        PresentationsThe following presentations were given at the LPMR Workshop. You can download the abstracts and most of the presentations in pdf-format. Below the presentations are listed alphabetically.
Click here to view them
sorted by sessions. Bailey et al.,
A working group for determining the state-of-the-art in mesospheric ice particle sizes. Bauerecker et al.,
FTIR-studies on water nanoparticles in the aerosol phase. Baumgarten et al.,
New lidar developments for the mesosphere. Baumgarten et al.,
A network of ground based digital cameras for online observation of NLC from 63N to 37N: Image analysis, examples and comparison to other instruments. Baumgarten et al.,
Observation of three parameters to describe noctilucent clouds particles above ALOMAR (69N). Bellan,
Ambipolar diffusion with hot electrons: PMSE overshoots or undershoots? Belova et al.,
Are low-latitude mesospheric radar echoes also of non-turbulent origin? A comparison between mesospheric winter echoes from polar and low latitudes. Benze et al.,
AIM CIPS observations of the last four PMC seasons using an SBUV-type analysis. Bremer et al.,
Long-term changes of mesospheric summer echoes at polar and middle latitudes. Chandran et al.,
Gravity Wave influences on the large-scale PMC occurrence variability: A study from PMC structures observed from the CIPS experiment on the AIM satellite. Dalin et al.,
A comparison between ground-based observations of noctilucent clouds and Aura satellite data. Dalin et al.,
Studies of the upper mesosphere and lower thermosphere from the International Space Station. DeLand et al.,
PMC trends derived from SBUV version 4 data. DeLand et al.,
Local time variations in PMCs observed by Aura OMI. Feofilov et al.,
Correlative analysis of ice clouds properties and mesospheric temperature and water vapour during polar summer seasons of 2002-2008. Fiedler et al.,
The properties of noctilucent clouds above ALOMAR. Friedrich,
Bite-outs and other "Black Holes" for mesospheric electrons. Gordley et al.,
SOFIE data - current and projected results. Gumbel,
Rocket and ground-based opportunities around Esrange. Gumbel et al.,
Eight years of NLC observations by Odin. Gumbel et al.,
An extended spectral analysis of noctilucent clouds observed by the Odin satellite. Hallgren et al.,
Diurnal tides in the upper mesosphere water vapor content measured by ground based microwave spectroscopy. Havnes et al.,
Polar mesospheric summer and winter echoes modulated by artificial electron heating. Hayman et al.,
Depolarization lidar applied to polar mesospheric clouds. Hedin et al.,
The PHOCUS project - particle interactions in the polar summer mesosphere. Hervig et al.,
First satellite abservations of meteoric smoke in the upper atmosphere. Hervig et al.,
PMC particle size from SOFIE observations. Hoffmann et al.,
Mesospheric wave activity at high latitudes during summer and their relation to PMSE. Hoppe,
The morphology of noctilucent clouds and polar mesosphere summer echoes: The role of air parcel trajectories from gravity waves. Janches et al.,
Direct observation of micrometeoroid differential ablation: Insights into the deposition of meteoric chemical constituents in the MLT. Karlsson,
Atmospheric coupling processes inferred from models and measurements of noctilucent clouds. Kero et al.,
Polar Mesosphere Winter Echoes modulated by the HF heating experiments. Kirkwood et al.,
Similarities and differences between Arctic and Antarctic PMSE - ESRAD, MARA and Davis. Klekociuk et al.,
Multi-year characteristics of polar mesospheric clouds measured by lidar at Davis, Antarctica. Knappmiller et al.,
Mass-analysis of charged aerosol particles in a PMSE/NLC layer during the ECOMA/MASS rocket campaign. Körnich et al.,
The interhemispheric coupling of the middle atmosphere circulation in an idealized model. Li et al.,
Microphysical parameters of mesospheric ice clouds derived from calibrated PMSE observations at 53.5 MHz and 500 MHz. Lopez-Puertas et al.,
Measurements of polar mesospheric clouds in infrared emission by MIPAS/ENVISAT. Lossow,
Odin/SMR water measurements in the summer mesopause region. Lübken et al.,
Stratospheric and solar cycle effects on long term variability of mesospheric ice clouds. Lumpe et al.,
PMC retrievals from CIPS: algorithm description, error analysis and cloud detection sensitivity. Lundin et al.,
Odin, a rebirth as a pure aeronomy research satellite. Megner et al.,
NLC nucleation on charged aerosols. Merkel et al.,
WACCM simulations of long-term changes in polar mesospheric clouds. Mills et al.,
Microphysical studies of mesospheric sulfate aerosol as PMC nuclei in WACCM3. Morris,
PMSE observations in both hemispheres. Müller et al.,
The investigation of small scale structures in NLC with the ALOMAR RMR-Lidar. Murray et al.,
Homogeneous nucleation of amorphous solid water particles in the upper mesosphere. Pautet et al.,
Investigating short-period gravity waves evident in noctilucent clouds over Sweden during five consecutive summers. Olivero et al.,
Atmospheric drivers for mesospheric clouds. Pérot et al.,
First climatology of polar mesospheric clouds from GOMOS/ENVISAT stellar occultation instrument. Petelina et al.,
Temperature in mesospheric ice retrieved from the ACE-FTS data. Plane et al.,
Silicon and Magnesium - the forgotten meteoric elements. Rahpoe et al.,
Impact of solar proton events on the occurence of noctilucent clouds. Randall et al.,
An overview of AIM Cloud Imaging and Particle Size (CIPS) data. Rapp,
New results on particle charging in the mesosphere. Rapp et al.,
Studies of PMSE and PMWE at the IAP: Recent results and future directions. Robert et al.,
Evidence of a 27-day signature in noctilucent cloud occurrence frequency. Rusch et al.,
A comparison of PMC size retrievals from satellite observations: spectral versus phase function approaches. Russell et al.,
The Aeronomy of Ice in the Mesosphere mission: Science results after four PMC seasons. Saunders et al.,
Ice nucleation by refractory nanoparticles. She,
Recent advances in midlatitude tidal and mean temperature/wind climatology and long-term temperature trends deduced from Na lidar observations. Shettle et al.,
PMC observations compared with coincident MLS temperature and water vapor measurements. Smirnova et al.,
Polar mesosphere summer echoes with MST radar ESRAD, Kiruna, Sweden: Variations and trends over 12 years. Stegman et al.,
Simultaneous observations of NLC from space and from the ground. Stevens et al.,
The diurnal variation of Polar Mesospheric Clouds using multisatellite observations with a data assimilation system. Taylor et al.,
Coordinated AIM satellite and ground-based optical and radar observations of polar mesospheric clouds and echoes. Thomas et al.,
Local time variations of polar mesospheric clouds: 45 seasons from SBUV and 4 seasons from AIM CIPS. Thomas et al.,
Modeling particle size distributions in Polar Mesospheric Clouds. Turunen et al.,
Upper-atmospheric NOx production by energetic particle precipitation: A mechanism for sun-earth coupling? Ulich et al.,
SLICE - a new meteor radar in Finnish Lapland. von Savigny et al.,
Dynamical heating of the polar summer mesopause during solar proton events and its effects on NLCs. Yamashita et al.,
Gravity wave impacts on the atmospheric coupling from the MLT region to the stratosphere during stratospheric sudden warming with TIME-GCM. Zasetsky et al.,
A stepwise mechanism for ice particles formation in the polar summer mesosphere: thermodynamic and kinetic aspects. |