There are 32 references in total for N₂O.

1. Yurchenko, S.N., Mellor, T.M. Tennyson, J., "ExoMol line lists - LIX. High-temperature line list for N₂O", Monthly Notices of the Royal Astronomical Society 534, 1364-1375 (2024). [link to article]
2. Zhao, G., Bailey, D. M., Fleisher, A. J., Hodges, J. T., Lehmann, K. K., "Doppler-free two-photon cavity ring-down spectroscopy of a nitrous oxide (N₂O) vibrational overtone transition", Physical Review A 101, 062509 (2020). [link to article][20ZhBaFl.N2O]
3. Odintsova, T. A., Fasci, E., Gravina, S., Gianfrani, L., Castrillo, A., "Optical feedback laser absorption spectroscopy of N₂O at 2 μm", Journal of Quantitative Spectroscopy and Radiative Transfer 254, 107190 (2020). [link to article][20OdFaGr.N2O]
4. Zhang, W., Chen, X., Wu, X., Li, Y., Wei, H., "Adaptive cavity-enhanced dual-comb spectroscopy", Photonics Research 7, 883-889 (2019). [link to article][19ZhChWu.N2O]
5. Liu, G.-L., Wang, J., Tan, Y., Kang, P., Bi, Z., Liu, A.-W., Hu, S.-M., "Line positions and N₂-induced line parameters of the 00°3 – 00°0 band of ¹⁴N₂¹⁶O by comb-assisted cavity ring-down spectroscopy", Journal of Quantitative Spectroscopy and Radiative Transfer 229, 17-22 (2019). [link to article][19LiWaTa.N2O]
6. Bertin, T., Mondelain, D., Karlovets, E., Kassi, S., Perevalov, V., Campargue, A., "High sensitivity cavity ring down spectroscopy of N₂O near 1.74 μm", Journal of Quantitative Spectroscopy and Radiative Transfer 229, 40-49 (2019). [link to article][19BeMoKa.N2O]
7. Schwieterman, E. W., Kiang, N. Y., Parenteau, M. N., Harman, C. E., DasSarma, S., Fisher, T. M., Arney, G. N., Hartnett, H. E., Reinhard, C. T., Olson, S. L., Meadows, V. S., Cockell, C. S., Walker, S. I., Grenfell, J. L., Hegde, S., Rugheimer, S., Hu, R., Lyons, T. W., "Exoplanet biosignatures: A review of remotely detectable signs of life", Astrobiology 18, 663-708 (2018). [link to article][18ScKiPa.N2O]
8. Tashkuna, S. A., Perevalova, V. I., Lavrentieva, N. N., "NOSD-1000, the high-temperature nitrous oxide spectroscopic databank", Journal of Quantitative Spectroscopy and Radiative Transfer (in press) 177, 43-48 (2016). [link to article][16TaPeLa.N2O]
9. Khodayari, A., Olsen, S. C., Wuebbles, D. J., "Evaluation of aviation NOx-induced radiative forcings for 2005 and 2050", Atmospheric environment 91, 95-103 (2014). [link to article][14KhArOl.N2O]
10. Naves, E. S., Castro, M. A., Fonseca, T. L., "Vibrational corrections to hyperpolarizabilities of the O₃, SO₂, N₂O and CO₂ molecules: A comparison between variational and perturbation methods", Chemical Physics Letters 608, 130-135 (2014). [link to article][14NaCaFo.O3]
11. Hill, C., Yurchenko, S. N., Tennyson, J., "Temperature-dependent molecular absorption cross sections for exoplanets and other atmospheres", Icarus 226, 1673-1677 (2013). [link to article][13HiYuTe.SO2]
12. Villanueva, G. L., Mumma, M. J., Novak, R. E., Radeva, Y. L., Käufl, H. U., Smette, A., Tokunaga, A., Khayat, A., Encrenaz, T., Hartogh, P., "A sensitive search for organics (CH₄, CH₃OH, H₂CO, C₂H₆, C₂H₂, C₂H₄), hydroperoxyl (HO₂), nitrogen compounds (N₂O, NH₃, HCN) and chlorine species (HCl, CH₃Cl) on Mars using ground-based high-resolution infrared spectroscopy", Icarus 223, 11-27 (2013). [link to article][13ViMuNo.H2CO]
13. Bogumil, K., Orphal, J., Homann, T., Voigt, S., Spietz, P., Fleischmann, O. C., Vogel, A., Hartmann, M., Kromminga, H., Bovensmann, H., Frerick, J., Burrows, J. P., "Measurements of molecular absorption spectra with the SCIAMACHY pre-flight model: Instrument characterization and reference data for atmospheric remote-sensing in the 230-2380 nm region", Journal of Photochemistry and Photobiology A: Chemistry 157, 167-184 (2003). [link to article][03BoOrHo.O3]
14. Coriani, S., Halkier, A., Jonsson, D., Gauss, J., Rizzo, A., Christiansen, O., "On the electric field gradient induced birefringence and electric quadrupole moment of CO, N₂O and OCS", Journal of Chemical Physics 118, 7329-7339 (2003). [link to article][03CoHaJo.CO]
