Clemens Spensberger
Clemens Spensberger
Researcher at the Geophysical Institute, University of Bergen, and the Bjerknes Centre for Climate
Verified email at uib.no - Homepage
Title
Cited by
Cited by
Year
Daily to decadal modulation of jet variability
T Woollings, E Barnes, B Hoskins, YO Kwon, RW Lee, C Li, E Madonna, ...
Journal of Climate 31 (4), 1297-1314, 2018
342018
Scientific documentation of the multiscale model system M-SYS
KH Schlünzen, DD Flagg, BH Fock, A Gierisch, C Lüpkes, V Reinhardt, ...
MEMI Technical Report 4, Meteorologisches Institut, KlimaCampus, Universität …, 2012
282012
Technical Documentationof of the Multiscale Model System M-SYS
KH Schlünzen, M Boettcher, BH Fock, A Gierisch
132018
A new look at deformation as a diagnostic for large-scale flow
C Spensberger, T Spengler
Journal of the Atmospheric Sciences 71 (11), 4221-4234, 2014
112014
Beyond cold and warm: an objective classification for maritime midlatitude fronts
C Spensberger, M Sprenger
Quarterly Journal of the Royal Meteorological Society 144 (710), 261-277, 2018
92018
Upper-tropospheric jet axis detection and application to the boreal winter 2013/14
C Spensberger, T Spengler, C Li
Monthly Weather Review 145 (6), 2363-2374, 2017
82017
The Norwegian Earth System Model, NorESM2–Evaluation of theCMIP6 DECK and historical simulations
Ø Seland, M Bentsen, L Seland Graff, D Olivié, T Toniazzo, ...
Geoscientific Model Development Discussions, 1-68, 2020
32020
The connection between the southern annular mode and a feature-based perspective on Southern Hemisphere midlatitude winter variability
C Spensberger, MJ Reeder, T Spengler, M Patterson
Journal of Climate 33 (1), 115-129, 2020
32020
Front–orography interactions during landfall of the 1992 New Year's Day Storm
C Spensberger, S Schemm
Weather and Climate Dynamics 1 (1), 175-189, 2020
12020
Albedoänderungen in der Arktis durch Rußemissionen von Schiffen und Flugzeugen
C Spensberger
Univ., 2010
12010
Feature-Based Jet Variability in the Upper Troposphere
C Spensberger, T Spengler
Journal of Climate 33 (16), 6849-6871, 2020
2020
Increasing atmospheric model resolution enhances probability for deep ocean convection
C Spensberger, T Spengler
2020
Climatology and variability of jets in the upper troposphere
C Spensberger, T Spengler
EGU General Assembly Conference Abstracts, 5965, 2020
2020
Sensitivity of Atmosphere-Ocean Interactions during Cold Air Outbreaks to Characteristics of the Sea-Ice Edge
T Spengler, C Spensberger
EGU General Assembly Conference Abstracts, 5489, 2020
2020
Monthly means of Instantaneous Diagnostics
C Spensberger, M Kimmritz
2020
How do fronts of differing types arise?
C Spensberger, MJ Reeder
EGUGA, 5989, 2018
2018
Daily to decadal modulation of Atlantic jet variability
T Woollings, E Barnes, B Hoskins, YO Kwon, R Lee, C Li, E Madonna, ...
EGUGA, 5389, 2018
2018
The Effect of SST Gradients on Atmospheric Frontogenesis
M Reeder, T Spengler, C Spensberger
EGUGA, 12101, 2018
2018
Beyond Warm and Cold: An Objective Classification for Maritime Mid-Latitude Fronts
C Spensberger, M Sprenger
EGUGA, 4330, 2018
2018
Synoptic Systems Interacting with the Rocky Mountain Barrier: Observations and Theories
C Spensberger, J Egger, T Spengler
Monthly Weather Review 145 (3), 783-794, 2017
2017
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