[1] G. Litfin, C. R. Pollock, R. F. Curl et al.. Sensitivity enhancement of laser absorption spectroscopy by magnetic rotation effect. J. Chem. Phys., 1980, 72(12): 6602~6605
[2] M. C. McCarthy, R. W. Field. The use of magnetic rotation spectroscopy to simplify and presort spectra: An application to NiH and CeF. J. Chem. Phys., 1992, 96(10): 7237~7244
[3] A. Delon, R. Jost. Laser induced dispersed fluorescence spectra of jet cooled NO2: The complete set of vibrational levels up to 10000 cm-1 and the onset of the X~2A1-A~2B2 vibronic interaction. J. Chem. Phys., 1991, 95(8): 5686~5700
[4] K. Uehara, H. Sasada. High Resolution Spectral Atlas of Nitrogen Dioxide 559~597 nm. Berlin, Heidelberg, New York, Tokyo, Spring-Verlag, 1984. 51~53
[5] C. G. Stevens, R. N. Zare. Rotational analysis of the 593.3 nm band of NO2. J. Mol. Spectrosc., 1975, 56(2): 167~187
[6] A. Hinz, J. Pfeiffer, W. Bohle et al.. Mid-infrared laser magnetic resonance using the Faraday and Voigt effects for sensitive detection. Mol. Phys., 1982, 45(6): 1131~1139
[7] W. Gordy, R. L. Cook. Microwave Molecular Spectra (3rd Edition). New York, John Wiley & Sons, Inc., 1984. 30~35
[9] J. J. Kankare, R. Stephens. A unified theory of magneto-optic phenomena in analytical atomic spectroscopy. Spectrochima Acta, 1980, 35B(6): 849~864