diff -r c6855e46c311 -r 7a2166a28044 docs/low_resolution --- a/docs/low_resolution Mon Feb 06 14:02:20 2017 +0200 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,2027 +0,0 @@ -Low Resolution SCC L1 Products - -Document version: 1.0alpha - -1. .. rubric:: Introduction - :name: introduction - -The Single Calculus Chain (SCC) is the standard EARLINET tool to perform -automatic and quality nchecked analysis of raw lidar data. It is -composed by three different modules: - -- ELPP (EARLINET Lidar Pre-Processor) -- ELDA (EARLINET Lidar Data Analizer) -- ELDEC (EARLINET Lidar DEpolarization Calibrator) - -Whenever an input file containing raw lidar data has been submitted to -the SCC ELPP is automatically ran on it. The ELPP module pre-processes -the raw data performing all the corrections and data handling needed -before the optical retrieval algorithms can be applied by ELDA module. -The ELPP output files contain pre-processed range corrected signals -corrected for instrumental effects as well as atmospheric molecular -parameters calculated from standard model or radiosounding. Typically, -the vertical and temporal resolutions of the pre-processed signals -included in these files is lower than the raw vertical and temporal -resolution as in general time/vertical integration is performed by ELPP -to increase the SNR and allow the calculation of optical products with a -reduced uncertainties. As a consequence the ELPP output files are called -Low Resolution SCC L1 Products. Another SCC module (HiRELPP – High -Resolution EARLINET Lidar Pre-Processor) currently under development -will produce High Resolution SCC L1 Products in which both time and -vertical resolution are kept as higher as possible. - -This document provides a detailed description about the structure and -the format of Low Resolution SCC L1 Product as produced by the SCC v4.0. - -1. .. rubric:: Low Resolution SCC L1 Product: File format - :name: low-resolution-scc-l1-product-file-format - -The Low Resolution SCC L1 Products are files in Network Common Data Form -(NetCDF) which is a well known self-describing, machine-independent data -format that support the creation, access, and sharing of array-oriented -scientific data. For more information about NetCDF format: -http://www.unidata.ucar.edu/software/netcdf/. - -The NetCDF is a binary format that allows the definition of -multi-dimensional variables of several types (integers, double, -character, etc). For each variable it is possible to define one or more -attributes where to specify variable properties like units, long name, -description, etc. - -It is possible to define global attributes which are not related to a -specific variable but to the whole file. - -A NetCDF file is composed by four different section: - -- dimensions - - this section contains all the dimensions used in the definition of - all the variables included in the NetCDF file - -- variables - - this section contains all the variables stored in the NetCDF file. - Each variable is defined as a multi-dimensional array of a specific - type and with all the dimensions defined in the dimensions section - - global attributes - - this section lists all the attributes referring to the whole file. As - the variable the attributes (global or the one attached to a specific - variable) can be of different type - -- data - - in this section the data contained in each variable defined in - variable section is stored. Attribute values (both global or related - to a specific variable) are not reported in data section but directly - in variable or global attribute sections. - -Each Low Resolution SCC L1 Product correspond to a single emission -wavelength. For example it is possible to find in the same file the -elastic and the Raman channel pre-processed time-series corresponding to -the same emission wavelength (but to a different detection wavelengths) -but not two elastic time-series referring to different emission -wavelengths. - -1. - - 1. .. rubric:: Low Resolution SCC L1 Product Format: dimensions - :name: low-resolution-scc-l1-product-format-dimensions - -The following dimensions are defined in the Low Resolution SCC L1 -Product: - -- time -- points -- channels -- scan\_angles - -The dimension *time* specifies the number of RCS (for each channel) -composing all the pre-processed time-series reported in the file. - -The dimension *points* represents the number of rangebins characterizing -the pre-processed RCS. In case RCSs corresponding to different channels -are characterized by different rangebins the dimension time is to the -the maximum value of rangebins. - -The dimension *channels* indicates the number channels at which the RCS -time-series included in the file refer to. - -The dimension *scan\_angles* takes into account how many zenith scan -angles have been used to measure the RCS time-series reported into the -file - -1. - - 1. .. rubric:: Low Resolution SCC L1 Product Format: variables - :name: low-resolution-scc-l1-product-format-variables - -In this section all the possible Low Resolution SCC L1 Product variables -are reported. There are some variables that are mandatory and have to be -present in all the Low Resolution SCC L1 Product files while there are -others that have to be present only in specific cases. - -Technical Variables - -1. Variable name: *altitude\_resolution* - -Type: *double* - -Number of dimensions: 1 - -Dimensions: *scan\_angles* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double