Author name code: sollum
ADS astronomy entries on 2022-09-14
author:Sollum, Espen
------------------------------------------------------------------------  

Title: The Community Inversion Framework: codes and documentation
Authors: BERCHET, Antoine; Sollum, Espen; Pison, Isabelle; Thompson,
   Rona L.; Thanwerdas, Joël; Fortems-Cheiney, Audrey; Van Peet, Jacob
   C. A.; Potier, Elise; Chevallier, Frédéric; Broquet, Grégoire;
   Berchet, Adrien
Bibcode: 2022zndo...6304912B
Altcode:
  We present here a Community Inversion Framework (CIF) to help
  rationalize development efforts and leverage the strengths of individual
  inversion systems into a comprehensive framework. The CIF is primarily
  a programming protocol to allow various inversion bricks to be
  exchanged among researchers.  In practice, the ensemble of bricks
  makes a flexible, transparent and open-source python-based tool to
  estimate the fluxes of various GHGs both at global and regional scales.
  It will allow running different atmospheric transport models, different
  observation streams and different data assimilation approaches. This
  adaptability will allow a comprehensively assessment of uncertainty
  in a fully consistent framework. The present object contains all codes
  and documentation pages included in the Community Inversion Framework:
  pycif: the Python interface to the CIF model_sources: Fortran sources
  of main models in the CIF tests: pytest configuration bin: example
  of bash scripts to run the CIF docs: ReStructured Text documentation
  sources and HTML compiled pages (also published here)

Title: The Community Inversion Framework: codes and documentation
Authors: BERCHET, Antoine; Sollum, Espen; Pison, Isabelle; Thompson,
   Rona L.; Thanwerdas, Joël; Fortems-Cheiney, Audrey; van Peet, Jacob
   C. A.; Potier, Elise; Chevallier, Frédéric; Broquet, Grégoire;
   Berchet, Adrien
Bibcode: 2021zndo...5045730B
Altcode:
  We present here a Community Inversion Framework (CIF) to help
  rationalize development efforts and leverage the strengths of individual
  inversion systems into a comprehensive framework. The CIF is primarily a
  programming protocol to allow various inversion bricks to be exchanged
  among researchers.  In practice, the ensemble of bricks makes a
  flexible, transparent and open-source python-based tool to estimate
  the fluxes of various GHGs both at global and regional scales.  It
  will allow running different atmospheric transport models, different
  observation streams and different data assimilation approaches. This
  adaptability will allow a comprehensively assessment of uncertainty
  in a fully consistent framework. The present object contains all codes
  and documentation pages included in the Community Inversion Framework:
  pycif: the Python interface to the CIF model_sources: Fortran sources
  of main models in the CIF tests: pytest configuration bin: example
  of bash scripts to run the CIF docs: ReStructured Text documentation
  sources and HTML compiled pages (also published here)   

Title: FLEXPART 10.4
Authors: Pisso, Ignacio; Sollum, Espen; Grythe, Henrik; Kristiansen,
   Nina I; Cassiani, Massimo; Eckhardt, Sabine; Arnold, Delia; Morton,
   Don; Thompson, Rona L.; Groot Zwaaftink, Christine D.; Evangeliou,
   Nikolaos; Sodemann, Harald; Haimberger, Leopold; Henne, Stephan;
   Brunner, Dominik; Burkhart, John F.; Fouilloux, Anne; Brioude, Jerome;
   Philipp, Anne; Seibert, Petra; Stohl, Andreas
Bibcode: 2019zndo...3542278P
Altcode:
  The Lagrangian model FLEXPART simulates the transport, diffusion, dry
  and wet deposition, radioactive decay and first order chemical reactions
  of atmospheric tracers. The model has been recently updated, both
  technical and in the representation of physico-chemical processes. We
  describe the changes, document the most recent input and output files,
  provide working examples and introduce some testing capabilities. The
  model is described in the article "The Lagrangian particle dispersion
  model FLEXPART version 10.4" by Pisso et al. (2019) published in
  Geoscientific Model Development (Geosci. Model Dev., 12, 1–43,
  2019 https://doi.org/10.5194/gmd-12-1-2019).

Title: FLEXPART 10.4
Authors: Pisso, Ignacio; Sollum, Espen; Grythe, Henrik; Kristiansen,
   Nina I; Cassiani, Massimo; Eckhardt, Sabine; Arnold, Delia; Morton,
   Don; Thompson, Rona L.; Groot Zwaaftink, Christine D.; Evangeliou,
   Nikolaos; Sodemann, Harald; Haimberger, Leopold; Henne, Stephan;
   Brunner, Dominik; Burkhart, John F.; Fouilloux, Anne; Brioude, Jerome;
   Philipp, Anne; Seibert, Petra; Stohl, Andreas
Bibcode: 2019zndo...3542277P
Altcode:
  The Lagrangian model FLEXPART simulates the transport, diffusion, dry
  and wet deposition, radioactive decay and first order chemical reactions
  of atmospheric tracers. The model has been recently updated, both
  technical and in the representation of physico-chemical processes. We
  describe the changes, document the most recent input and output files,
  provide working examples and introduce some testing capabilities. The
  model is described in the article "The Lagrangian particle dispersion
  model FLEXPART version 10.4" by Pisso et al. (2019) published in
  Geoscientific Model Development (Geosci. Model Dev., 12, 1–43,
  2019 https://doi.org/10.5194/gmd-12-1-2019).

Title: Hydrogen ionization in the solar atmosphere : exact and
    simplified treatments
Authors: Sollum, Espen
Bibcode: 1999MsT..........1S
Altcode:
  No abstract at ADS