Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2013, Vol. 10, No. 3, pp. 193-200
Study of the mechanism of additional electromagnetic waves generation in ice structures and the possible tasks of remote sensing
G.S. Bordonskiy
, A.A. Gurulev
, A.O. Orlov
, S.V. Tsyrenzhapov
Institute of Natural Resources, Ecology and Cryology SB RAS, Chita, Russia
The experiments for studying a mechanism of generation of non-coherent additional electromagnetic waves in ice under pulse of pressure in order 100 bar and microwaves propagated from this area were carried out. The gain of propagated radiation at 1 dB/m was founded. The experiments confirmed the possibility of the appearance of non-coherent secondary waves in field of primary wave, if the medium is under flowing (plastic deformation). The possible tasks of remote sensing where may exist non-coherent additional electromagnetic waves were considered.
Keywords: микроволновое излучение, пресный лед, некогерентные добавочные волны, течение льда, microwave radiation, freshwater ice, non-coherent additional waves, ice flowing
Full textReferences:
- Bordonskii G.P., Radiotekhnika i elektronika, 1995, No. 11, pp.1620–1622.
- Bordonskii G. P., Uchenye zapiski ZabGGPU. Seriya fizika, matematika, tekhnika, tekhnologiya, 2012, No 3 (44), pp.13–17.
- Bordonskii G.S., Gurulev A.A., Krylov S.D., Orlov A.O., Tsyrenzhapov S.V., Zhurnal tekhnicheskoi fiziki, 2011a, Vol. 81, No. 9, pp. 93–99.
- Bordonskii G.S., Gurulev A.A., Krylov S.D., Orlov A.O., Tsyrenzhapov S.V., Led i sneg, 2011b, No. 4, pp.71–79.
- Bordonskii G.S., Gurulev A.A., Krylov S.D., Orlov A.O., Tsyrenzhapov S.V., Sovremennye problemy distantsionnogo zondirovaniya zemli iz kosmosa, 2012, Vol. 9, No. 1, pp. 275–280.
- Bykov V.P., Lazernaya elektrodinamika. Elementarnye i kogerentnye protsessy pri vzaimodeistvii lazernogo izlucheniya s veshchestvom (Laser electrodynamics. Elementary and coherent processes of laser radiation and matter interaction), Moscow: Fizmatlit, 2006, 384 p.
- Gordeev V.F., Malyshkov Yu.P., Chakhlov V.L., Fursa T.V., Biller V.K., Eliseev V.P., Zhurnal tekhnicheskoi fiziki, 1994, Vol. 64, Issue 4, pp. 57–67.
- Klepikov I.N., Sharkov E.A., Issledovanie Zemli iz kosmosa, 1992, No. 6, pp. 3–15.
- Smirnov M.T., Khaldin A.A., Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2012, Vol. 9, No. 2, pp.160–166.
- Fomin V.A., Deistvie vzryvov vo l'du, soprovozhdayushcheesya tayaniem l'da v volne szhatiya (Action of explosions in ice, accompanied by ice melting in wave JUA development) Extended abstract of candidate’s thesis, Moscow: MFTI, 1985, 23 p.
- Matsouka K., Furukawa T., Fujita S., Maeno H., Uratsuka S., Naruse R., Watanabe O., Crystal orientation fabrics within Antarctic ice sheet revealed by a multipolarization plane and dual-frequency radar survey, Journal of Geophysical Research, 2003, Vol. 108, No. B10, pp. 2499–2524.
- Petrenko V.M., Whitworth R.W., Physics of ice, Oxford Univercity Press, 2002, 347 p.
- Shibkov A.A., Golovin Yu.I., Zheltoov M.A., Korolev A.A., Leonov A.A., In situ monitoring of growth of ice from supercooled water by a new electromagnetic method, Journal of Crystal Growth, 2002, Vol. 236, No. 1–3, pp. 434–440.