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Journal articles on the topic 'Infrared'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

Guha, S., H. Govil, M. Tripathi, and M. Besoya. "EVALUATING CROSTA TECHNIQUE FOR ALTERATION MINERAL MAPPING IN MALANJKHAND COPPER MINES, INDIA." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLII-5 (November 19, 2018): 251–54. http://dx.doi.org/10.5194/isprs-archives-xlii-5-251-2018.

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<p><strong>Abstract.</strong> Landsat-8 Operational Land Imager (OLI) data has been successfully employed in the field of mineral exploration to detect important minerals. In this study, Crosta technique was applied to identify the diagnostic features of hydroxyl minerals, carbonate minerals and iron oxides in Malanjkhand copper mines, India. The Crosta technique was applied to six [blue, green, red, near-infrared (NIR), shortwave infrared1 (SWIR1), shortwave infrared2 (SWIR2) bands and two sets of four (blue, red, NIR, SWIR1; and blue, near-infrared, SWIR1, SWIR2) bands of O
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2

OZAKI, Yukihiro. "Infrared Spectroscopy—Mid-infrared, Near-infrared, and Far-infrared/Terahertz Spectroscopy." Analytical Sciences 37, no. 9 (2021): 1193–212. http://dx.doi.org/10.2116/analsci.20r008.

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3

Zohuri, Bahman, and Hanie Zand. "Near-Infrared vs. Mid-Infrared Light Penetration in Biological Tissues." Medical & Clinical Research 10, no. 03 (2025): 01–09. https://doi.org/10.33140/mcr.10.03.04.

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Understanding the interaction of light with biological tissues is crucial for advancing medical imaging, laser therapies, and infrared spectroscopy applications. This article compares the penetration of Near-Infrared (NIR) and Mid-Infrared (MIR) light in biological tissues, analyzing their behavior through mathematical models and Monte Carlo simulations. The study explores the impact of absorption, scattering, and skin color variations on light penetration depth, providing insights into the optimal wavelength selection for medical and biomedical applications.
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4

Sfarra, S., E. Marcucci, D. Ambrosini, and D. Paoletti. "Infrared exploration of the architectural heritage: from passive infrared thermography to hybrid infrared thermography (HIRT) approach." Materiales de Construcción 66, no. 323 (2016): e094. http://dx.doi.org/10.3989/mc.2016.07415.

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5

Shengfu Yuan, Shengfu Yuan, Wei Luo Wei Luo, Baozhu Yan Baozhu Yan, and Qianjin Zou Qianjin Zou. "Research on a middle infrared and long infrared dual-band laser." Chinese Optics Letters 10, no. 3 (2012): 031404–31406. http://dx.doi.org/10.3788/col201210.031404.

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6

Vollmer, M. "Infrared." European Journal of Physics 34, no. 6 (2013): S49—S50. http://dx.doi.org/10.1088/0143-0807/34/6/s49.

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7

Michels, Mark, William W. Dawson, Robert B. Feldman, and Ken Jarolem. "Infrared." Ophthalmology 94, no. 2 (1987): 143–48. http://dx.doi.org/10.1016/s0161-6420(87)33484-0.

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8

Nishimura, Tetsuo. "Infrared detector for mid-infrared astronomy." Astrophysics and Space Science 160, no. 1-2 (1989): 325–32. http://dx.doi.org/10.1007/bf00642787.

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9

SATO, Shuji. "New universe with infrared eyes. Infrared astronomy." Journal of Advanced Science 1, no. 1 (1989): 17–21. http://dx.doi.org/10.2978/jsas.1.17.

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10

Lee, Jong Chul, Ho Seong Hwang, Myung Gyoon Lee, Minjin Kim, and Joon Hyeop Lee. "AKARINEAR-INFRARED SPECTROSCOPY OF LUMINOUS INFRARED GALAXIES." Astrophysical Journal 756, no. 1 (2012): 95. http://dx.doi.org/10.1088/0004-637x/756/1/95.

