Using spectroscopy of the near-infrared techniques to detection the gas
DOI:
https://doi.org/10.15587/2313-8416.2014.29615Keywords:
diode lasers, near-infrared, absorbs, methane, detection, spectroscopicAbstract
Nеаr-infrared spectroscopy is a spectroscopic method that uses the near-infrared region of the electromagnetic spectrum. In this paper we will explain the methane detector by using near-infrared radiation with different wavelengths ranges (800nmλ to 950nmλ) . The results, that have been obtained, had the greatest value within the wavelength 850λnm.
References
Carbon Dioxide, Methane Rise Sharply in 2007. Available at: Noaanews.noaa.gov (Last accessed: 2008-04-23).
Byrnes, J. (2009). Unexploded Ordnance Detection and Mitigation. Springer, 21–22
Takamoto, M., Hong, F. L., Higashi, R., Katori, H. (2005). An optical lattice clock. Nature, 435 (7040), 321–324.
Lee, J., Kim, Y.-J., Lee, K., Lee, S., Kim, S.-W. (2010). Time-of-flight measurement with femtosecond light pulses. Nature Photonics, 4 (10), 716–720. doi: 10.1038/nphoton.2010.175
Steinmetz, T., Wilken, T., Araujo-Hauck, C., Holzwarth, R., Hänsch, T. W., Pasquini, L., Manescau, A., D’Odorico, S., Murphy, M. T., Kentischer, T., Schmidt, W., Udem, Th. (2008). Laser frequency combs for astronomical observations. Science, 321 (5894), 1335–1337. doi: 10.1126/science.1161030
Li, C.-H., Benedick, A. J., Fendel, P., Glenday, A. G., Kärtner, F. X., Phillips, D. F., Sasselov, D., Szentgyorgyi, A., Walsworth, R. L. (2008). A laser frequency comb that enables radial velocity measurements with a precision of 1 cm s(-1). Nature, 452 (7187), 610–612. doi: 10.1038/nature06854
Li, H. (2007). Near-infrared diode laser absorption spectroscopy with applications to reactive system and combustion control. Submitted to the department of mechanical engineering and the committee on graduate studies of Stanford university, 166.
Li, S., Koscica, T., Zhang, Y., Li, D., Cui, H.-L. (2008). Optical fiber remote sensing system of methane at 1645nm using wavelength-modulation technique. Department of Physics and Engineering Physics , Stevens Institute of Technology.
Shimose, Y., Okamoto, T., Maruyama, A., Aizawa, M., Nagai, H. (1991). Remote sensing of methane gas by differential absorption measurement using a wavelength tunable DFB LD. IEEE Photonics Technology Letters, 3 (1), 86–87. doi: 10.1109/68.68057
Gamache, R. R., Kennedy, S., Hawkins, R., Rothman, L. S. (2000). Total internal partition sums for molecules in the terrestrial atmosphere. Journal of Molecular Structure, 517-518, 407–425. doi: 10.1016/s0022-2860(99)00266-5
Nagali, V., Hanson, R. K. (1997). Design of a diode-laser sensor to monitor water vapour in high-pressure combustion gases. Applied Optics, 36 (36), 9518–9527. doi: 10.1364/ao.36.009518
Chan, K., Ito, H., Inaba, H. (1984). An Optical-Fiber-Based Gas Sensor for Remote Absorption Measurement of Low-Level CH4 Gas in the Near-Infrared Region. Journal of Lightwave Technology, 2 (3), 234–237. doi: 10.1109/jlt.1984.1073609
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