| Orbit and Earth Gravity Field | p. 1 |
| CHAMP Orbit and Gravity Instrument Status | p. 3 |
| On Board Evaluation of the STAR Accelerometer | p. 11 |
| Determination of CHAMP Accelerometer Calibration Parameters | p. 19 |
| CHAMP Accelerometer and Star Sensor Data Combination | p. 26 |
| CHAMP Clock Error Characterization | p. 32 |
| Determination of the CHAMP GPS Antenna with Respect to Satellite's Mass Center | p. 38 |
| Spaceborne GPS for POD and Earth Science | p. 42 |
| The CHAMP Orbit Comparison Campaign | p. 53 |
| CHAMP Orbit Determination with GPS Phase-Connected, Precise Point Positioning | p. 59 |
| Kinematic and Dynamic Determination of Trajectories for Low Earth Satellites Using GPS | p. 65 |
| CHAMP Double-Difference Kinematic POD with Ambiguity Resolution | p. 70 |
| Approaches to CHAMP Precise Orbit Determination | p. 78 |
| STAR Accelerometer Contribution to Dynamic Orbit and Gravity Field Model Adjustment | p. 85 |
| Impact of Different Data Combinations on the CHAMP Orbit Determination | p. 92 |
| CHAMP Rapid Science Orbit Determination - Status and Future Prospects | p. 98 |
| Orbit Prediction for CHAMP - Development and Status | p. 104 |
| Thermospheric Events in CHAMP Precise Orbit Determination | p. 112 |
| New Global Gravity Field Models from Selected CHAMP Data Sets | p. 120 |
| First Insight into Temporal Gravity Variability from CHAMP | p. 128 |
| CHAMP Gravity Field Recovery with the Energy Balance Approach | p. 134 |
| Preliminary Analysis of CHAMP State Vector and Accelerometer Data for the Recovery of the Gravity Potential | p. 140 |
| CHAMP Precise Orbit Determination and Gravity Field Recovery | p. 146 |
| Gravitational Field Modelling from CHAMP-Ephermerides by Harmonic Splines and Fast Multipole Techniques | p. 153 |
| Evaluation of Geoid Models with GPS/Levelling Points in Sweden and Finland | p. 159 |
| Geophysical Impact of Field Variations | p. 165 |
| CHAMP, Mass Displacements and the Earth's Rotation | p. 174 |
| CHAMP Gravity Anomalies over Antarctica | p. 180 |
| Assimilation of Altimeter and Geoid Data into a Global Ocean Model | p. 187 |
| Total Density Retrieval with STAR | p. 193 |
| Earth Magnetic Field | p. 201 |
| CHAMP ME Data Processing and Open Issues | p. 203 |
| Ion Drift-Meter Status and Calibration | p. 212 |
| CO2 - A CHAMP Magnetic Field Model | p. 220 |
| Decadal and Subdecadal Secular Variation of Main Geomagnetic Field | p. 226 |
| Modelling the Earth's Magnetic Field: Wavelet Based and Standard Methods | p. 233 |
| Improved Parameterization of External Magnetic Fields from CHAMP Measurements | p. 239 |
| Monitoring Magnetospheric Contributions using Ground-Based and Satellite Magnetic Data | p. 245 |
| Unraveling the Magnetic Mystery of the Earth's Lithosphere: The Background and the Role of the CHAMP Mission | p. 251 |
| A Comparison of Global Lithospheric Field Models Derived from Satellite Magnetic Data | p. 261 |
| Mapping the Lithospheric Magnetic Field from CHAMP Scalar and Vector Magnetic Data | p. 269 |
| Improving the Definition of Cratonic Boundaries Utilizing the Lithospheric Magnetic Field derived from CHAMP Observations | p. 275 |
| Crustal Magnetisation Distribution Deduced from CHAMP Data | p. 281 |
| Multiscale Downward Continuation of CHAMP FGM-Data for Crustal Field Modelling | p. 288 |
