Структура магнитно-ионосферных и авроральных возмущений / Акад. наук СССР, Кол. науч. центр, Поляр. геофиз. ин-т. – Ленинград : Наука, 1977. – 151 с.

1. Л а з а р е в В. И. Поглощеппе энергии электронного пучка в верхней атмосфере. — Геомагнетизм и аэрономия, 1967, 7, 2, с. 278—283. 2. M i t r a А. P., R o w e J . N . Ionospheric effects of solar flares. 6. Chan­ ges in D-region ion chem istry during solar flares. — J. Atmos. Terr. Phys., 1972, 34, 5, p. 795—806. 3. M e i r a L. G. Kocket measurements of upper atmospheric n itric oxide and their consequences to the lower ionosphere. — J . Geophys. Bes., 1971, 76, 1, p. 2 0 2 -2 1 2 . 4. B o w m a n M. R. , T h o m a s L., G e i s l e r J . E . The effect of dif­ fusion processes on the hydrogen and oxygen constituents in the meso­ sphere and lower thermosphere. — J. Atmos. Terr. Phys., 1970, 32, 10, p. 1661—1674. 5. R o w e J . N. , M i t r a A. P ., F e r r a d о A. J., L e e H. S. An ex­ p erim ental and theoretical study of the D-region. 2. A semi-empirical model for m id-latitude D-region. — J. Atmos. Terr. Phys., 1974, 36, 5, p. 755—785. 6. P a r k J. Ph. D. Thesis. University of Colorado, 1972. 7. К л и м о в H. H ., С у т ы р и н Н. А. О влиянии ветров на высотно­ широтное распределение кислорода в области 60—160 км. — В кн.: Исследования по геомагнетизму, аэрономии и физике Солнца, № 32. М., 1974, с. 14—21. 8. L 1 е w е 1 1 у n Е. J ., E v a n s W. F. J., W o o d Н. С. 0 2(Ag) in the atmosphere. — Phys. and Chem. Upper Atmos., Dordrecht, 1973 p. 193—202. 9. B a r k e r K. D. , B i s h o p R. H ., M e g i 11 L. R. Rocket mea­ surements of 0 2 (A g) emissions in the auroral zone. — J. Geophys Res., 1974, 79, 1, p. 243—248. 10. В a n k s P. Collision frequenciens and energy transfer electrons. — Pla­ net. Space Sci., 1966, 14, p. 1085—1103. 11. B a i l e y D. K . Some qu antitative aspects of electron precipitation in and n ear the auroral zone. — Bev. Geophys., 1968, 6, 3, p. 289. 12. A d a m s G. W. , M a s l e y A. J. Production rates and electron densi­ ties in the lower ionosphere due to solar cosmic rays. — Planet. Space Sci., 1965, 13, 3, p. 2 8 9 -2 9 8 . 13. D e s h p a n d e S. D ., M i t r a A. P. Ionosphere effects of solar flares. 3. The q u a n tita tiv e relationship of flare X-rays to SID ’s. — J. Atmos. Terr. P hy s., 1972, 34, 2, p. 243—253. 14. M i t r a A. P . D -region in d istu rb ed condituons, including flares and energetic particles. — J. Armos. Terr. Phys., 1975, 37, 6/7, p. 895—914. 15. H u l t q v i s t B. Sunrise and sunset effects on cosmic noise absorption associated w ith aurora and magnetic storms. — Planet. Space Sci., 1963, 11, 4, p. 371—383. 16. В a r c u s J . R ., B r o w n R . R. Energy spectrum for auroral zone X -rays. 2. Spectral v a ria b ility and auroral absorption. — J. Geophys. R es., 1966, 71, 3, p. 825—834. 17. H о 1 t O ., L a n d m a r k B. Baioastronomical and satellite studies of the atmosphere. N orth Holland, Amsterdam, 1963. 251 p. 18. H u l t q v i s t B. On the height of auroral absorption, 1. — Planet. Space Sci., 1964, 12, 6, p. 579—589. 19. J e l l y D. H. Correlation between intensities auroral absorption and p recip itated electrons. — Can. J. Phys., 1964, 42, 12, p. 2411—2418. 20. P a t h a s a r a t h y B ., B e r k e y F. Т., V e n k a t e s a n D. A uroral zone electron flux and its relation to broadbeam radiowave absorption. — P lanet. Space Sci., 1966, 14, 1, p. 65—84. Л и т е р а т у р а 6* 83