altitude\_resolution(scan\_angles) * - -Description: this variable describes the altitude resolution -corresponding to the RCS time-series reported in the file. It is needed -to compute the vertical scale of the RCS corresponding to each scan -angle which should be calculated as it follow: - -where *z* is the altitude, ** is the scan angle value and *h* is the -value reported by *altitude\_resolution* variable. - -1. Variable name: *range\_resolution* - -Type: *double* - -Number of dimensions: 1 - -Dimensions: *scan\_angles* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double range\_resolution(scan\_angles) * - -Description: this variable describes the range resolution corresponding -to the RCS time-series reported in the file. It is needed to compute the -range scale of the RCS corresponding to each scan angle which should be -calculated as it follow: - -where *r* is the range, ** is the scan angle value and *r* is the -value reported by *range\_resolution* variable. Altitude and range -resolution are the same if the scan angle is zero (zenith acquisition). - -1. Variable name: *laser\_pointing\_angle* - -Type: *double* - -Number of dimensions: 1 - -Dimensions: *scan\_angles* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double laser\_pointing\_angle(scan\_angles) * - -Description: this variable provides the value of the zenith scan angles -used during the measurement. The value of angle are in degrees with -respect to the zenith direction. - -1. Variable name: *emission\_wavelength* - -Type: *double* - -Number of dimensions: 1 - -Dimensions: *channels* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double emission\_wavelength(channels) * - -Description: this variable provides the value of the emission wavelength -(in nm) corresponding to each RCS time-series. - -1. Variable name: *detection\_wavelength* - -Type: *double* - -Number of dimensions: 1 - -Dimensions: *channels* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double detection\_wavelength(channels) * - -Description: this variable provides the value of the detection -wavelength (in nm) corresponding to each RCS time-series. For elastic -channels the detection and emission wavelength are the same or slightly -different. - -1. Variable name: *laser\_pointing\_angle\_of\_profiles* - -Type: *integer* - -Number of dimensions: 1 - -Dimensions: *time* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int laser\_pointing\_angle\_of\_profiles(time)* - -Description: this variable allows to identify the zenith angle at which -each single RCS contained in the time-series refer to. In particular, -for a given time the variable -*laser\_pointing\_angle\_of\_profiles(time)* provides the scan angle -index at which all the RCS included in the file refer to at the same -time. To get the value of the scan angle the variable -*laser\_pointing\_angle* should be evaluated in correspondence of the -index returned by the variable -*laser\_pointing\_angle\_of\_profiles(time)*. - -1. Variable name: *shots* - -Type: *integer* - -Number of dimensions: 1 - -Dimensions: *time* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int shots(time)* - -Description: this variable report the number of laser shots that have -been integrated the all the RCS time-series at a given time. - -1. Variable name: *start\_time* - -Type: *integer* - -Number of dimensions: 1 - -Dimensions: *time* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int start\_time(time)* - -Description: Variable reporting the value of the start time of each RCS -within all the time-series in seconds since the start of measurement. - -1. Variable name: *stop\_time* - -Type: *integer* - -Number of dimensions: 1 - -Dimensions: *time* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int stop\_time(time)* - -Description:Variables reporting the value of the stop time of each RCS -within all the time-series in seconds since the start of the -measurement. - -1. Variable name: *LR\_Input* - -Type: *integer* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present only if the Low Resolution SCC L1 Product corresponds -to an elastic only product - -NetCDF definition: *int LR\_Input* - -Description: this variable is only used by ELDA module in the elastic -only retrieval to know which value of particle lidar ratio assume in the -retrieval. A value of 1 means to use a fixed value stored in the SCC -database for each product. A value of 0 means to use a profile of lidar -ratio provided by the user as external file. - -1. Variable name: *overlap\_correction* - -Type: *integer* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int overlap\_correction * - -Description: this variable provides information on the overlap -correction of all the RCS time-series included in the file. If it is set -to 1 the overlap correction has been applied if it is set to null value -the overlap correction has not been applied. - -1. Variable name: *cloud\_flag* - -Type: *integer* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *int cloud\_flag(time, points)* - -Description: variable reporting the cloud mask on the RCS time-series -included in the file. A value of 1 means no cloud any other values -different from 1 correspond to the presence of cloud. - -Atmospheric Molecular Variables - -1. Variable name: *Elastic\_Mol\_Extinction* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *scan\_angles, points* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double Elastic\_Mol\_Extinction(scan\_angles, -points)* - -Description: