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Bibliography

Arnoldy, R. J., and P. B. Lewis, Jr, Correlation of ground-based and topside photometric observations with auroral electron spectra measurements at rocket altitudes, Tech. rep., Space Science Center University of New Hampshire, Space Science Center University of New Hampshire Durham, NH 03824, 1976.

Aso, T., T. Hashimoto, M. Abe, T. Ono, and M. Ejiri, On the analysis of aurora stereo observations, J. Geomagn. Geoelectr., 42, 579-595, 1990.

Aso, T., T. Muguruma, T. Yabu, T. Hashimoto, M. Abe, and M. Ejiri, A note on the computed auroral tomography by the MART method, no. 213 in Sci. Rep., pp. 23-33, Inst för Rymdfysik Kiruna Sweden, 1993.

Aso, T., M. Ejiri, A. Urashima, H. Miyaoka, Å. Steen, U. Brändström, and B. Gustavsson, Auroral tomography analysis of a folded arc observed at the ALIS-Japan multi-station campaign on March 26 1995, no. 11 in Proceedings of the NIPR symposium on Upper Atmosphere Physics, pp. 1-10, National Institute of Polar Research, Tokyo, 1998a.

Aso, T., M. Ejiri, A. Urashima, H. Miyaoka, Å. Steen, U. Brändström, and B. Gustavsson, First results of auroral tomography from ALIS-Japan multi-station observations in March 1995, Earth Planets and Space, 50(1), 63-80, 1998b.

Basu, B., J. R. Jasperse, D. J. Strickland, and R. E. Daniel, Jr., Transport-theoretic model for the electron-proton-hydrogen atom aurora 2. theory, J. Geophys. Res., 98, 21517-21532, 1993.

Bernhardt, P. A., C. A. Tepley, and L. M. Duncan, Airglow enhancements associated with plasma cavities formed during ionospheric heating experiments, J. Geophys. Res., 94, 9071-9092, 1989.

Borst, W. L., and E. C. Zipf, Cross sections for electron impact excitation of the (0,0) first negative band of $ {N}_2^+$ from threshold to 3 keV, Phys. Rev. A, 1, 834, 1970.

Brändström, U., and Å. Steen, ALIS - a new ground-based facility for auroral imaging in northern scandinavia, in Proceedings of ESA Symposium on European Rocke and Balloon Programmes, no. ESA SP-355, ESA, 1994.

Bronstein, I. N., and K. A. Semendyayev, Handbook of Mathematics, 3rd ed., Springer, 1997.

Carlson, H. C., V. B. Wickwar, and G. P. Mantas, Observations of fluxes of suprathermal electrons accelerated by HF excited instabilities, J. Atmos. Terr. Phys., 44, 1089-1100, 1982.

Djuth, F. T., et al., Large airglow enhancements produced via wave-plasma interactions in sporadic $ {E}$, Geophys. Res. Lett., 26, 1557-1560, 1999.

Doering, J. P., Absolute differential and integral electron excitation cross section for atomic oxygen 9. improved cross section for the $ ^3{P}\rightarrow^1{D}$ transition from 4.0 to 30 eV, J. Geophys. Res., 97, 19531-19534, 1992.

Doering, J. P., and E. E. Gulcicek, Absolute differential and integral electron excitation cross section for atomic oxygen 7. the $ ^3{P}\rightarrow^1{D}$ and $ ^3{P}\rightarrow^1{S}$ transitions from 4.0 to 30 eV, J. Geophys. Res., 94, 1541-1546, 1989.

Fejer, J. A., and M. P. Sulzer, Observation of suprathermal electron fluxes during ionospheric modification experiments, J. Geophys. Res., 92, 3441-3444, 1987.

Ghosh Roy, D. N., Methods of Inverse Problems in Physics, CRC Press, Boca Raton, Fla., 1991.

Gonzalez, R. C., and R. E. Woods, Digital Image Processing, Addison-Wesley, 1993.

Gordon, R., and G. T. Herman, Three-dimensional reconstruction from projections; a review of algorithms, Int. Rev. Cytol., 38, 111-151, 1974.

Grangeat, P., Mathematical framework of cone beam 3d reconstruction via the first derivative of the radon transform., in Proceedings of the congress on mathematical methods in tomography at the mathematical Forschungsinstitut Oberwolfach., (FRG), 5 - 11 Aug 1990, edited by G. T. Herman and L. A. K. Natterer, Lecture notes in mathematics, Springer Verlag, New Yourk, 1990.

Green, R. M., Spherical Astronomy, Cambridge University Press, 1985.

