2. Revision of the mise en pratique of the definition of the metre. Recommendation adopted by the Comite International des Poids et Mesures at its 86th meeting. Recommendation 1 (CI-1997).
3. J.-M.Chartier, J.Helmcke, A.J.Wallard, International intercomparison of the wavelength of iodine-stabilized lasers // IEEE InstMeas. 25(4), pp. 450-453 (1976). https://doi.org/10.1109/TIM.1976.6312262
4. A.N.Titov, On the ultimate accuracy of the method of saturated absorption // Quantum electronics 8(9), pp. 2039-2042 (1981).
5. P.Cerez, R.Felder, Gas-lens effect and cavity design of some frequency-stabilized He-Ne lasers // Appl. Opt. 22(8), pp. 1251-1256, (1983). https://doi.org/10.1364/AO.22.001251
6. D.N.Ghosh Roy, F.Bertinetto, B.I.Rebaglia, P.C.Cresto, Effects of iodine saturation dispersion on the stabilized He-Ne laser // J. Appl. Phys. 54(2), 531-534 (1983). https://doi.org/10.1063/1.332106
7. Yu.M.Malyshev, Yu.G.Rastorguev, A.N.Titov, A shift in the frequency of lasers stabilized by the third harmonic due to the refractive index saturation // Quantum electronics 11(6), pp. 1257-1260 (1984).
8. M.V.Danileyko, A.L.Kravchuk, A.M.Tselinko, L.P.Yatsenko, An asymmetry of nonlinear resonances and frequency shifts of stabilized He-Ne/127I2 lasers // Quantum electronics 13(3), pp. 516-522 (1986). https://doi.org/10.1070/QE1986v016n03ABEH005977
9. J.-M.Chartier, A.Chartier, International comparisons of He-Ne lasers stabilized with 127I2 at λ≈633 nm (July 1993 to September 1995) // Metrologia 34 , pp. 297-300 (1997). https://doi.org/10.1088/0026-1394/34/4/1
10. Yu.P.Machekhin, V.A.Odinets, V.A.Smulakovskiy, Yu.S.Domnin, V.P.Tenishev, Comparisons of He-Ne/I2 lasers maked by the program KOOMET 94/UA-à/92 in 1996 // Izmeritelnaya tekhnika, N11, pp. 71-72 (1997). https://doi.org/10.1007/BF02505140
11. Ya.N.Muller, Use of gas microwave discharge in lasers // Izv. Vuzov SSSR Ser. Radioelectronika 22(106), pp. 55-68 (1979).
12. Ya.N.Muller, V.M.Geller, V.A.Khrustalev, Use of transverse microwave discharge in a compact-efficient He-Ne laser // Sov. J. Quantum electronics, 9(10), pp. 1302-1303 (1979). https://doi.org/10.1070/QE1979v009n10ABEH009524
13. V.M.Geller, G.I.Grif, V.A.Khrustalev, Use of transverse microwave discharge in helium-neon lasers // Avtometria, N1, pp. 35-45 (1984).
14. M.V.Danileyko, A.L.Kravchuk, A.M.Tselinko, L.P.Yatsenko, Helium-neon lasers stabilized by saturated absorption in iodine // Quantum electronics, Kiev, (36), pp. 1-20 (1989).
15. N.M.Danileyko, V.I.Romanenko, L.P.Yatsenko, Theory of the spatial inhomogeneity effects in gas lasers // Preprint IF AN Ukrainy N.21, Kiev, 1988, 38 p.
16. P.Cerez, A.Brillet, Factors which limit the reproducibility of iodine stabilized He-Ne lasers // Metrologia, 13(1), pp. 29-33 (1977). https://doi.org/10.1088/0026-1394/13/1/006
17. F.Bayer-Helms, J.-M.Chartier, J.Helmcke, A.J.Wallard, Evaluation of the International intercomparison measurements (March 1976) with 127I2 -stabilized He-Ne lasers. Spacing of the hyperfine structure components // PTB-Berict PTB-ME17, pp. 139-146 (1977).