this variable provides the value of molecular extinction -coefficient at elastic wavelength in m\ :sup:`-1` at a given scan angle -and altitude (points). The values are calculated from standard models or -from radiosounding (submitted to the SCC as external input files) - -1. Variable name: *LR\_Mol* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double LR\_Mol* - -Description: The value of calculated molecular lidar ratio in sr. - -1. Variable name: *Emission\_Wave\_Mol\_Trasmissivity* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *scan\_angles, points* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double -Emission\_Wave\_Mol\_Trasmissivity(scan\_angles, points)* - -Description: this variable provides the value of molecular trasmissitivy -at emission wavelength at a given scan angle and altitude (*points*). - -1. Variable name: *Detection\_Wave\_Mol\_Trasmissivity* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *scan\_angles, points* - -Location: Included in all the Low Resolution SCC L1 Product files - -NetCDF definition: *double -Detection\_Wave\_Mol\_Trasmissivity(scan\_angles, points)* - -Description: this variable provides the value of molecular trasmissitivy -at detection wavelength at a given scan angle and altitude (*points*). - -Aerosol Related Variables - -1. Variable name: *elT* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves one -single elastic channel not split in near and far range - -NetCDF definition: *double elT(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to an elastic channel. The RCS may correspond to a single -physical lidar channel or to two physical channels (one optimized for -the near range and the other for the far range) that have been glued by -ELPP module. - -1. Variable name: *elT\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves one -single elastic channel not split in near and far range - -NetCDF definition: *double elT\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elT*. - -1. Variable name: *elTnr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a near -range elastic channel - -NetCDF definition: *double elTnr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to a near range elastic channel. If this variable is -present also the corresponding *elTfr *\ variable should be present in -the file. - -1. Variable name: *elTnr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a near -range elastic channel - -NetCDF definition: *double elTnr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elTnr*. - -1. Variable name: *elTfr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a far -range elastic channel - -NetCDF definition: *double elTfr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to a far range elastic channel. If this variable is -present also the corresponding *elTnr *\ variable should be present in -the file. - -1. Variable name: *elTfr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a far -range elastic channel - -NetCDF definition: *double elTfr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elTfr*. - -1. Variable name: *vrRN2* - -Type:\ * double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves one -vibro-rotational N2 Raman channel not split in near and far range - -NetCDF definition: d\ *ouble vrRN2(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to a vibro-rotational N2 Raman channel. The RCS may -correspond to a single physical lidar channel or to two physical -channels (one optimized for the near range and the other for the far -range) that have been glued by ELPP module. - -1. Variable name: *vrRN2\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves one -vibro-rotational N2 Raman channel not split in near and far range - -NetCDF definition: *double vrRN2\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *vrRN2*. - -1. Variable name: *vrRN2nr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a near -range vibro-rotational N2 Raman channel - -NetCDF definition: *double vrRN2nr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to a near range vibro-rotationl N2 Raman. If this variable -is present also the corresponding *vrRN2fr *\ variable should be present -in the file. - -1. Variable name: *vrRN2nr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a near -range vibro-rotational N2 Raman channel - -NetCDF definition: *double vrRN2nr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *vrRN2nr*. - -1. Variable name: *vrRN2fr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a far -range vibro-rotational N2 Raman channel - -NetCDF definition: *double vrRN2fr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to a far range vibro-rotationl N2 Raman. If this variable -is present also the corresponding *vrRN2nr *\ variable should be present -in the file. - -1. Variable name: *vrRN2fr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves a far -range vibro-rotational N2 Raman channel - -NetCDF definition: *double vrRN2fr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *vrRN2fr*. - -Polarization related variables - -1. Variable name: *elPT* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels not split in near and far range - -NetCDF definition: *double elPT(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the elastic polarization component which is transmitted -by the polarization sensitive optical subsystem. This component may -correspond to a total, cross or parallel polarization component -depending on the particular system configuration. Moreover