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11

Owen-Reece, H., C. E. Elwell, P. Fallon, J. Goldstone, and M. Smith. "Near infrared oximetry and near infrared spectroscopy." Anaesthesia 49, no. 12 (1994): 1102–3. http://dx.doi.org/10.1111/j.1365-2044.1994.tb04380.x.

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12

Siebenmorgen, R., and A. Efstathiou. "Mid infrared polarisation of Ultraluminous Infrared Galaxies." Astronomy & Astrophysics 376, no. 3 (2001): L35—L38. http://dx.doi.org/10.1051/0004-6361:20011085.

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13

Petersen, J. C., and G. Duxbury. "Infrared–infrared double-resonance spectra of CH_3OD." Journal of the Optical Society of America B 7, no. 10 (1990): 1997. http://dx.doi.org/10.1364/josab.7.001997.

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14

Wolfe, William L. "INFRARED IMAGING DEVICES IN INFRARED MEDICAL RADIOGRAPHY." Annals of the New York Academy of Sciences 121, no. 1 (2006): 57–70. http://dx.doi.org/10.1111/j.1749-6632.1964.tb13685.x.

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15

Genzel, R., S. Drapatz, D. Lutz, C. Wright, and Th De Graauw. "Infrared spectroscopy with the Infrared Space Observatory." Symposium - International Astronomical Union 178 (1997): 373–84. http://dx.doi.org/10.1017/s0074180900009517.

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The Infrared Space Observatory (ISO) is opening the 2.5 to 200 μm band for detailed infrared spectroscopy. Concentrating on ionic and molecular emission lines observed with the Short Wavelength Spectrometer (SWS) we discuss ISO's first results on Galactic and extragalactic sources.
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16

Ghoshal, Sharmistha, and Pradip N. Ghosh. "Lineshape of transient infrared-infrared double resonance." Optics Communications 73, no. 6 (1989): 455–61. http://dx.doi.org/10.1016/0030-4018(89)90461-6.

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17

Murphy, Jr., T. W., B. T. Soifer, K. Matthews, J. R. Kiger, and L. Armus. "Near-Infrared Spectra of Ultraluminous Infrared Galaxies." Astrophysical Journal 525, no. 2 (1999): L85—L88. http://dx.doi.org/10.1086/312350.

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18

Zhang, Yao, Ke Jiong Shen, Zhen Fang He, and Zhi Song Pan. "YOLO-infrared: Enhancing YOLOX for Infrared Scene." Journal of Physics: Conference Series 2405, no. 1 (2022): 012015. http://dx.doi.org/10.1088/1742-6596/2405/1/012015.

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Abstract Draw a bead on the specialty of infrared scenes and tackling the disequilibrium between positive and negative samples in object detectors, this paper introduces an object detection model for infrared scenes named YOLO-infrared based on YOLOX. This paper first analyses the shortcomings of the object detection model designed for the visible domain when applied to the infrared domain by visualizing the feature heat map of the YOLOX neck network. Considering the blurred edges of the target in the infrared image, which almost blends with the background in terms of colour and texture, with
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19

Lim, Taekyung, Tae Kyung Lee, Sang-Mi Jeong, et al. "Infrared emitting material using infrared wavelength manipulation." Applied Materials Today 21 (December 2020): 100811. http://dx.doi.org/10.1016/j.apmt.2020.100811.

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20

Peng, Linghui, Weifan Chen, Aibing Yu, and Xuchuan Jiang. "Near-infrared Shielding and Far-infrared Emission Textiles Coated by Self-assembly Cs0.32WO3 Nanosheets." International Journal of Chemical Engineering and Applications 10, no. 6 (2019): 168–74. http://dx.doi.org/10.18178/ijcea.2019.10.6.763.

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21

Bajenescu, Titu-Marius I. "INFRARED DETECTORS." Journal of Engineering Science XXV (3) (November 15, 2018): 29–40. https://doi.org/10.5281/zenodo.2557317.

