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Tellus A: Dynamic Meteorology and Oceanography Volume 39, 1987 - Issue 4
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Original Articles

Numerical simulations of polar lows in the Norwegian Sea

S. GrønÁsThe Norwegian Meteorological Institute. P.O. Box 320, Blindern. N-0314 Oslo 3, Norway
,
A. FossThe Norwegian Meteorological Institute. P.O. Box 320, Blindern. N-0314 Oslo 3, Norway
&
M. LystadThe Norwegian Meteorological Institute. P.O. Box 320, Blindern. N-0314 Oslo 3, Norway
Pages 334-353 | Received 24 Jun 1986, Accepted 13 Jan 1986, Published online: 15 Dec 2016

Citations (22)

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Erik W. Kolstad. (2006) A new climatology of favourable conditions for reverse-shear polar lows. Tellus A: Dynamic Meteorology and Oceanography 58:3, pages 344-354.
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Phillipe Gachon, René Laprise, Peter Zwack & François J. Saucier. (2003) The effects of interactions between surface forcings in the development of a model-simulated polar low in Hudson Bay. Tellus A: Dynamic Meteorology and Oceanography 55:1, pages 61-87.
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GÜnther Heinemann & Thomas Klein. (2002) Modelling and observations of the katabatic flow dynamics over Greenland. Tellus A: Dynamic Meteorology and Oceanography 54:5, pages 542-554.
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Paul Skeie & Sigbjørn Grønås,. (2000) Strongly stratified easterly flows across Spitsbergen. Tellus A: Dynamic Meteorology and Oceanography 52:5, pages 473-486.
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Erik Berge & Hugo A. Jakobsen. (1998) A regional scale multilayer model for the calculation of long-term transport and deposition of air pollution in Europe. Tellus B: Chemical and Physical Meteorology 50:3, pages 205-223.
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K.K. Szeto, R.E. Stewart & J.M. Hanesiak. (1997) High-latitude cold season frontal cloud systems and their precipitation efficiency. Tellus A: Dynamic Meteorology and Oceanography 49:4, pages 439-454.
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J. Mailhot, D. Hanley, B. Bilodeau & O. Hertzman. (1996) A numerical case study of a polar low in the Labrador Sea. Tellus A: Dynamic Meteorology and Oceanography 48:3, pages 383-402.
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A. M. CARLETON. (1995) On the interpretation and classification of mesoscale cyclones from satellite infrared imagery. International Journal of Remote Sensing 16:13, pages 2457-2485.
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Mark D. Albright, Richard J. Reed & David W. Ovens. (1995) Origin and structure of a numerically simulated polar low over Hudson Bay. Tellus A: Dynamic Meteorology and Oceanography 47:5, pages 834-848.
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Sigbjørn Grønås & Nils Gunnar Kvamstø. (1995) Numerical simulations of the synoptic conditions and development of Arctic outbreak polar lows. Tellus A: Dynamic Meteorology and Oceanography 47:5, pages 797-814.
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Sigbjørn Grønås. (1995) The seclusion intensification of the New Year’s day storm 1992. Tellus A: Dynamic Meteorology and Oceanography 47:5, pages 733-746.
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Sigbjørn Grønås, Nils Gunnar Kvamstø & Elmer Raustein. (1994) Numerical simulation of the northern Germany storm of 27—28 August 1989. Tellus A: Dynamic Meteorology and Oceanography 46:5, pages 635-650.
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Erik Berge. (1993) Coupling of wet scavenging of sulphur to clouds in a numerical weather prediction model. Tellus B: Chemical and Physical Meteorology 45:1, pages 1-22.
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Michel Roch, Robert Benoit & Neil Parker. (1991) Sensitivity experiments for polar low forecasting with the CMC mesoscale finite‐element model. Atmosphere-Ocean 29:3, pages 381-419.
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Elmer Raustein, Hilding Sundqvist & Kristina B. Katsaros. (1991) Quantitative comparison between simulated cloudiness and clouds objectively derived from satellite data. Tellus A: Dynamic Meteorology and Oceanography 43:5, pages 306-320.
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Erik Berge. (1990) A regional numerical sulfur dispersion model using a meteorological model with explicit treatment of clouds. Tellus B: Chemical and Physical Meteorology 42:5, pages 389-407.
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Thor Erik Nordeng. (1990) A model-based diagnostic study of the development and maintenance mechanism of two polar lows. Tellus A: Dynamic Meteorology and Oceanography 42:1, pages 92-108.
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Kerry A. Emanuel & Richard Rotunno. (1989) Polar lows as arctic hurricanes. Tellus A: Dynamic Meteorology and Oceanography 41:1, pages 1-17.
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Hans Økland. (1987) Heating by organized convection as a source of polar low intensification. Tellus A: Dynamic Meteorology and Oceanography 39:4, pages 397-407.
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Thor erik Nordeng. (1987) The effect of vertical and slantwise convection on the simulation of polar lows. Tellus A: Dynamic Meteorology and Oceanography 39:4, pages 354-375.
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Articles from other publishers (2)

Anastasia Revokatova, Michail Nikitin, Gdaliy Rivin, Inna Rozinkina, Andrei Nikitin & Ekaterina Tatarinovich. (2021) High-Resolution Simulation of Polar Lows over Norwegian and Barents Seas Using the COSMO-CLM and ICON Models for the 2019–2020 Cold Season. Atmosphere 12:2, pages 137.
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C. Drüe & G. Heinemann. (2001) Airborne Investigation Of Arctic Boundary-Layer Fronts Over The Marginal Ice Zone Of The Davis Strait. Boundary-Layer Meteorology 101:2, pages 261-292.
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