netcdf data4papers/Vals_2022/MCS_MY34_mo10.nc { dimensions: time = 6; level = 105; latitude = 48; longitude = 64; variables: float ddust(time=6, level=105, latitude=48, longitude=64); :long_name = "IR Dust opacity - day side"; :units = "opacity/km"; :_FillValue = NaNf; // float float dnumbindust(time=6, level=105, latitude=48, longitude=64); :long_name = "Number of dust opacity values in bin - day side"; float dstddust(time=6, level=105, latitude=48, longitude=64); :long_name = "RMS of IR dust opacity - day side"; :units = "opacity/km"; :_FillValue = NaNf; // float float dtimeave(time=6, latitude=48, longitude=64); :long_name = "Average local time in bin - day side [6h, 18h]"; :units = "hours"; :_FillValue = NaNf; // float float dtimemax(time=6, latitude=48, longitude=64); :long_name = "Maximum local time in bin - day side [6h, 18h]"; :units = "hours"; :_FillValue = NaNf; // float float dtimemin(time=6, latitude=48, longitude=64); :long_name = "Minimum local time in bin - day side [6h, 18h]"; :units = "hours"; :_FillValue = NaNf; // float float latitude(latitude=48); :long_name = "latitude"; :units = "degrees_north"; float level(level=105); :long_name = "pressure"; :units = "Pa"; :positive = "down"; float longitude(longitude=64); :long_name = "longitude"; :units = "degrees_east"; float ndust(time=6, level=105, latitude=48, longitude=64); :long_name = "IR Dust opacity - night side"; :units = "opacity/km"; :_FillValue = NaNf; // float float nnumbindust(time=6, level=105, latitude=48, longitude=64); :long_name = "Number of dust opacity values in bin - night side"; float nstddust(time=6, level=105, latitude=48, longitude=64); :long_name = "RMS of IR dust opacity - night side"; :units = "opacity/km"; :_FillValue = NaNf; // float float ntimeave(time=6, latitude=48, longitude=64); :long_name = "Average local time in bin - night side [18h, 6h]"; :units = "hours"; :_FillValue = NaNf; // float float ntimemax(time=6, latitude=48, longitude=64); :long_name = "Maximum local time in bin - night side [18h, 6h]"; :units = "hours"; :_FillValue = NaNf; // float float ntimemin(time=6, latitude=48, longitude=64); :long_name = "Minimum local time in bin - night side [18h, 6h]"; :units = "hours"; :_FillValue = NaNf; // float float time(time=6); :long_name = "Solar longitude"; :units = "degrees"; // global attributes: :title = "Mars Reconnaissance Orbiter / Mars Climate Sounder binned retrievals of temperature and dust/water ice opacities"; :quality_control = "For dust and water ice profiles, data are set to missing value at levels where the temperature drops below the CO2 condensation temperature, if altitude < 40 km and dust opacity > 1.0e-5 km-1. Only in-track observations are binned, in order to reduce the local time spread in the two local time bins."; :filling_value = "The value used to replace missing data is NaN"; :institution = "MRO/MCS retrievals provided by the Jet Propulsion Laboratory (JPL), California Institute of Technology (Pasadena, CA, USA). Binning processed at the Laboratoire de Meteorologie Dynamique (LMD), Universite Pierre et Marie Curie (Paris, France)"; :authors = "Binning processing: Luca Montabone, LMD and Space Science Institute (Boulder, CO, USA). MCS Retrievals: Armin Kleinboehl, David M. Kass, John T. Schofield, Daniel J. McCleese, JPL, "; :MCS_retrieval_version = "Level 2 pipeline v5.2.(2-->4) and v5.3.2 downloaded between 2018-06-11 and 2019-04-11 (MY 34)"; :binning_version = "3.0"; :creation_date = "2019-12-02"; :contact = "Binning processing: Luca Montabone (lmontabone@SpaceScience.org). MCS Retrievals: Armin Kleinboehl (Armin.Kleinboehl@jpl.nasa.gov). MCS data quality: David M. Kass (David.M.Kass@jpl.nasa.gov). MCS instrument performance and design: John T. Schofield, Daniel J. McCleese (both retired from JPL, contact David M. Kass)"; :references = "Information on MCS retrievals: Kleinboehl, A., et al., 2019. Diurnal Variations of Dust during the 2018 Global Dust Storm observed by the Mars Climate Sounder. Journal of Geophysical Research - Planets, doi=10.1029/2019JE006115; Kleinboehl, A., et al., 2017. Two-dimensional radiative transfer for the retrieval of limb emission measurements in the Martian atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer 187C, 511-522; Kleinboehl, A., et al., 2009. Mars Climate Sounder limb profile retrieval of atmospheric temperature, pressure, and dust and water ice opacity. J. Geophys. Res. 114, E13, 10006++. Information on MCS climatology: McCleese, D.J., et al., 2010. Structure and dynamics of the Martian lower and middle atmosphere as observed by the Mars Climate Sounder: Seasonal variations in zonal mean temperature, dust, and water ice aerosols. J. Geophys. Res. 115, E14, 12016++."; :comment = "COPYRIGHT: The data available in the present file are free to use and to distribute. Scientific use of the data included in the present file is freely allowed provided that the origin of the data is correctly and opportunely acknowledged in all publications. The data included in this file may not be put to any commercial use without specific authorization. DISCLAIMER: Binned data from the MRO/MCS retrievals included in the present file are made publicly available on the condition that we provide no warranties regarding the reliability, validity or accuracy of the data and we bear no responsibility for any use made of such data."; :citation = "Vals, M., Rossi, L., Montmessin, F., Lefevre, F., Gonzalez-Galindo, F., Fedorova, A., Luginin, M., Forget, F., Millour, E., Korablev, O., Trokhimovskiy, A., Shakun, A., Montabone, L., Bierjon, A., Improved modeling of Mars\' HDO cycle using a Mars Global Climate Model. Journal of Geophysical Research (Planets)"; :NCO = "4.3.7"; }