Gravity Field Recovery and Error Analysis for the MOCASS Mission Proposal Based on Cold Atom Interferometry

[1]  C. Braitenberg,et al.  Geophysical Challenges for Future Satellite Gravity Missions: Assessing the Impact of MOCASS Mission , 2021, Pure and Applied Geophysics.

[2]  Szabolcs Rózsa,et al.  The Geodesist’s Handbook 2020 , 2020, Journal of Geodesy.

[3]  Luca Massotti,et al.  ESA’s next-generation gravity mission concepts , 2020, Rendiconti Lincei. Scienze Fisiche e Naturali.

[4]  O. Andersen,et al.  A new ocean mean dynamic topography model, derived from a combination of gravity, altimetry and drifter velocity data , 2019, Advances in Space Research.

[5]  Simona Zoffoli,et al.  MOCASS: A Satellite Mission Concept Using Cold Atom Interferometry for Measuring the Earth Gravity Field , 2019, Surveys in Geophysics.

[6]  Srinivas Bettadpur,et al.  GRACE-FO: The Gravity Recovery and Climate Experiment Follow-On Mission , 2019, Journal of Spacecraft and Rockets.

[7]  P Bouyer,et al.  Concept study and preliminary design of a cold atom interferometer for space gravity gradiometry , 2019, Classical and Quantum Gravity.

[8]  Juergen Mueller,et al.  Using Atomic Clocks and Quantum Gradiometers Onboard Satellites for Determining the Earth’s Gravity Field , 2019 .

[9]  Frédéric Frappart,et al.  Monitoring Groundwater Storage Changes Using the Gravity Recovery and Climate Experiment (GRACE) Satellite Mission: A Review , 2018, Remote. Sens..

[10]  Franck Pereira Dos Santos,et al.  Simulation-based evaluation of a cold atom interferometry gradiometer concept for gravity field recovery , 2017 .

[11]  P. Silvestrin,et al.  From GOCE to NGGM: Automatic Control Breakthroughs for European future Gravity Missions , 2017 .

[12]  Torsten Mayer-Gürr,et al.  The combined satellite gravity field model GOCO05s , 2015 .

[13]  Torsten Mayer-Gürr,et al.  EGM_TIM_RL05: An independent geoid with centimeter accuracy purely based on the GOCE mission , 2014 .

[14]  Beate Klinger,et al.  ITSG-Grace2014: a new GRACE gravity field release computed in Graz , 2014 .

[15]  Henry P. Huntington,et al.  A New Ocean , 2014 .

[16]  P. Silvestrin,et al.  A Spaceborne Gravity Gradiometer Concept Based on Cold Atom Interferometers for Measuring Earth’s Gravity Field , 2014, 1406.0765.

[17]  F. Sorrentino,et al.  Sensitivity limits of a Raman atom interferometer as a gravity gradiometer , 2013, 1312.3741.

[18]  Rolf König,et al.  EIGEN-6C4 - The latest combined global gravity field model including GOCE data up to degree and order 1949 of GFZ Potsdam and GRGS Toulouse , 2011 .

[19]  F. Sansò,et al.  First GOCE gravity field models derived by three different approaches , 2011 .

[20]  R. Rummel,et al.  GOCE gravitational gradiometry , 2011 .

[21]  A. Miffre,et al.  Atom interferometry , 2006, quant-ph/0605055.

[22]  Fernando Sansò,et al.  Space-wise approach to satellite gravity field determination in the presence of coloured noise , 2004 .

[23]  F. Sansò,et al.  GOCE: DEALING WITH LARGE ATTITUDE VARIATIONS IN THE CONCEPTUAL STRUCTURE OF THE SPACE-WISE APPROACH , 2004 .

[24]  M. Watkins,et al.  The gravity recovery and climate experiment: Mission overview and early results , 2004 .

[25]  M. Reguzzoni From the time-wise to space-wise GOCE observables , 2003 .

[26]  A. Peters,et al.  High-precision gravity measurements using atom interferometry , 1998 .

[27]  John G. Proakis,et al.  Probability, random variables and stochastic processes , 1985, IEEE Trans. Acoust. Speech Signal Process..

[28]  O. Colombo Numerical Methods for Harmonic Analysis on the Sphere , 1981 .

[29]  Beate Klinger,et al.  ITSG-Grace2016 - Monthly and Daily Gravity Field Solutions from GRACE , 2016 .

[30]  C.,et al.  Precision Gravity Tests with Atom Interferometry in Space , 2013 .

[31]  M. Reguzzoni,et al.  A simulated space-wise solution using GOCE kinematic orbits , 2010 .

[32]  F. Sansò,et al.  An Error Model for the GOCE Space-Wise Solution by Monte Carlo Methods , 2009 .

[33]  Mirko Reguzzoni,et al.  Optimal multi-step collocation: application to the space-wise approach for GOCE data analysis , 2009 .

[34]  F. Sansò,et al.  ON THE USE OF GRIDDED DATA TO ESTIMATE POTENTIAL COEFFICIENTS , 2007 .

[35]  F. Sansò,et al.  Wiener filters and collocation in satellite gradiometry , 2004 .

[36]  Reiner Rummel,et al.  Geodetic boundary value problems in view of the one centimeter geoid , 1997 .

[37]  Nico Sneeuw,et al.  The polar gap , 1997 .

[38]  C. Readings,et al.  Gravity field and steady-state ocean circulation mission , 1996 .

[39]  H. Sünkel Mathematical and numerical techniques in physical geodesy , 1986 .

[40]  F. Sansò,et al.  Statistical methods in physical geodesy , 1986 .