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References for the molecule CH4

Publication topic
Displaying 21-40 of 50 results.
29.
Estimated.
30.
O. Ouardi, J.-C. Hilico, M. Loëte, L.R. Brown, The hot bands of methane between 5 and 10 μm //J Mol Spectrosc 180, 311-322 (1996)
31.
J.-C. Hilico, G.S. Baronov, D.K. Bronnikov, S.A. Gavrikov, I.I. Nikolaev, V.D. Rusanov, Yu.G. Filimonov, High-resolution spectroscopy of (pentad-dyad) and (octad-pentad) hot bands of methane in a supersonic jet //J Mol Spectrosc 161, 435-444 (1993)
31.
J.-C. Hilico, J.-P. Champion, S. Toumi, Vl.G. Tyuterev, S.A. Tashkun, New analysis of the pentad system of methane and prediction of the (pentad-pentad) spectrum //J Mol Spectrosc 168, 455-476 (1994)
32.
D.C. Benner, College of William and Mary, Unpublished data.
33.
J.-C. Hilico, O. Robert, M. Loëte, S. Toumi, A.S. Pine, L.R. Brown, Analysis of the interacting octad system of 12CH4 //J Mol Spectrosc 208, 1-13 (2001)
34.
A. Predoi-Cross, M. Brawley-Tremblay, L.R. Brown, V. Malathy Devi, D. Chris Benner, Multispectrum analysis of 12CH4 from 4100 to 4635 cm−1: II. Air-broadening coefficients (widths and shifts) //J Mol Spectrosc 236, 201-215 (2006)
35.
J.-M. Jouvard, B. Lavorel, J.-P. Champion, L.R. Brown, Preliminary analysis of the pentad of 13CH4 from Raman and infrared spectra //J Mol Spectrosc 150, 201-217 (1991)
36.
L.R. Brown, A. Nikitin, D. Chris Benner, V. Malathy Devi, M.A.H. Smith, L. Fejard, J.-P. Champion, Vl.G. Tyuterev, R.L. Sams, Line intensities of CH3D in the triad region: 6–10 μm //J Mol Struct 695-696, 181-188 (2004)
37.
A. Nikitin, J.-P. Champion, Vl.G. Tyuterev, L.R. Brown, G. Mellau, M. Lock, The infrared spectrum of CH3D between 900 and 3200 cm−1: extended assignment and modeling //J Mol Struct 517-518, 1-24 (2000)
37.
A. Nikitin, L.R. Brown, L. Féjard, J.-P. Champion, Vl.G. Tyuterev, Analysis of the CH3D nonad from 2000 to 3300 cm−1 //J Mol Spectrosc 216, 225-251 (2002)
38.
H.M. Pickett, R.L. Poynter, E.A. Cohen, M.L. Delitsky, J.C. Pearson, H.S.P. Müller, Submillimeter, millimeter and microwave spectral line catalog //JQSRT 60, 883-890 (1998)
39.
L.R. Brown, JPL, private communication (2004).
40.
S. Albert, S. Bauerecker, V. Boudon, L.R. Brown, J.-P. Champion, M. Loëte, A. Nikitin, M. Quack, Global analysis of the high resolution infrared spectrum of methane 12CH4 in the region from 0 to 4800 cm−1 //Chem Phys 356, 131-146 (2009)
41.
V. Lattanzi, A. Walters, J.C. Pearson, B.J. Drouin, THz spectrum of monodeuterated methane //JQSRT 109, 580-586 (2008)
42.
O.N. Ulenikov, G.A. Onopenko, N.E. Tyabaeva, R. Anttila, S. Alanko, J. Schroderus, Rotational analysis of the ground state and the lowest fundamentals ν3, ν5, and ν6 of 13CH3D //J Mol Spectrosc 201, 9-17 (2000)
43.
A.V. Nikitin, J.-P. Champion, L.R. Brown, Preliminary analysis of CH3D from 3250 to 3700 cm−1 //J Mol Spectrosc 240, 14-25 (2006)
44.
C. Boussin, B.L. Lutz, C. de Bergh, A. Hamdouni, Line intensities and self-broadening coefficients for the 3v2 band of monodeutrated methane //JQSRT 60, 501-514 (1998)
45.
L. Daumont, A.V. Nikitin, X. Thomas, L. Régalia, P. Von der Heyden, Vl.G. Tyuterev, M Rey, V. Boudon, Ch. Wenger, M. Loëte, L.R. Brown, New assignments in the 2 μm transparency window of the 12CH4 Octad band system //JQSRT 116, 101-109 (2013)
46.
M. Abe, K. Iwakuni, S. Okubo, H. Sasada, Accurate transition frequency list of the ν3 band of methane from sub-Doppler resolution comb-referenced spectroscopy //JOSA B 30, 1027-1035 (2013)