<title>S.P.I.Rou.: a landscape synthesis tool in the infrared spectral band</title>

Currently, there is no satisfactory method for measuring the temperature of the gas phase of combustion products within a solid fuel flame. The industry standard, a suction pyrometer or aspirated thermocouple, is intrusive, spatially and temporally averaging, and difficult to use. In this work, a new method utilizing the spectral emission from water vapor is investigated through modeling and experimental measurements. The method employs the collection of infrared emission from water vapor over discrete wavelength bands and then uses the ratio of those emissions to infer temperature. This method was demonstrated in the products of a 150 kWth natural gas flame along a 0.75 m line of sight, averaged over 1 min. Results from this optical method were compared to those obtained using a suction pyrometer. Data were obtained at three fuel air equivalence ratios that produced products at three temperatures. The optical measurement produced gas temperatures approximately 3–4% higher than the suction pyrometer. The uncertainty of the optical measurements is dependent on the gas temperature being ±9% at 850 K and 4% or less above 1200 K. Broadband background emission assumed to be emitted from the reactor wall was also seen by the optical measurement and had to be removed before an accurate temperature could be measured. This complicated the gas measurement but also provides the means whereby both gas and solid emission can be measured simultaneously.

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Shape and temperature field distorsions induced by convective effect on hot object in the near infrared and infrared spectral band

Proceedings of the 2010 International Conference on Quantitative InfraRed Thermography ◽

10.21611/qirt.2010.034 ◽

2010 ◽

Author(s):

A. Delmas ◽

Y. Le Maoult ◽

J.M. Buchlin ◽

T. Sentenac ◽

J.J. Orteu

Keyword(s):

Temperature Field ◽

Near Infrared ◽

Spectral Band ◽

Convective Effect ◽

Infrared Spectral

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GeTe4 channel waveguides for the mid-wave infrared spectral band

12th International Conference on Fiber Optics and Photonics ◽

10.1364/photonics.2014.t4b.4 ◽

2014 ◽

Cited By ~ 1

Author(s):

Vinita Mittal ◽

Lewis G. Carpenter ◽

James C. Gates ◽

James S. Wilkinson ◽

Ganapathy Senthil Murugan

Keyword(s):

Spectral Band ◽

Infrared Spectral ◽

Channel Waveguides

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Standoff pump-probe photothermal detection of hazardous chemicals

Scientific Reports ◽

10.1038/s41598-020-71937-4 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Ramesh C. Sharma ◽

Subodh Kumar ◽

Abhishek Parmar ◽

Mohit Mann ◽

Satya Prakash ◽

...

Keyword(s):

Homeland Security ◽

Tuning Fork ◽

Spectral Band ◽

Quartz Tuning Fork ◽

Detection Sensitivity ◽

Hazardous Chemicals ◽

Liquid Form ◽

Pump Probe ◽

Pump And Probe ◽

Infrared Spectral

Abstract A novel pump-probe Photothermal methodology using Quartz Tuning Fork (QTF) detector has been demonstrated for the first time. A tunable mid-IR Quantum Cascade Laser (QCL) and a CW fixed wavelength visible laser have been used as the pump and probe beam respectively. The developed Photothermal (PT) technique is based on Quartz Tuning Fork (QTF) detector for the detection of hazardous/explosive molecules adsorbed on plastic surface and also in aerosols form. PT spectra of various trace molecules in the fingerprinting mid- infrared spectral band 7–9 µm from distance of 25 m have been recorded. The PT spectra of explosives RDX, TNT and Acetone have been recorded at very low quantities. Acetone is the precursor of explosive Tri-Acetone Tri-Phosphate (TATP). The experimentations using pump and probe lasers, exhibit detection sensitivity of less than 5 μg/cm2 for RDX, TNT powders and of ~ 200 nl quantity for Nitrobenzene (NB) and Acetone (in liquid form) adsorbed on surfaces, from a distance of ~ 25 m. The sensitivity of the same order achieved from a distance of 15 m by using only a mid-IR tunable pump laser coupled to QTF detector. Thus the pump-probe PT technique is more sensitive in comparison to single tunable QCL pump beam technique and it is better suited for standoff detection of hazardous chemicals for homeland security as well as for forensic applications.

