Geoscience Reference
In-Depth Information
Nicolls, M. J., Kelley, M. C., Varney, R. H., and Heinselman, C. J. (2008). Spectral
observations of polar mesospheric summer echoes at 33 cm (450 MHz) with PFISR.
J. Atmos. Solar-Terr. Phys.,
in press.
Nordberg, W., Katchen, L., Theon, J., Smith, W. S. (1965). Rocket observations of the
structure of the mesosphere.
J. Atmos. Sci
.
22
, 611-622.
Orlanski, I., and Bryan, K. (1969). Formation of the thermocline step structure by large-
amplitude internal gravity waves.
J. Geophys. Res
.
74
, 6975-6983.
Pasko, V. P., Inan, U. S., and Bell, T. F. (1997). Sprites produced by quasielectrostatic
heating and ionization in the lower ionosphere.
J. Geophys. Res.
102
, 4529.
Pasko, V. P., Stanley, M. A., Mathews, J. D., Inan, U. S., and Wood, T. G. (2002).
Electrical discharge from a thundercloud top to the lower ionosphere.
Nature
416
,
152-154.
Pedersen, A., Trøim, J. and Kane, J.A. (1970). Rocket measurements showing removal
of electrons above the mesopause in summer at high latitude.
Planet. Space Sci.
18
,
945.
Pfaff, R., Holzworth, R., Goldberg, R., Freudenreich, H., Voss, H., Croskey, C., Mitchell,
J., Gumbel, J., Bounds, S., Singer, W., and Latteck, R. (2001). Rocket probe obser-
vations of electric field irregularities in the polar summer mesosphere.
Geophys. Res.
Lett
.
28
(8), 1431-1434.
Rapp, M., and Lübken, F. J. (2004a). On the nature of PMSE: Electron diffusion
in the vicinity of charged particles revisited.
J. Geophys. Res.
108
(D8), 8437,
doi:10.29/2002JD002857.
———. (2004b). Polar mesosphere summer echoes (PMSE): Review of observations and
current understanding.
Atmos. Chem. Phys
.
4
, 2601-2633.
Reid, G. C. (1990). Ice particles and electron “bite-outs” at the summer polar mesopause.
J. Geophys. Res.
95
, 13,891-13,896.
———. (1997). The nucleation and growth of ice particles in the upper mesosphere.
Adv.
Space Res.
20
(6), 1285-1291.
Roble, R. G., and Dickinson, R. E. (1989). How will changes in carbon dioxide and
methane modify the mean structure of the mesosphere and thermosphere?
Geophys.
Res. Lett
.
16
, 1441.
Roble, R. G., and Ridley, E. C. (1994). A thermosphere-ionosphere-mesosphere-
electrodynamics general circulation model (TIMEGCM): Equinox solar cycle mini-
mum simulations (30-500 km).
Geophys. Res. Lett
.
21
, 417-420.
Rosinski, J., and Snow, R. H. (1961). Secondary particulate matter from meteor vapors.
J. Meteorol
.
18
, 736-745.
Röttger, J., Rietveld, M. T., La Hoz, C., Hall, T., Kelley, M. C., and Swartz, W. (1990).
Polar mesosphere summer echoes observed with the EISCAT 933MHz radar and the
CUPRI 46.9MHz radar, their similarity to 224MHz radar echoes and their relation
to turbulence and electron density profiles.
Radio Sci
.
25
, 671-687.
Røyrvik, O., and Smith, L. (1984). Comparison of mesospheric VHF radar echoes and
rocket probe electron concentration measurements.
J. Geophys. Res
.
89
, 9014.
Schröder, W. (2001). Otto Jesse and the investigation of noctilucent clouds 115 years
ago.
Bulletin of the American Meteorological Society
82
(11), 2457-2468.
Seyler, C. E. (2005). Internal waves and undular bores in mesospheric inversion layers.
J. Geophys. Res.
110
, D09S05, doi:10.1029/2004JD004685.
Search WWH ::
Custom Search