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Dr. Evelyn Jäkel

Research Fellow

Institut für Meteorologie
Institutsgebäude
Prager Straße 34-36, Room 504
04317 Leipzig

Phone: +49 341 97-36658
Fax: +49 341 97-32899

Abstract

I’m involved in the (AC)3-project. My work deals with the effect of the spatiotemporal variability of Arctic surface properties on the radiative energy transfer between surface and atmosphere. The connection between field measurements and radiative transfer modelling is an essential component of my research activities.

Professional career

  • since 06/2011
    Scientific employee at Leipzig University
  • 10/2006 - 05/2011
    Scientific employee at Mainz University
  • 08/2005 - 09/2006
    Scientific employee at the National Institute for Public Health and the Environment (Netherlands)
  • 08/2001 - 05/2005
    Scientific employee at the Leibniz Institute for Tropospheric Research

Education

  • 10/1996 - 07/2001
    Study of Meteorology (Diplom) at FU Berlin
  • 01/2002 - 09/2005
    PhD at Leipzig University: An airborne system for fast measurements of upwelling and downwelling spectral actinic flux densities

I’m involved in the (AC)3-project. My work deals with the effect of the spatiotemporal variability of Arctic surface properties on the radiative energy transfer between surface and atmosphere. The connection between field measurements and radiative transfer modelling is an essential component of my research activities.

  • Influence of surface heterogeneity on radiative forcing and retrieval of aerosol and cloud properties in the Arctic (C01)
    Wendisch, Manfred
    Duration: 01/2016 - 12/2023
    Funded by: DFG Deutsche Forschungsgemeinschaft
    Involved organisational units of Leipzig University: Mesoskalige Prozesse und Numerische Wettervorhersage; SFB Transregio 172: Arktische Verstärkung: Klimarelevante Atmosphären- und Oberflächenprozesse und Rückkopplungsmechanismen (AC)3
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more projects

  • Jäkel, E.; Stapf, J.; Wendisch, M.; Nicolaus, M.; Dorn, W.; Rinke, A.
    Validation of the sea ice surface albedo scheme of the regional climate model HIRHAM-NAOSIM using aircraft measurements during the ACLOUD/PASCAL campaigns
    Cryosphere. 2019. 13 (6). pp. 1695-1708
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  • Nakoudi, K.; Ritter, C.; Böckmann, C.; Kunkel, D.; Eppers, O.; Rozanov, V. V.; Mei, L.; Pefanis, V.; Jäkel, E.; Herber, A.; Maturilli, M.; Neuber, R.
    Does the Intra-Arctic Modification of Long-Range Transported Aerosol Affect the Local Radiative Budget? (A Case Study)
    Remote Sensing. 2020. 12 (13). p. 2112
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  • Pohl, C.; Istomina, L.; Tietsche, S.; Jäkel, E.; Stapf, J.; Spreen, G.; Heygster, G.
    Broadband albedo of Arctic sea ice from MERIS optical data
    Cryosphere. 2020. 14 (1). pp. 165-182
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  • Ruiz Donoso, E.; Ehrlich, A.; Schäfer, M.; Jäkel, E.; Schemann, V.; Crewell, S.; Mech, M.; Kulla, B. S.; Kliesch , L.-L.; Neuber, R.; Wendisch, M.
    Small-scale structure of thermodynamic phase in Arctic mixed-phase clouds observed by airborne remote sensing during a cold air outbreak and a warm air advection event
    Atmospheric chemistry and physics. 2020. 20 (9). pp. 5487-5511
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  • Sun, B.; Jäkel, E.; Schäfer, M.; Wendisch, M.
    A biased sampling approach to accelerate backward Monte Carlo atmospheric radiative transfer simulations and its application to Arctic heterogeneous cloud and surface conditions
    Journal of Quantitative Spectroscopy & Radiative Transfer. 2020.
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more publications