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Variation in understory and canopy reflectance during stand development in Finnish coniferous forests

Canadian Journal of Forest Research ◽

10.1139/cjfr-2014-0538 ◽

2015 ◽

Vol 45 (8) ◽

pp. 1077-1085 ◽

Cited By ~ 9

Author(s):

Nea Kuusinen ◽

Pauline Stenberg ◽

Erkki Tomppo ◽

Pierre Bernier ◽

Frank Berninger

Keyword(s):

Norway Spruce ◽

Scots Pine ◽

Boreal Forests ◽

Near Infrared ◽

Spectral Band ◽

Stand Development ◽

Area Index ◽

Spectral Bands ◽

Site Fertility ◽

Infrared Spectral

Inherent variability in the spectral properties of boreal forests complicates the retrieval of canopy properties such as canopy leaf area index from satellite images. Understanding the drivers of this variability could help provide better estimates of desired canopy cover properties. Field plot data from the Finnish National Forest Inventory and Landsat thematic mapper (TM) images were used to investigate the variation in canopy and understory reflectance during stand development in coniferous boreal forests. Spectral data for each plot were obtained from the Landsat pixel within which the plot center coordinates fell. Nonlinear unmixing was used to estimate the bidirectional reflectance factors (BRFs) of the “sunlit understory” and “canopy and shaded ground” components by site fertility and stand development classes. A forest albedo model was used to estimate the contribution of diffuse radiation reflected downwards from the canopy to the sunlit understory component. The sunlit understory BRF in the near-infrared spectral band decreased as the site fertility decreased and the forest matured, whereas the sunlit understory BRFs in the red and shortwave-infrared spectral bands concurrently increased. The BRFs of the canopy and shaded ground component decreased slightly during stand development, mostly in the near-infrared spectral band. Adding the diffuse contribution to the sunlit understory component changed the estimated component BRFs only a little (0.1%–1.7%) compared with those obtained using a linear mixing assumption. This effect was largest in the near-infrared spectral band and smallest in the red spectral band. For Norway spruce plots, the measured and estimated forest variables were well correlated with the BRFs in all of the studied spectral bands, but for the Scots pine plots, the correlations were notably weaker. Results show a greater importance of the fraction of visible sunlit understory on forest reflectance in Scots pine than in Norway spruce forests.

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Three multispectral configurations of a snapshot kaleidoscope-based camera in long wavelength infrared spectral band

Applied Optics ◽

10.1364/ao.399873 ◽

2020 ◽

Vol 59 (26) ◽

pp. 7779

Author(s):

Adrien Mas ◽

Guillaume Druart ◽

Patrick Bouchon ◽

Grégory Vincent ◽

Sylvain Favier ◽

...

Keyword(s):

Spectral Band ◽

Long Wavelength ◽

Infrared Spectral ◽

Long Wavelength Infrared

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Design, implementation, and study of the high-resolution high-efficiency liquid crystal on silicon spatial light modulator for the telecommunication application in the short-wave infrared spectral band

Emerging Liquid Crystal Technologies XIV ◽

10.1117/12.2506825 ◽

2019 ◽

Author(s):

Grigory Lazarev ◽

Adam Mazur ◽

Paul Urbach ◽

Po-Ju Chen ◽

Philip Engel

Keyword(s):

Liquid Crystal ◽

High Resolution ◽

Spatial Light Modulator ◽

High Efficiency ◽

Spectral Band ◽

Short Wave ◽

Telecommunication Application ◽

Light Modulator ◽

Infrared Spectral ◽

Liquid Crystal On Silicon

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Modeling radiative transfer in tropical rainforest canopies: sensitivity of simulated albedo to canopy architectural and optical parameters

Anais da Academia Brasileira de Ciências ◽

10.1590/s0001-37652011000400010 ◽

2011 ◽

Vol 83 (4) ◽

pp. 1231-1242 ◽

Cited By ~ 2

Author(s):

Sílvia N. M. Yanagi ◽

Marcos H. Costa

Keyword(s):

Radiative Transfer ◽

Near Infrared ◽

Tropical Rainforest ◽

Spectral Band ◽

Canopy Structure ◽

Optical Parameters ◽

Strong Response ◽

Spectral Bands ◽

Infrared Spectral ◽

Integrated Biosphere Simulator

This study evaluates the sensitivity of the surface albedo simulated by the Integrated Biosphere Simulator (IBIS) to a set of Amazonian tropical rainforest canopy architectural and optical parameters. The parameters tested in this study are the orientation and reflectance of the leaves of upper and lower canopies in the visible (VIS) and near-infrared (NIR) spectral bands. The results are evaluated against albedo measurements taken above the K34 site at the INPA (Instituto Nacional de Pesquisas da Amazônia) Cuieiras Biological Reserve. The sensitivity analysis indicates a strong response to the upper canopy leaves orientation (x up) and to the reflectivity in the near-infrared spectral band (rNIR,up), a smaller sensitivity to the reflectivity in the visible spectral band (rVIS,up) and no sensitivity at all to the lower canopy parameters, which is consistent with the canopy structure. The combination of parameters that minimized the Root Mean Square Error and mean relative error are Xup = 0.86, rVIS,up = 0.062 and rNIR,up = 0.275. The parameterizations performed resulted in successful simulations of tropical rainforest albedo by IBIS, indicating its potential to simulate the canopy radiative transfer for narrow spectral bands and permitting close comparison with remote sensing products.

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