Application of a new data operator-splitting data assimilation technique to the 3-D VERB diffusion code and CRRES measurements

Application of a new data operator-splitting data assimilation technique to the 3-D VERB diffusion code and CRRES measurements

In this study we present 3‐D data assimilation using CRRES data and 3‐D Versatile Electron Radiation Belt Model (VERB) using a newly developed operator‐splitting method. Simulations with synthetic data show that the operator‐splitting Kalman filtering technique proposed in this study can successfull...

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Bibliographic Details
Published in:Geophysical research letters Vol. 40; no. 19; pp. 4998 - 5002
Main Authors: Shprits, Yuri, Kellerman, Adam, Kondrashov, Dmitri, Subbotin, Dmitriy
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 16-10-2013
John Wiley & Sons, Inc
Subjects:
Data assimilation
Data collection
Geophysics
Kalman filters
modeling
Radiation
radiation belts
Online Access:Get full text
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Summary:In this study we present 3‐D data assimilation using CRRES data and 3‐D Versatile Electron Radiation Belt Model (VERB) using a newly developed operator‐splitting method. Simulations with synthetic data show that the operator‐splitting Kalman filtering technique proposed in this study can successfully reconstruct the underlying dynamic evolution of the radiation belts. The method is further verified by the comparison with the conventional Kalman filter. We applied the new approach to 3‐D data assimilation of real data to globally reconstruct the dynamics of the radiation belts using pitch angle, energy, and L shell dependent CRRES observations. An L shell time cross section of the global data assimilation results for nearly equatorially mirroring particles and high and low values of the first adiabatic invariants clearly show the difference between the radial profiles of phase space density. At μ = 700 MeV/G cross section of the global reanalysis shows a clear peak in the phase space density, while at lower energy of 70 MeV/G the profiles are monotonic. Since the radial profiles are obtained from one global reanalysis, the differences in the profiles reflect the differences in the underlying physical processes responsible for the dynamic evolution of the radiation belt energetic and relativistic electrons. Key Points Operator‐splitting 3‐D reanalysis can accurately reconstruct PSD Profiles of PSD at lower energies are monotonic Three‐dimensional reconstruction shows clear peaks in PSD MeV
Bibliography:ark:/67375/WNG-8HQPR59H-6
istex:1A4CD76F760758CD1CCA518D2765587BDECCA535
Supporting informationThe Supporting information file describes the implementation of the operator-splitting technique used in this study.
ArticleID:GRL50969
ISSN:0094-8276
1944-8007
DOI:10.1002/grl.50969