@misc{Burch_Giles_Ahmadi_Argall_Baker_Blake_Bromund_Cohen_Ergun_Fennell_et al._2024, title={Magnetospheric Multiscale (MMS) – Calibration and Measurement Algorithms Document (CMAD)}, url={https://hpde.io/NASA/Document/MMS/CMAD.html}, DOI={10.48322/VSHD-SV21}, abstractNote={The MMS Calibration and Measurement Algorithm Document (CMAD) serves three purposes:

1. It provides an ongoing record of the mission science operations plan and instrumentation status.
2. It describes the concept for calibrating the many instruments onboard Magnetospheric Multiscale (MMS), including pre- and in-flight calibrations, and details the algorithms for converting instrument signals to physical quantities, including signal estimates, error analyses, and error budgets. And,
3. It serves as a user guide for each instrument’s data products, documenting best practices for analysis and the advantages/limitations in application.}, publisher={Space Physics Data Facility}, author={Burch, James L. and Giles, Barbara L. and Ahmadi, Narges and Argall, Matthew R. and Baker, Daniel N. and Blake, J. Bernard and Bromund, Kenneth R. and Cohen, Ian J. and Ergun, Robert E. and Fennell, Joseph F. and Fischer, David and Fuselier, Stephen A. and Gabrielse, Christine E. and Gershman, Daniel J. and Gomez, Roman G. and Graham, Daniel Bruce and Hans, Ulrich and Henderson, Michael G. and B.G. Huang and Jeszenszky, Harald and Eichelberger, Hans Ulrich and Le, Guan and Le Contel, Olivier and Leinweber, Hannes Karl and Lindqvist, Per-Arne}, year={2024}, language={en} }