino, Marco L ^[2]; Speicher, Elly A ^[2]; Dyar, M D ^[2]

Los Alamos National Laboratory
MT. HOLYOKE COLLEGE

The ChemCam instrument on the Mars Science Laboratory will be the first extraterrestial deployment of laser-induced breakdown spectroscopy (UBS) for remote geochemical analysis. LIBS instruments are also being proposed for future NASA missions. In quantitative LIBS applications using multivariate analysis techniques, it is essential to understand the effects of key instrument parameters and their variability on the elemental predictions. Baseline experiments were run on a laboratory instrument in conditions reproducing ChemCam performance on Mars. These experiments employed Nd:YAG laser producing 17 mJ/pulse on target and an with a 200 {micro}m FWHM spot size on the surface of a sample. The emission is collected by a telescope, imaged on a fiber optic and then interfaced to a demultiplexer capable of >40% transmission into each spectrometer. We report here on an integrated end-to-end system performance model that simulates the effects of output signal degradation that might result from the input signal chain and the impact on multivariate model predictions. There are two approaches to modifying signal to noise (SNR): degrade the signal and/or increase the noise. Ishibashi used a much smaller data set to show that the addition of noise had significant impact while degradation of spectral resolution had much less impact on accuracy and precision. Here, we specifically focus on aspects of remote LIBS instrument performance as they relate to various types of signal degradation. To assess the sensitivity of LIBS analysis to signal-to-noise ratio (SNR) and spectral resolution, the signal in each spectrum from a suite of 50 laboratory spectra of igneous rocks was variably degraded by increasing the peak widths (simulating misalignment) and decreasing the spectral amplitude (simulating decreases in SNR).

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Research Organization:: Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC52-06NA25396

OSTI ID:: 1044915

Report Number(s):: LA-UR-10-08458; LA-UR-10-8458; TRN: US201214%%580

Resource Relation:: Conference: 42nd Lunar and Planetary Science Conference ; March 7, 2011 ; The Woodlands, TX

Country of Publication:: United States

Language:: English

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Related Subjects

47 OTHER INSTRUMENTATION
37 INORGANIC
ORGANIC
PHYSICAL AND ANALYTICAL CHEMISTRY
ACCURACY
AMPLITUDES
BREAKDOWN
FIBER OPTICS
IGNEOUS ROCKS
LASERS
MULTIVARIATE ANALYSIS
NASA
PERFORMANCE
RESOLUTION
SENSITIVITY
SIGNAL-TO-NOISE RATIO
SPECTRA
SPECTROSCOPY
TARGETS

Title: End-to-End Models for Effects of System Noise on LIMS Analysis of Igneous Rocks

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