Jussi Leinonen
TitleCited byYear
Radar Backscattering from Snowflakes: Comparison of Fractal, Aggregate, and Soft Spheroid Models.
J Tyynelä, J Leinonen, D Moisseev, T Nousiainen
Journal of Atmospheric & Oceanic Technology 28 (11), 2011
Observed relations between snowfall microphysics and triple‐frequency radar measurements
S Kneifel, A von Lerber, J Tiira, D Moisseev, P Kollias, J Leinonen
Journal of Geophysical Research: Atmospheres 120 (12), 6034-6055, 2015
Evidence of Nonspheroidal Behavior in Millimeter-Wavelength Radar Observations of Snowfall
J Leinonen, S Kneifel, D Moisseev, J Tyynelä, S Tanelli, T Nousiainen
High-level interface to T-matrix scattering calculations: architecture, capabilities and limitations
J Leinonen
Optics express 22 (2), 1655-1660, 2014
A climatology of disdrometer measurements of rainfall in Finland over five years with implications for global radar observations
J Leinonen, D Moisseev, M Leskinen, WA Petersen
Journal of applied meteorology and climatology 51 (2), 392-404, 2012
Radar signatures of snowflake riming: A modeling study
J Leinonen, W Szyrmer
Earth and Space Science 2 (8), 346-358, 2015
What do triple‐frequency radar signatures reveal about aggregate snowflakes?
J Leinonen, D Moisseev
Journal of Geophysical Research: Atmospheres 120 (1), 229-239, 2015
First observations of triple‐frequency radar Doppler spectra in snowfall: Interpretation and applications
S Kneifel, P Kollias, A Battaglia, J Leinonen, M Maahn, H Kalesse, ...
Geophysical Research Letters 43 (5), 2225-2233, 2016
Applicability of the Rayleigh‐Gans approximation for scattering by snowflakes at microwave frequencies in vertical incidence
J Tyynelä, J Leinonen, CD Westbrook, D Moisseev, T Nousiainen
Journal of Geophysical Research: Atmospheres 118 (4), 1826-1839, 2013
Linking snowflake microstructure to multi‐frequency radar observations
J Leinonen, D Moisseev, T Nousiainen
Journal of Geophysical Research: Atmospheres 118 (8), 3259-3270, 2013
Improved Retrieval of Cloud Liquid Water from CloudSat and MODIS
J Leinonen, MD Lebsock, GL Stephens, K Suzuki
Journal of Applied Meteorology and Climatology 55 (8), 1831-1844, 2016
Performance assessment of a triple-frequency spaceborne cloud–precipitation radar concept using a global cloud-resolving model
J Leinonen, MD Lebsock, S Tanelli, K Suzuki, H Yashiro, Y Miyamoto
Atmospheric Measurement Techniques 8 (8), 3493, 2015
Retrieval of snowflake microphysical properties from multifrequency radar observations
J Leinonen, MD Lebsock, S Tanelli, OO Sy, B Dolan, RJ Chase, JA Finlon, ...
Atmospheric Measurement Techniques 11 (10), 5471, 2018
Mapping radar reflectivity values of snowfall between frequency bands
J Leinonen, D Moisseev, V Chandrasekar, J Koskinen
IEEE transactions on geoscience and remote sensing 49 (8), 3047-3058, 2011
Modeling radar backscattering from melting snowflakes using spheroids with nonuniform distribution of water
J Tyynelä, J Leinonen, D Moisseev, T Nousiainen, A von Lerber
Journal of Quantitative Spectroscopy and Radiative Transfer 133, 504-519, 2014
The accuracy of FIMR wave forecasts in 2002-2005
L Tuomi, J Leinonen, H Boman
Finnish Institute of Marine Research, 2008
Snowflake melting simulation using smoothed particle hydrodynamics
J Leinonen, A von Lerber
Journal of Geophysical Research: Atmospheres 123 (3), 1811-1825, 2018
Interregional differences in MODIS‐derived cloud regimes
J Leinonen, MD Lebsock, L Oreopoulos, N Cho
Journal of Geophysical Research: Atmospheres 121 (19), 11,648-11,665, 2016
Modeling radar attenuation by a low melting layer with optimized model parameters at C-band
A von Lerber, D Moisseev, J Leinonen, J Koistinen, MT Hallikainen
IEEE Transactions on Geoscience and Remote Sensing 53 (2), 724-737, 2014
Evaluation of the Rayleigh–Gans approximation for microwave scattering by rimed snowflakes
J Leinonen, S Kneifel, RJ Hogan
Quarterly Journal of the Royal Meteorological Society 144, 77-88, 2018
The system can't perform the operation now. Try again later.
Articles 1–20