15. Zúñiga, J., Bastida, A., Requena, A., "Theoretical calculations of vibrational frequencies and rotational constants of the N₂O isotopomers", Journal of Molecular Spectroscopy 217, 43-58 (2003). [link to article][03ZuBaRe.N2O]
16. Halfen, D. T., Apponi, A. J., Ziurys, L. M., "Evaluating the N/O chemical network: The distribution of N₂O and NO in the Sagittarius B2 complex", Astronomical Journal 561, 244-253 (2001). [link to article][01HaApZi.NO]
17. Rosenmann, L., Khalil, B., Le Doucen, R., "Calculations and measurements of N₂O absorption at high temperature in the 4.5 μm region", Journal of Quantitative Spectroscopy and Radiative Transfer 57, 477-483 (1997). [link to article][97RoKhDo.N2O]
18. Bündgen, P., Grein, F., Thakkar, A. J., "Dipole and quadrupole moments of small molecules. An ab initio study using perturbatively corrected, multi-reference, configuration interaction wave functions", Journal of Molecular Structure: THEOCHEM 334, 7-13 (1995). [link to article][95BjGrTh.H2CO]
19. Zuev, A. P., Starikovskii, A. Y., "UV absorption cross section of the molecules O₂, NO, N₂O, CO₂, H₂O, and NO₂", Journal of Applied Spectroscopy 52, 304-313 (1990). [link to article][90ZuStxx.CO2]
20. Hinz, A., Wells, J. S., Maki, A. G., "Heterodyne measurements of hot bands and isotopic transitions of N₂O near 7.8 μm", Zeitschrift fur Physik D 5, 351-358 (1987). [link to article][87HiWeMa.N2O]
21. Wells, J. S., Hinz, A., Maki, A. G., "Heterodyne frequency measurements on N₂O between 1257 and 1340 cm⁻¹", Journal of Molecular Spectroscopy 114, 84-96 (1985). [link to article][85WeHiMa.N2O]
22. Brown, L. R., Toth, R. A., "Comparison of the frequencies of NH₃, CO₂, H₂O, N₂O, CO, and CH₄ as infrared calibration standards", Journal of the Optical Society of America B: Optical Physics 2, 842-856 (1985). [link to article][85BrToxx.CO]
23. Toth, R. A., "Line strengths of N₂O in the 1120 - 1440 cm⁻¹ region", Applied Optics 23, 1825-1834 (1984). [link to article][84Toth.N2O]
24. Kling, H., Hüttner, W., "The temperature dependence of the Cotton-Mouton effect of N₂, CO, N₂O, CO₂, OCS, and CS₂ in the gaseous state", Chemical Physics 90, 207-214 (1984). [link to article][84KlHuxx.CO2]
25. Hitchcock, A. P., Brion, C. E., van der Wiel, M. J., "Absolute oscillator strengths for valence-shell ionic photofragmentations of N₂O and CO₂ (8–75 eV)", Chemical Physics 45, 461-478 (1980). [link to article][80HiBrva.CO2]
26. Barrus, D. M., Blake, R. L., Burek, A. J., Chambers, K. C., Pregenzer, A. L., "K-shell photoabsorption coefficients of O₂, CO₂, CO, and N₂O", Physical Review A 20, 1045 (1979). [link to article][79BaBlBu.CO2]
27. Brion, C. E., Tan, K. H., "Partial oscillator strengths for the photoionization of N₂O and CO₂ (20-60 eV)", Chemical Physics 34, 141-151 (1978). [link to article][78BrTaxx.CO2]
28. Lee, L. C., Carlson, R. W., Judge, D. L., Ogawa, M., "The absorption cross sections of N₂, O₂, CO, NO, CO₂, N₂O, CH₄, C₂H₄, C₂H₆ and C₄H₁₀ from 180 to 700Å", Journal of Quantitative Spectroscopy and Radiative Transfer 13, 1023-1031 (1973). [link to article][73LeCaJu.C2H4]
29. Plyler, E. K., Tidwell, E. D., Maki, A. G., "Infrared absorption spectrum of nitrous oxide (N₂O) from 1830 cm - to 2270 cm^-1", Journal of Research of the National Bureau of Standards A 68A, 79-86 (1964). [link to article][64PlTiMa.N2O]
30. Thompson, B. A., Harteck, P., Reeves, R. R., "Ultraviolet absorption coefficients of CO₂, CO, O₂, H₂O, N₂O, NH₃, NO, SO₂, and CH₄ between 1850 and 4000 A", Journal of Geophysical Research 68, 6431-6436 (1963). [link to article][63ThHaRe.NO]
31. Tidwell, E. D., Plyler, E. K., Benedict, W. S., "Vibration-rotation bands of N₂O", Journal of the Optical Society of America 50, 1243-1263 (1960). [link to article][60TiPlBe.N2O]
32. Dickinson, R. G., Dillon, R. T., Rasetti, F., "Raman spectra of polyatomic gases", Physical Review 34, 0582-0589 (1929). [link to article][29DiDiRa.C2H4]

The ExoMol bibliometrician is Olga Yurchenko