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Infrared detectors have wide application in a range of industry sectors, including defence, astronomy, medicine, environmental safety, and remote sensing. The applications requiring the highest sensitivity over a broad spectrum of wavelengths are usually based on the high performance mercury cadmium telluride (HgCdTe) ternary alloy, since HgCdTe-based detector performance dominates others in the mid-wave and long-wave infrared spectrum. HgCdTe is the dominant material currently in use for infrared (IR) focal-plane-array (FPA) technology. The subject is vast: IR systems combine a wide variety o
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22

Ohyama, Youichi, Takashi Onaka, Hideo Matsuhara, et al. "Near-Infrared and Mid-Infrared Spectroscopy with the Infrared Camera (IRC) for AKARI." Publications of the Astronomical Society of Japan 59, sp2 (2007): S411—S422. http://dx.doi.org/10.1093/pasj/59.sp2.s411.

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23

S., R. DALAL, K. MENON S., and K. AGRAWAL Y. "Infrared Spectroscopic Studies of EOM from Cambay Basin." Journal of Indian Chemical Society Vol. 73, Jun 1996 (1996): 247–53. https://doi.org/10.5281/zenodo.5897405.

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Analytical Laboratory, Pharmacy Department, Faculty of Technology &amp; Engineering, M. S. University of Baroda, Kalabhavan, Baroda-390 001 <em>Manuscript received 8 December 1989, revised 28 June 1994, accepted 21 September 1994</em> The infrared spectroscopy has been used for characterisation of EOM, asphaltenes and crude oils of the Cambay basin. The functional groups of EOM, asphaltene and crude oil were characterised and extinction ratios at maximum wave numbers of the respective groups were calculated. On the basis of these data, the type of EOM, its evolution path and original organic m
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24

Bell, Ian G. "Infrared thermography." Journal of the Japan Society for Precision Engineering 56, no. 11 (1990): 1961–66. http://dx.doi.org/10.2493/jjspe.56.1961.

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25

Ishizaki, Hiroyuki. "Infrared Detectors." JOURNAL OF THE ILLUMINATING ENGINEERING INSTITUTE OF JAPAN 78, no. 3 (1994): 109–12. http://dx.doi.org/10.2150/jieij1980.78.3_109.

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26

Takabatake, Mitsuo. "Far Infrared." JOURNAL OF THE ILLUMINATING ENGINEERING INSTITUTE OF JAPAN 69, no. 1 (1985): 33–36. http://dx.doi.org/10.2150/jieij1980.69.1_33.

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27

TANAKA, Takeyuki. "Infrared Specteroscopy." Journal of the Japan Society of Colour Material 63, no. 10 (1990): 622–32. http://dx.doi.org/10.4011/shikizai1937.63.622.

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28

Arens, John F. "Infrared Astronomy." Science 237, no. 4815 (1987): 576. http://dx.doi.org/10.1126/science.237.4815.576.c.

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29

Mendelson, George, and Suzanne Wood. "Infrared thermometry." Medical Journal of Australia 145, no. 7 (1986): 361. http://dx.doi.org/10.5694/j.1326-5377.1986.tb113856.x.

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30

Solovev, V. I., V. V. Murashov, V. M. Samkov, P. P. Rudakas, and O. L. Perstov. "Infrared microscope." Journal of Optical Technology 67, no. 4 (2000): 400. http://dx.doi.org/10.1364/jot.67.000400.

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31

McFarland, Ernie, and Tom Kehn. "Seeing infrared." Physics Teacher 38, no. 5 (2000): 314–15. http://dx.doi.org/10.1119/1.880547.

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32

Schaeffel, Frank, Leslie Farkas, and Howard C. Howland. "Infrared photoretinoscope." Applied Optics 26, no. 8 (1987): 1505. http://dx.doi.org/10.1364/ao.26.001505.

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33

Dobler, Hermann R. "Infrared coatings." Applied Optics 28, no. 14 (1989): 2698. http://dx.doi.org/10.1364/ao.28.002698.

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34

Horiuchi, Noriaki. "Infrared applications." Nature Photonics 13, no. 6 (2019): 376–77. http://dx.doi.org/10.1038/s41566-019-0446-y.

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35

Tao, Guangming, Heike Ebendorff-Heidepriem, Alexander M. Stolyarov, et al. "Infrared fibers." Advances in Optics and Photonics 7, no. 2 (2015): 379. http://dx.doi.org/10.1364/aop.7.000379.