Gurevich, A. V., and G. M. Milikh, Artificial airglow due to modifications of the ionosphere by powerful radio waves, J. Geophys. Res., 102, 389-394, 1997.

Gurevich, A. V., Y. S. Dimant, G. M. Milikh, and V. V. Va'skov, Multiple acceleration of electrons in the regions high power radio-wave reflection in the ionosphere, J. Atmos. Terr. Phys., 47, 1057-1070, 1985.

Gurevich, A. V., A. V. Lukyanov, and K. P. Zybin, Anomalous absorption of powerful radio waves on the striations developed during ionospheric modification, Phys. Lett. A, 211, 363-272, 1996.

Haslett, J. C., and L. R. Megill, A model of the enhanced airglow excited by RF-radiation, Radio Sci., 9, 1005-1019, 1974.

Hedin, A., Extension of the MSIS thermospheric model into the middle and lower atmosphere, J. Geophys. Res., 96, 1159-1172, 1991.

Hill, S. M., S. C. Solomon, D. D. Cleary, and A. L. Broadfoot, Temperature dependence of the reaction $ {N}_2({A}^3\sigma_u^+)+{O}$ in the terrestial thermosphere, J. Geophys. Res., 105, 10615-10629, 2000.

Hunten, D. M., F. E. Roach, and J. W. Chamberlain, A photometric unit for the airglow and aurora, J. Atmos. Terr. Phys., 8, 345-346, 1956.

Itikawa, Y., and A. Ichimura, Cross sections for collisions of electrons and photons with atomic oxygen, J. Phys. Chem. Ref. Data, 19, 637-651, 1990.

Itikawa, Y., M. Hayashi, A. Ichimura, K. Onda, K. Sakimoto, K. Takayanagi, M. Nakamura, H. Nishimura, and T. Takayanagi, Cross sections for collisions of electrons and photons with nitrogen molecules, J. Phys. Chem. Ref. Data, 15, 985-1010, 1986.

Ivanov, V. E., and T. I. Sergienko, Interaction of the auroral electrons with the atmospheric gases. (The Monte-Carlo modeling), Nauka, St. Petersburg, 1992.

Jacobsson, C., Fourier methods in 3D-reconstruction from cone-beam data, Ph.D. thesis, Linköping Univ., Linköping, Sweden, 1996.

Konovalov, V. P., A. Y. Repin, and Y. L. Stupitskiy, Excitaion and ionization of the low density air by fast electrons, Geomagn. Aeron., 34, 821-832, 1995.

Kudo, H., and T. Saito, Feasible cone beam scanning methods for exact reconstruction in three-dimensional tomography, J. Opt. Soc. Am. A, 7, 2169-2183, 1990.

Lummerzheim, D., and J. Lilensten, Electron transport and energy degradation in the ionosphere: evaluation of the numerical solution, comparison with laboratory experiments and auroral observations, Ann. Geophys., 12, 1039-1051, 1994.

Mantas, G. P., Large 6300-Å airglow intensity enhancements observed in ionosphere heating experiments are exited by thermal electrons, J. Geophys. Res., 99, 8993-9002, 1994.

Mantas, G. P., and H. C. Carlson, Reexamination of the $ {O}(^3{P})\rightarrow
																			    {O}(^1{D})$ excitation rate by thermal impact, Geophys. Res. Lett., 18, 159-162, 1991.

Mantas, G. P., and H. C. Carlson, Reinterpretation of the 6300-Å airglow enhancements observed in ionosphere heating experiments based on analysis of Platteville, Colorado, data, J. Geophys. Res., 101, 195-209, 1996.

Menke, W., Geophysical Data Analysis: Discrete Inverse Theory, Geophysical Data Analysis, Academic, San Diego, Calif., 1989.

Perkins, F. W., and P. K. Kaw, On the role of plasma instabilities in ionospheric heating by radio waves, J. Geophys. Res., 76, 282-284, 1971.

Radon, J., Über die Bestimmung von Funktionen durch ihre Integralwerte längs gewisser Mannigfaltigkeiten, Ber. Saechische Akad. Wiss., Math. Phys. Kl, 69, 262, 1917.

Rees, M. H., Physics and Chemistry of the Upper Atmosphere, Cambridge Univ. Press, New York, 1989.

Rees, M. H., and D. Luckey, Auroral electron energy derived from ratio of spectroscopic emissions 1. model computations, J. Geophys. Res., 79, 5181-5186, 1974.

