89 results on '"Carleer, Michel"'
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2. IUPAC critical evaluation of the rotational–vibrational spectra of water vapor. Part I—Energy levels and transition wavenumbers for H 217O and H 218O
3. UV Fourier transform absorption cross sections of benzene, toluene, meta-, ortho-, and para-xylene
4. Fourier transform measurements of water vapor line parameters in the 4200–6600 cm −1 region
5. Spectrum of hot water in the 2000–4750 cm −1 frequency range
6. Absorption cross-sections of atmospheric constituents: NO2, O2, and H2O
7. Water vapour line assignments in the 9250–26 000 cm −1 frequency range
8. Line parameters of HDO from high-resolution Fourier transform spectroscopy in the 11 500–23 000 cm −1 spectral region
9. Monodromy in the water molecule
10. ACE-FTS Observation of a Young Biomass Burning Plume: First Reported Measurements of C2H4, C3H6O, H2CO and PAN by Infrared Occultation from Space
11. Retrieval of atmospheric water vapor columns from FT visible solar absorption spectra and evaluation of spectroscopic databases
12. Water vapor line broadening and shifting by air in the 26,000– [formula omitted] region
13. Water vapor line parameters in the 13 000– [formula omitted] region
14. A 3000 K laboratory emission spectrum of water.
15. Fourier Transform Spectroscopy of the O2 Herzberg Bands: I. Rotational Analysis
16. Observations of halogens, CO, CH4, and H2CO at Ile de La Réunion from ground-based FTIR and MAXDOAS campaign measurements
17. Water vapor line parameters in the 13 000-9250 cm-1 region
18. UV, visible and near-IR spectroscopy of atmospheric species
19. New water vapor line parameters in the 26000-13000 cm-1 region
20. High-resolution Fourier transform measurement of the NO2 visible and near-infrared absorption cross sections: Temperature and pressure effects
21. Fourier Transform Spectroscopy of the O2 Herzberg Bands: II. Band oscillator strengths and transition moments
22. Fourier Transform Spectroscopy of the O2 Herzberg Bands I. Rotational Analysis
23. High resolution Fourier transform spectroscopy of HD16O: Line positions, absolute intensities and self broadening coefficients in the 8800–11,600cm−1 spectral region
24. IUPAC critical evaluation of the rotational–vibrational spectra of water vapor. Part I—Energy levels and transition wavenumbers for H217O and H218O
25. Spectrum of hot water in the 4750-13 000 cm−1wavenumber range (0.769-2.1 μm)
26. Fourier transform measurements of water vapor line parameters in the 4200–6600cm−1 region
27. Spectrum of hot water in the 2000–4750cm−1 frequency range
28. Water vapour line assignments in the 9250–26000cm−1 frequency range
29. Line parameters of HDO from high-resolution Fourier transform spectroscopy in the 11500–23000cm−1 spectral region
30. A 3000K laboratory emission spectrum of water
31. Water vapor line parameters in the 13000– region
32. Water vapor line broadening and shifting by air in the 26,000– region
33. New water vapor line parameters in the 26000– region
34. Improved Data Set for the Herzberg Band Systems of 16O2
35. Absolute intensities of water vapor lines in the near-ultraviolet and visible regions
36. WSpectra: a Windows program to accurately measure the line intensities of high-resolution Fourier transform spectra
37. Tropospheric boundary layer investigations by differential ground-based solar FTIR spectrometry
38. FTS line shapes and their importance in atmospheric measurements in the UV-VIS and the IR
39. Development of Fourier transform spectrometry for UV-visible differential optical absorption spectroscopy measurements of tropospheric minor constituents
40. Fourier transform spectroscopy of atmospheric gases
41. The Wulf bands of oxygen
42. Using a Fourier transform spectrometer for tropospheric UV-visible DOAS measurements
43. The dispersed laser-induced fluorescence spectrum of gas-phase at 308 nm
44. Tropospheric boundary layer investigations by differential ground-based solar FTIR spectrometry.
45. FTS line shapes and their importance in atmospheric measurements in the UV-VIS and the IR.
46. Fourier transform spectroscopy of atmospheric gases.
47. Detection of urban O3, NO2, H2CO, and SO2 using Fourier transform spectroscopy
48. Detection of urban O3, NO2, H2CO, and SO2 using Fourier transform spectroscopy.
49. Spectrum of hot water in the 4750–13 000 cm−1 wavenumber range (0.769–2.1 μm).
50. Absorption cross-sections of atmospheric constituents: NO2, O2, and H2O.
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