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36

Jones, David. "Ultra-infrared." Nature 382, no. 6589 (1996): 304. http://dx.doi.org/10.1038/382304a0.

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37

Shaw, Joseph A., Paul W. Nugent, Wilson Harris, and Michael Vollmer. "Infrared Yellowstone." Optics and Photonics News 28, no. 6 (2017): 36. http://dx.doi.org/10.1364/opn.28.6.000036.

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38

KNOTTS, MICHAEL E. "Infrared photography." Optics and Photonics News 7, no. 9 (1996): 52. http://dx.doi.org/10.1364/opn.7.9.000052.

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39

FRASCA, MARCO. "INFRARED QCD." International Journal of Modern Physics E 18, no. 03 (2009): 693–703. http://dx.doi.org/10.1142/s0218301309012781.

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We prove that Nambu–Jona-Lasinio model is an exact description of infrared Quantum ChromoDynamics (QCD) deriving it from QCD Lagrangian. The model we obtain is renormalizable and confining but, taking very small momenta fixes completely all the parameters of the Nambu–Jona-Lasinio model through those of QCD. The choice of the infrared propagator is done consistently with recent numerical results from lattice and Dyson–Schwinger equations for Yang–Mills theory. The model we get coincides, once the ultraviolet contribution is removed, with the one proposed by Langfeld, Kettner and Reinhardt [Nuc
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40

Armstrong, Scott A., and Nelson W. Wallace. "Infrared Optics." Optical Engineering 24, no. 2 (1985): 242256. http://dx.doi.org/10.1117/12.7973465.

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41

English, George J., and Robert E. Levin. "Infrared Floodlighting." Lighting Design + Application 15, no. 12 (1985): 48–51. https://doi.org/10.1177/036063258501501210.

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42

Manos, Harry. "Hearing infrared." Physics Teacher 35, no. 9 (1997): 552. http://dx.doi.org/10.1119/1.2344805.

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43

Nyquist, Richard A., M. Anne Leugers, Marianne L. McKelvy, Richard R. Papenfuss, Curt L. Putzig, and Lori Yurga. "Infrared spectrometry." Analytical Chemistry 62, no. 12 (1990): 223–55. http://dx.doi.org/10.1021/ac00211a018.

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44

Katok, J. E., A. J. Sommer, and Patricia L. Lang. "Infrared Microspectroscopy." Applied Spectroscopy Reviews 25, no. 3-4 (1989): 173–211. http://dx.doi.org/10.1080/05704928908053454.

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45

Gillie, J. Kevin, Jill Hochlowski, and Georgia A. Arbuckle-Keil. "Infrared Spectroscopy." Analytical Chemistry 72, no. 12 (2000): 71–80. http://dx.doi.org/10.1021/a1000006w.

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46

McKelvy, Marianne L., Thomas R. Britt, Bradley L. Davis, et al. "Infrared Spectroscopy." Analytical Chemistry 68, no. 12 (1996): 93–160. http://dx.doi.org/10.1021/a1960003c.

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47

McKelvy, Marianne L., Thomas R. Britt, Bradley L. Davis, J. Kevin Gillie, Felicia B. Graves, and L. Alice Lentz. "Infrared Spectroscopy." Analytical Chemistry 70, no. 12 (1998): 119–78. http://dx.doi.org/10.1021/a1980006k.

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48

Ng, Lily M., and Reiko Simmons. "Infrared Spectroscopy." Analytical Chemistry 71, no. 12 (1999): 343–50. http://dx.doi.org/10.1021/a1999908r.

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49

Putzig, Curtis L., M. Anne Leugers, Marianne L. McKelvy, et al. "Infrared spectrometry." Analytical Chemistry 64, no. 12 (1992): 270–302. http://dx.doi.org/10.1021/ac00036a016.

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50

Ashley, Kevin, and Stanley Pons. "Infrared spectroelectrochemistry." Chemical Reviews 88, no. 4 (1988): 673–95. http://dx.doi.org/10.1021/cr00086a006.

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