For the Model 102 (and former Model 101)
Model 102 Portable FTIR Instruction Manual
Craig, M., Cloutis, E.A., Kaletzke, L., McCormack, K. and Stewart, L.,
Alteration of Hydration Absorption Features in Reflectance Spectra of
Selected Sulfates in a Low Pressure Environment: 0.45-4.3 µm,
Department of Geography, University of Winnipeg
Hook, S.J. and A.B. Kahle, 1996, The Micro Fourier Transform Interferometer (uFTIR) – A New Field Spectrometer for Acquisition of Infrared Data of Natural Surfaces, Remote Sensing of Environment, v.56, p.172-181.
Johnson, J.R., Lucey, P.G. and Horton, K.A., 1998, Infrared Measurements of Pristine and Disturbed Soils 1. Spectral Contrast Differences between Field and Laboratory Data, Remote Sensing Environ 64, p.34-46.
Johnson, J.R., Lucey, P.G. and Horton, K.A., 1998, Infrared Measurements of Pristine and Disturbed Soils 1. Spectral Contrast Differences between Field and Laboratory Data, Remote Sensing Environ 64, p.34-46.
Horton, K.A., Johnson, J.R., and Lucey, P.G., 1998, Infrared Measurements of Pristine and Disturbed Soils 2. Environmental Effects and Field Data Reduction, Remote Sensing of Environment, v.64, p.47-52.
Korb, A.R., 1993, Field Operation of the FTIR spectrometer at Mt. Evans, Colorado, Dept. of Earth & Planetary Sciences, Johns Hopkins University.
Korb, A.R., P. Dybwad, W. Wadsworth, and J.W. Salisbury, 1996, Portable Fourier Transform Infrared Spectrometer for Field Measurements of Radiance and Emissivity, Applied Optics, v.35, p.1679-1692.
Miller, D, et. al., 2003, Plume Sensing Direction Considerations, Northrop Grumman/TASC.
Mitchell, H., and Salvaggio, C., 2003, The MWIR and LWIR Spectral Signatures of Water and Associated Materials, SPIE Aerosense Proceedings Conf. Vol 5093, pp. 195-205.
Salvaggio, C., Miller, C., 2001, Methodologies and Protocols for the Collection of Midwave and Longwave Infrared Emissivity Spectra Using a Portable Field Spectrometer, SPIE Aerosense Proceedings Conf. 4381-61
Salvaggio, C., Miller, C., 2001, Comparison of Field and Laboratory Collected Midwave and Longwave Infrared Emissivity Spectra / Data Reduction Techniques, SPIE Aerosense Proceedings Conf. Vol. 4381-62
Wald, A. E. and Salisbury, J. W., 1995, Thermal infrared
directional emissivity of powdered quartz: Jour. Of Geophysical
Research, v. 100, p. 24,665-24,675.
For the Turbo FT:
Instruction Manual for Turbo FT
Hewson, R., et al, Hyperspectral Thermal Infrared Line Profiling for Mapping Surface Mineralogy, Proceedings of Fifth International Airborne Remote Sensing Conference, San Francisco, CA, 17-20 September, 2001.
Wadsworth, W. and Dybwad, J.P., 1997, Ultra High Speed Chemical Imaging Spectrometer, Proc. of ElectroOptical Technology for Remote Chemical Detection and Identification, SPIE Vol.3082, p.148-154.
Wadsworth, W. and Dybwad, J.P., 1998, A Very Fast Imaging FT Spectrometer for On Line Process Monitoring and Control, Proceedings of Electro-Optic, Integrated Optic, and Electronic Technologies for Online Chemical Process Monitoring, SPIE Vol.3537, p.54-61.
Wadsworth, W. and Dybwad, J.P., 2001, Field Testing of a Small, Fast, Rugged Fourier Transform Spectrometer in the Air and on the Ground, Proceedings of ISSSR 2001, Quebec City, Canada, 10-15 June, 2001.
Wadsworth, W. and Dybwad, J.P., 2001, Airborne Testing of Small, Fast, Rugged Fourier Transform Spectrometer for Geologic Survey Use, Proceedings of Fifth International Airborne
Remote Sensing Conference, San Francisco, CA, 17-20 September, 2001.
Wadsworth, W. and Dybwad, J.P., 2001, Rugged High Speed Rotary Imaging Fourier Transform Spectrometer for Industrial Use, SPIE Vol. 4577.
Zinnow, K.P, and Dywad, J.P., 1984, Feasibility study on the use of miniature FT spectrometer as a portable instrument to obtain spectral emittance of minerals under field conditions, USGS, Reston, VA.