[1] Baatz H : Radioaktive Isotope verbessern nicht den Blitzschutz. ETZ 1972 no. 93.
[2] Berger G.: The application of upward leader initiation time advantage into an electrogeometrical model, Lightning protection workshop. Standards Australia, Hobart, November 1992.
[3] Berger G .: Determination of the inception electric field of the lightning upward leader. Proc 8th Int. Symp. High Voltage Eng., Paper 70.02, Yokohama, Japan 1993.
[4] EN 61024-1 ; 1995. Protection of structures against lightning. Part 1 : General principles.
[5] G o I de R . H .: Lightning Protection. Arnold, London, 1973.
[6] Gorin B.N., Shkilev A.V.: Discharge development in long gaps in the presence of impulse voltage of positive polarity. Elektriczestwo 1974, no. 2,29-39.
[7]Hartono Z.A., Robiah I.; A method of identifying the lightning strike location on a structure. Paper 4.5, Proc. Int. Conf. on EMC, pp 112-117, Kuala Lumpur, April 1995.
[8] IEC1024-1:1990: Protection of structures against lightning. Part 1 : General principles.
[9] Les Renardieres Group: Dischages (positive and negative) in long air gaps at les Renadieres. ElectraNo. 53, 31-153, 1977 and No. 74, 67-216, 1981.
[10] Mackerras D., Darveniza M., Liew Ah Choy: Critical Review of Claimed Enhanced Lightning Protection Properties of Early Streamer Emission Air Terminals for Lightning Protection of Buildings. CIGRE1995 SC 33 WG 33.01 (TF 03) IWD-3.
[11] PN-87/E-05003/01: Ochrona odgromowa obiektów budowlanych. Wymagania ogólne.
[12]Soula S.:Transfer of electrical space charge from corona between ground and thundercloud: measurements and modeling. J. Geophys. Res., 99,10,759-10,765,1994.
[13] CIGRE Working Group 33-01-03: Lightning interception. Minutes of the meeting held in Milan on May 18th, 1995.
[14] Ulotka reklamowa firmy AplicacionesTecnologicas S.A.: „Ion Corona DAT-Controler Lightning Conductor. The most advanced lightning protection system".