Level-2a simulated gravity field solutions of ESA’s science support study to Mass change And Geosciences International Constellation (MAGIC) Phase A

DOI

The joint ESA/NASA Mass-change And Geosciences International Constellation (MAGIC) mission has the objective to extend time series from previous gravity missions, including an improvement of accuracy and spatio-temporal resolution. The long-term monitoring of Earth's gravity field carries information on mass-change induced by water cycle, climate change, and mass transport processes between atmosphere, cryosphere, oceans and solid Earth. The MAGIC mission will be composed of two satellite pairs flying in different orbit planes. The NASA/DLR--led first pair (P1) is expected to be in a near-polar orbit around 500 km of altitude; while the second ESA--led pair (P2) is expected to be in an inclined orbit of 65--70 degrees at approximately 400 km altitude. The ESA--led pair P2 Next Generation Gravity Mission (NGGM) shall be launched after P1 in a staggered manner to form the MAGIC constellation. The addition of an inclined pair shall lead to reduction of temporal aliasing effects and consequently of reliance on de-aliasing models and post-processing. The main novelty of the MAGIC constellation is the delivery of mass-change products at higher spatial resolution, temporal (i.e. sub--weekly) resolution, shorter latency, and higher accuracy than GRACE and GRACE-FO. This will pave the way to new science applications and operational services. The performances of different MAGIC mission scenarios for different application areas in the field of geosciences were analysed in the frame of the initial ESA Science Support activities for MAGIC. The data sets provided here are the Level-2a simulated gravity field solutions of MAGIC scenarios and the related reference signal that were used for these analyses.

The .gfc files in the folders monthly (31-day solutions) and weekly (7-day solutions) contain the estimated (HIS) coefficients (Cnm, Snm) as well as the formal errors (SigCnm, SigSnm) of the different MAGIC scenarios. In order to compute the coefficient errors, the reference/true HIS coefficients contained in the folder HIS_reference_fields need to be subtracted from the estimated HIS coefficients.

The data sets provided here comprise the Level-2a simulated gravity field solutions of MAGIC scenarios and the related reference signal (based on Dobslaw et al. 2014; 2015) that were used for the above analyses.

Identifier
DOI https://doi.org/10.5880/icgem.2023.005
Related Identifier https://doi.org/10.1093/gji/ggad266
Related Identifier https://doi.org/10.5880/GFZ.1.3.2014.001
Related Identifier https://doi.org/10.1007/s00190-014-0787-8
Metadata Access http://doidb.wdc-terra.org/oaip/oai?verb=GetRecord&metadataPrefix=oai_datacite&identifier=oai:doidb.wdc-terra.org:7827
Provenance
Creator Daras, Ilias ORCID logo; March, Günther ORCID logo; Pail, Roland ORCID logo; Hughes, Chris ORCID logo; Braitenberg, Carla (ORCID: 0000-0001-7277-816X); Güntner, Andreas ORCID logo; Eicker, Annette ORCID logo; Wouters, Bert ORCID logo; Heller-Kaikov, Betty ORCID logo; Pivetta, Tomasso ORCID logo; Pastorutti, Alberto ORCID logo
Publisher GFZ Data Services
Contributor Daras, Ilias; March, Günther; Pail, Roland; Hughes, Chris; Braitenberg, Carla; Güntner, Andreas; Eicker, Annette; Wouters, Bert; Heller-Kaikov, Betty; Pivetta, Tomasso; Pastorutti, Alberto
Publication Year 2023
Funding Reference European Space Agency http://dx.doi.org/10.13039/501100000844 Crossref Funder ID 4000134613/21/NL/FF/ab NGGM/MAGIC - SCIENCE SUPPORT STUDY DURING PHASE A
Rights CC BY 4.0; http://creativecommons.org/licenses/by/4.0/
OpenAccess true
Contact Daras, Ilias (European Space Agency, Earth & Mission Science Division); Pail, Roland (Technical University of Munich); Heller-Kaikov, Betty (Technical University of Munich, Munich, Germany)
Representation
Resource Type Dataset
Version 1.0
Discipline Geosciences; Geospheric Sciences; Glaciology; Natural Sciences
Spatial Coverage (-180.000W, -90.000S, 180.000E, 90.000N); Global
Temporal Coverage Begin 2002-01-31T00:00:00Z
Temporal Coverage End 2002-12-31T00:00:00Z