Rietveld, M. T., H. Kohl, H. Kopka, and P. Stubbe, Introduction to ionospheric heating at Tromsø -- I. experimental overview, J. Atmos. Terr. Phys., 55, 577-599, 1993.

Robinson, T. R., The heating of the high latitude ionosphere by high power radio waves, Phys. Rep., 179, 79-209, 1989.

Roble, R. G., and M. H. Rees, Time-dependent studies of the aurora: Effects of particle precipitation on the dynamic morphology of ionospheric and atmospheric properties, Planet. Space Sci., 25, 991-1010, 1977.

Romick, G. J., and A. E. Belon, The spatial variation of auroral luminosity - II, Planet. Space Sci., 15, 1695-1716, 1967.

Schunk, R. W., A mathematical model of the middle and high latitude ionosphere, PAGEOPH, 127, 255-303, 1988.

Semeter, J., Ground based tomography of atmospheric optical emissions, Ph.D. thesis, Boston University, Boston, MA, 1997.

Smart, W. M., Textbook on Spherical Astronomy, 6th ed., Cambridge University Press, 1977.

Smith, B. D., Cone beam tomography: Recent advances and a tutorial review, Opt. Eng., 29, 524-534, 1990.

Solomon, S. C., P. B. Hays, and V. J. Abreu, Tomographic inversion of satellite photometry, Appl. Opt., 23, 3409-3414, 1984.

Solomon, S. C., P. B. Hays, and V. J. Abreu, The auroral 6300 Å emission: Observation and modeling, J. Geophys. Res., 93, 9867-9882, 1988.

Steen, Å., and U. Brändström, A multi-station ground-based imaging system at high latitudes, STEP Int. Newsl., 3, 11-14, 1993.

Strickland, D. J., R. R. Meier, J. H. Hecht, and A. B. Christensen, Deducing composition and incident electron spectra from ground-based auroral optical measurements: theory and model results, J. Geophys. Res., 94, 13527-13539, 1989.

Strickland, D. J., R. E. Daniel, Jr., J. R. Jasperse, and B. Basu, Transport-theoretic model for the electron-proton-hydrogen atom aurora 2. model results, J. Geophys. Res., 98, 21533-21548, 1993.

Strickland, D. J., J. H. Hecht, A. B. Christensen, and D. J. McEwen, Thermospheric disturbance recorded by photometers on-board the ARIA II rocket, J. Geophys. Res., 2000, in press.

Stubbe, P., Modifying effects of a strong electromagnetic wave upon a weakly ionized plasma: A kinetic description, Radio Sci., 16, 417-425, 1981.

Urashima, A., T. Aso, M. Ejiri, Å. Steen, U. Brändström, and B. Gustavsson, Camera calibration by an integrating sphere for the auroral tomography observation, Adv. Polar Upper Atmos. Res., 13, 79-88, 1999.

Valance Jones, A., et al., The aries auroral modelling campaign: Characterisation and modelling of an auroral arc observed from a rocket and a ground-based line of meridian scanners, Planet. Space Sci., 39, 1677-1705, 1991.

Vallance Jones, A., Aurora, D. Riedel Dordrecht Holland, 1974.

Veklerov, E., and J. Llacer, Stopping rule for the MLE algorithm based on statistical hypothesis testing, IEEE Trans. Medical Imaging, 6, 313-319, 1987.

Veklerov, E., and J. Llacer, Feasible images and practical stopping rules for iterative algorithms in emission tomography, IEEE Trans. Medical Imaging, 8, 186-193, 1989a.

Veklerov, E., and J. Llacer, Statistically based image reconstruction for emission tomography,, Int. J. Imaging Syst. Technol., 1, 132-148, 1989b.

Wang, J. G., D. L. Newman, and M. V. Goldman, Vlasov simulation of electron heating by Langmuir turbulence near the critical altitude in the radiation-modified ionosphere, J. Atmos. and Solar-Terr. Phys., 59, 2461-2474, 1997.

Weinstock, J., Theory of enhanced airglow during ionospheric modifications, J. Geophys. Res., 80, 4331, 1975.

Weinstock, J., and B. Bezzerides, Theory of electron acceleration during parametric instabilities, Phys. Rev. Lett., 32, 754-758, 1974.

Yee, J.-H., V. J. Abreu, and W. B. Colwell, Aeronomical determination of the quantom yields of $ {O}(^1{S})$ and $ {O}(^1{D})$ from dissociative recombination of $ {{O}_2}^+$, in Dissociative Recombination: Theory, Experiment, and Applications, edited by J. B. A. Mitchell and S. L. Guberman, pp. 286-302, World Sci., River Edge, N. J., 1989.




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