Comptes Rendus
Mécanismes physiques du nuage d'orage et de l'eclair/The physics of thundercloud/and lightning discharge
Reply to the comment on “A new model of charge transfer during ice–ice collisions” [C. R. Physique 4 (2003) 721–722]
[Réponse au commentaire sur « Un nouveau modèle décrivant le transfert de charge lors d'une collision entre particules de glace »]
Comptes Rendus. Physique, semiconductor lasers, Volume 4 (2003) no. 6, pp. 723-724.
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Accepté le :
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DOI : 10.1016/S1631-0705(03)00106-3

Marcia Baker 1 ; John Nelson 2

1 Depts of Earth and Space Science and Atmospheric Sciences, University of Washington, Seattle, WA 98195-1310, USA
2 Nelson Scientific, 7-13-8 Oginosato Higashi Otsu, Shiga 520-0248, Japan
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Marcia Baker; John Nelson. Reply to the comment on “A new model of charge transfer during ice–ice collisions” [C. R. Physique 4 (2003) 721–722]. Comptes Rendus. Physique, semiconductor lasers, Volume 4 (2003) no. 6, pp. 723-724. doi : 10.1016/S1631-0705(03)00106-3. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/S1631-0705(03)00106-3/

[1] J.G. Dash; J.S. Wettlaufer Comment on “A new model of charge transfer during ice–ice collisions”, C. R. Physique, Volume 4 (2003)

[2] M.B. Baker; J. Nelson A new model of charge transfer in ice–ice collisions, C. R. Physique, Volume 3 (2002), pp. 1293-1303

[3] J.G. Dash; B.L. Mason; J.S. Wettlaufer Theory of charge and mass transfer in ice–ice collisions, J. Geophys. Res., Volume 106 (2001), pp. 395-402

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[6] W. Gaskell; A.J. Illingworth Charge transfer accompanying individual collisions between ice particles and its role in thunderstorm electrification, Q. J. Roy. Meteorol. Soc., Volume 106 (1980), pp. 841-854

[7] A.J. Illingworth; J.M. Caranti Ice conductivity restraints on the inductive theory of thunderstorm electrification, J. Geophys. Res. D, Volume 90 (1985), pp. 6033-6039

[8] S.E. Reynolds, Compendium of thunderstorm electricity. NMIMT Socorro, NM Signal Corps Project 172-B, 1954

[9] J. Latham; B.J. Mason Electric charge transfer associated with temperature gradients in ice, Proc. Roy. Soc. A, Volume 260 (1961), pp. 523-536

[10] C. Jaccard Thermoelectric effects in ice crystals I. Theory of the steady state, Phys. Kondens. Materie, Volume 1 (1964), pp. 143-151

[11] N.H. Fletcher Surface structure of water and ice II: a revised model, Phil. Mag., Volume 18 (1968), pp. 1287-1300

[12] V.F. Petrenko; I.A. Ryzhkin Surface states of charge carriers and electrical properties of the surface layer of ice, J. Phys. Chem. B, Volume 101 (1997), pp. 6285-6289

[13] G.J. Turner; C.D. Stow The quasi-liquid film on ice: Evidence from, and implications for contact charging events, Phil. Mag. A, Volume 49 (1984), p. L25-L30

[14] M.B. Baker; J.G. Dash Mechanism of charge transfer between colliding ice particles in thunderstorms, J. Geophys. Res. D, Volume 99 (1994), pp. 10621-10626

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