Geoscience Reference
In-Depth Information
Inan US, Bell TF, Pasko VP, Sentman DD, Wescott EM, Lyons WA (1995) VLF signa-
tures of ionospheric disturbances associated with sprites. Geophys Res Lett 22:3461-3464.
doi:10.1029/95GL03507
Inan
US,
Sampson
WA,
Taranenko
YN
(1996a)
Space-time
structure
of
optical
flashes
and
ionization
changes
produced
by
lightning-EMP.
Geophys
Res
Lett
23:133-136.
doi:10.1029/95GL03816
Inan US, Reising SC, Fishman GJ, Horack JM (1996b) On the association of terrestrial gamma-ray
bursts with lightning and implications for sprites. Geophys Res Lett 23:1017-1020
Inan US, Barrington-Leigh C, Hansen S, Glukhov VS, Bell TF, Rairden R (1997) Rapid lateral
expansion of optical luminosity in lightning-induced ionospheric flashes referred to as “elves” .
Geophys Res Lett 24(5):583-586
Inan US, Cummer SA, Marshall RA (2010) A survey of ELF and VLF research on
lightning-ionosphere interactions and causative discharges, J Geophys Res 115, A00E36.
doi:10.1029/2009JA014775
Ishikawa H (1961) Nature of lightning discharge as origin of atmospherics. Proc. Res. Inst. Atmos
Nagoya Univ 8A:1-274
Israël H (1970) Atmospheric electricity, vol 1, 2nd edn. Israel Program for Scientific Translations,
Jerusalem
Israël H (1973) Atmospheric electricity, vol 2, 2nd edn. Israel Program for Scientific Translations,
Jerusalem
Jacobson AR (2003) Relationship of intracloud lightning radiofrequency power to light-
ning storm height, as observed by the FORTE satellite. J Geophys Res 108(D7):4204.
doi:10.1029/2002JD002956
Jones DLl (1970) Electromagnetic radiation from multiple return stroke of lightning. J Atmos Terr
Phys 32:1077-1093
Krehbiel PR, Riousset JA, Pasko VP, Thomas RJ, Rison W, Stanley MA, Edens HE (2008) Upward
electrical discharges from thunderstorms. Nature Geosci 1(4):233-237. doi:10.1038/ngeo162
Krider EP (1986) Physics of lightning. In: Earth's electrical environment. National Academy Press,
Washington, DC, pp 30-40
Kudintseva IG, Nickolaenko AP, Hayakawa M (2009) Spatial fine structure of model electric pulses
in mesosphere above -shaped stroke of lightning. Surv Geophys 71:603-608
Kudintseva IG, Nickolaenko AP, Hayakawa M (2010) Transient electric field in the mesosphere
above a -shape lightning stroke. Surv Geophys 31:427-448. doi:10.1007/s10712-0010-9095-x
Kuo C, Chou JK, Tsai LY, Chen AB, Su HT, Hsu RR, Cummer SA, Frey HU, Mende SB,
Takahashi Y, Lee LC (2009) Discharge process, electric field, and electron energy in ISUAL-
recorded gigantic jets. J Geophys Res 114:A04314. doi:10.1029/2008JA013791
Lehtinen N (2000) Relativistic runaway electrons above thunderstorms. Ph.D. dissertation, Stan-
ford University
Lehtinen NG, Inan US (2007) Possible persistent ionization caused by giant blue jets. Geophys
Res Lett 34:L08804. doi:10.1029/2006GL029051
Lehtinen N, Bell T, Pasko V, Inan U (1997) A two-dimensional model of runaway electron beams
driven by quasi-electrostatic thundercloud fields. Geophys Res Lett 24:2639-2642
Lehtinen N, Bell T, Inan U (1999) Monte Carlo simulation of runaway MeV electron break-
down with application to red sprites and terrestrial gamma ray flashes. J Geophys Res
104:24699-24712
Li C, Ebert U, Hundsdorfer W (2009) 3D hybrid computations for streamer discharges and
production of run-away electrons. J Phys D Appl Phys 42:202003
Li C, Ebert U, Hundsdorfer W (2010) Spatially hybrid computations for streamer discharges with
generic features of pulled fronts: I. Planar fronts. J Comput Phys 229:200
Lieberman MA, Lichtenberg AJ (1994) Principles of plasma discharges and material processing.
Wiley, New York
Liu NY, Pasko VP (2006) Effects of photoionization on similarity properties of streamers at various
pressures in air. J Phys D Appl Phys 39:327-334. doi:10.1088/0022-3727/39/2/013
Search WWH ::
Custom Search