Identification of contaminated soil using CO2 laser reflectance ratios

Ram Mohan Narayanan, Mark T. Pflum, Jon D. Schmeeckle

Research output: Contribution to journalConference article

Abstract

A mid-infrared laser reflectance sensor operating within the 9-11 μm wavelength range was used to study the reflectance characteristics of soil contaminated with various commercially available chemical liquid materials. Measurements were made at ten wavelengths and three incidence angles under both co-polarized and cross-polarized scatter conditions. Data were gathered from bare soil, as well as soil saturated with anti-freeze/coolant, unused motor oil, and used motor oil. Calibration was performed using a Labsphere Diffuse Reflectance Standard of 94% nominal reflectivity. The measurements were used to compute reflectance ratios, i.e., ratios of reflectivities at various two-wavelength combinations. Our study indicates that it is possible to detect the presence of as well as to identify the type of contamination present in the soil by computing reflectance ratios at judiciously selected wavelengths. Use of wavelength ratios obviates the need for absolute calibration if the atmospheric transmission characteristics are the same at the two probing wavelengths. This technique is well-suited for standoff detection of contaminated soil.

Original languageEnglish (US)
Pages (from-to)14-25
Number of pages12
JournalProceedings of SPIE - The International Society for Optical Engineering
Volume3382
DOIs
StatePublished - Dec 1 1998
EventAdvances in Laser Remote Sensing for Terristrial and Hydrographic Applications - Orlando, FL, United States
Duration: Apr 13 1998Apr 14 1998

Fingerprint

CO2 Laser
Reflectance
Soil
soils
Wavelength
reflectance
Soils
Lasers
lasers
wavelengths
Reflectivity
Calibration
Oils
Standoff Detection
oils
Mid-infrared
Scatter
Contamination
Infrared lasers
coolants

All Science Journal Classification (ASJC) codes

  • Electrical and Electronic Engineering
  • Condensed Matter Physics

Cite this

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title = "Identification of contaminated soil using CO2 laser reflectance ratios",
abstract = "A mid-infrared laser reflectance sensor operating within the 9-11 μm wavelength range was used to study the reflectance characteristics of soil contaminated with various commercially available chemical liquid materials. Measurements were made at ten wavelengths and three incidence angles under both co-polarized and cross-polarized scatter conditions. Data were gathered from bare soil, as well as soil saturated with anti-freeze/coolant, unused motor oil, and used motor oil. Calibration was performed using a Labsphere Diffuse Reflectance Standard of 94{\%} nominal reflectivity. The measurements were used to compute reflectance ratios, i.e., ratios of reflectivities at various two-wavelength combinations. Our study indicates that it is possible to detect the presence of as well as to identify the type of contamination present in the soil by computing reflectance ratios at judiciously selected wavelengths. Use of wavelength ratios obviates the need for absolute calibration if the atmospheric transmission characteristics are the same at the two probing wavelengths. This technique is well-suited for standoff detection of contaminated soil.",
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Identification of contaminated soil using CO2 laser reflectance ratios. / Narayanan, Ram Mohan; Pflum, Mark T.; Schmeeckle, Jon D.

In: Proceedings of SPIE - The International Society for Optical Engineering, Vol. 3382, 01.12.1998, p. 14-25.

Research output: Contribution to journalConference article

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AU - Narayanan, Ram Mohan

AU - Pflum, Mark T.

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N2 - A mid-infrared laser reflectance sensor operating within the 9-11 μm wavelength range was used to study the reflectance characteristics of soil contaminated with various commercially available chemical liquid materials. Measurements were made at ten wavelengths and three incidence angles under both co-polarized and cross-polarized scatter conditions. Data were gathered from bare soil, as well as soil saturated with anti-freeze/coolant, unused motor oil, and used motor oil. Calibration was performed using a Labsphere Diffuse Reflectance Standard of 94% nominal reflectivity. The measurements were used to compute reflectance ratios, i.e., ratios of reflectivities at various two-wavelength combinations. Our study indicates that it is possible to detect the presence of as well as to identify the type of contamination present in the soil by computing reflectance ratios at judiciously selected wavelengths. Use of wavelength ratios obviates the need for absolute calibration if the atmospheric transmission characteristics are the same at the two probing wavelengths. This technique is well-suited for standoff detection of contaminated soil.

AB - A mid-infrared laser reflectance sensor operating within the 9-11 μm wavelength range was used to study the reflectance characteristics of soil contaminated with various commercially available chemical liquid materials. Measurements were made at ten wavelengths and three incidence angles under both co-polarized and cross-polarized scatter conditions. Data were gathered from bare soil, as well as soil saturated with anti-freeze/coolant, unused motor oil, and used motor oil. Calibration was performed using a Labsphere Diffuse Reflectance Standard of 94% nominal reflectivity. The measurements were used to compute reflectance ratios, i.e., ratios of reflectivities at various two-wavelength combinations. Our study indicates that it is possible to detect the presence of as well as to identify the type of contamination present in the soil by computing reflectance ratios at judiciously selected wavelengths. Use of wavelength ratios obviates the need for absolute calibration if the atmospheric transmission characteristics are the same at the two probing wavelengths. This technique is well-suited for standoff detection of contaminated soil.

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