| CHAMP Enhances Utility of Satellite Magnetic Observations to Augment Near-Surface Magnetic Survey Coverage | p. 296 |
| Comparing Magsat, Orsted and CHAMP Crustal Magnetic Anomaly Data over the Kursk Magnetic Anomaly, Russia | p. 302 |
| CHAMP, Orsted and Magsat Magnetic Anomalies of the Antarctic Lithosphere | p. 309 |
| Separation of External Magnetic Signal for Induction Studies | p. 315 |
| Two-Dimensional Spatiotemporal Modelling of Satellite Electromagnetic Induction Signals | p. 321 |
| Night-Time Ionospheric Currents | p. 328 |
| Multiscale Determination of Radial Current Distribution from CHAMP FGM-Data | p. 339 |
| Ionospheric Currents from CHAMP Magnetic Field Data- Comparison with Ground Based Measurements | p. 347 |
| Mapping of Field-Aligned Current Patterns during Northward IMF | p. 353 |
| Field-Aligned Currents Inferred from Low-Altitude Earth-Orbiting Satellites and Ionospheric Currents Inferred from Ground-Based Magnetometers - Do They Render Consistent Results? | p. 361 |
| Neutral Atmosphere and Ionosphere | p. 369 |
| GPS Radio Occultation with CHAMP | p. 371 |
| Validation and Data Quality of CHAMP Radio Occultation Data | p. 384 |
| Global Climate Monitoring based on CHAMP/GPS Radio Occultation Data | p. 397 |
| Initial Results on Ionosphere/Plasmasphere Sounding based on GPS Data Obtained On Board CHAMP | p. 408 |
| Backpropogation Processing of GPS Radio Occultation Data | p. 415 |
| Combination of NOAA16/ATOVS Brightness Temperatures and the CHAMP Data to get Temperature and Humidity Profiles | p. 423 |
| An Improvement of Retrieval Techniques for Ionospheric Radio Occultations | p. 430 |
| Validation of Water Vapour Profiles from GPS Radio Occultations in the Arctic | p. 441 |
| Comparison of DMI-Retrieval of CHAMP Occultation Data with ECMWF | p. 447 |
| The Assimilation of Radio Occultation Measurements | p. 453 |
| Status of Ionospheric Radio Occultation CHAMP Data Analysis and Validation of Higher Level Data Products | p. 462 |
| NWP Model Specific Humidities Compared with CHAMP/GPS and TERRA/MODIS Data | p. 473 |
| Analysis of Gravity Waves from Radio Occultation Measurements | p. 479 |
| GPS Atmosphere and Ionosphere Methods used on Orsted Data and Initial Application on CHAMP Data | p. 485 |
| Combining Radio Occultation Measurements with Other Instruments to Map the Ionospheric Electron Concentration | p. 491 |
| Vertical Gradients of Refractivity in the Mesosphere and Atmosphere Retrieved from GPS/MET and CHAMP Radio Occultation Data | p. 500 |
| Observation of Reflected Signals in MIR/GEO and GPS/MET Radio Occultation Missions | p. 508 |
| Assimilation Experiments of One-dimensional Variational Analyses with GPS/MET Refractivity | p. 515 |
| Monitoring the 3 Dimensional Ionospheric Electron Distribution based on GPS Measurements | p. 521 |
| Comparison of Three Different Meteorological Datasets (ECMWF, Met Office and NCEP) | p. 528 |
| Radio Occultation Data Processing at the COSMIC Data Analysis and Archival Center (CDAAC) | p. 536 |
| Verification of CHAMP Radio-Occultation Observations in the Ionosphere Using MIDAS | p. 545 |
| Approach to the Cross-Validation of MIPAS and CHAMP Temperature and Water Vapour Profiles | p. 551 |
| Author Index | p. 557 |
| Keyword Index | p. 561 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