the RCS may -correspond to a single physical lidar channel or to two physical -channels (one optimized for the near range and the other for the far -range) that have been glued by ELPP module. - -1. Variable name: *elPT\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves -spolarization sensitive elastic channels not split in near and far range - -NetCDF definition: *double elPT\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPT*. - -1. Variable name: *elPTnr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double elPTnr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the near range elastic polarization component which is -transmitted by the polarization sensitive optical subsystem. This -component may correspond to a total, cross or parallel polarization -component depending on the particular system configuration. If this -variable is present also the corresponding *elPTfr* variable should be -present in the file. - -1. Variable name: *elPTnr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double elPTnr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPTnr*. - -1. Variable name: *elPTfr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double elTfr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the far range elastic polarization component which is -transmitted by the polarization sensitive optical subsystem. This -component may correspond to a total, cross or parallel polarization -component depending on the particular system configuration. If this -variable is present also the corresponding elPTnr variable should be -present in the file. - -1. Variable name: *elPTfr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double elPTfr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPTfr*. - -1. Variable name: *elPR* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels not split in near and far range - -NetCDF definition: *double elPR(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the elastic polarization component which is reflected -by the polarization sensitive optical subsystem. This component may -correspond to a total, cross or parallel polarization component -depending on the particular system configuration. Moreover the RCS may -correspond to a single physical lidar channel or to two physical -channels (one optimized for the near range and the other for the far -range) that have been glued by ELPP module. - -1. Variable name: *elPR\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels not split in near and far range - -NetCDF definition: *double elPR\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPR*. - -1. Variable name: *elPRnr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: * time, points* - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double elPTnr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the near range elastic polarization component which is -reflected by the polarization sensitive optical subsystem. This -component may correspond to a total, cross or parallel polarization -component depending on the particular system configuration. If this -variable is present also the corresponding *elPRfr* variable should be -present in the file. - -1. Variable name: *elPRnr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: * double elPRnr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPRnr*. - -1. Variable name: *elPRfr* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double elPRfr(time, points) * - -Description: this variable contains the time-series of the RCS -corresponding to the far range elastic polarization component which is -reflected by the polarization sensitive optical subsystem. This -component may correspond to a total, cross or parallel polarization -component depending on the particular system configuration. If this -variable is present also the corresponding *elPRnr* variable should be -present in the file. - -1. Variable name: *elPRfr\_err* - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *time, points* - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double elPRfr\_err(time, points) * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *elPRfr*. - -1. Variable name: *G\_T* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double G\_T * - -Description: G polarization cross-talk factor value corresponding to the -polarization transmitted channel. - -1. Variable name: *G\_T\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_T*. - -1. Variable name: *G\_T\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_T*. - -1. Variable name: *H\_T* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_T * - -Description: H polarization cross-talk factor value corresponding to the -polarization transmitted channel. - -1. Variable name: *H\_T\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_T*. - -1. Variable name: *H\_T\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_T*. - -1. Variable name: *G\_R* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double G\_R * - -Description: G polarization cross-talk factor value corresponding to the -polarization reflected channel. - -1. Variable name: *G\_R\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_R*. - -1. Variable name: *G\_R\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: * double G\_R\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_R*. - -1. Variable name: *H\_R* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_R* - -Description: H polarization cross-talk factor value corresponding to the -polarization reflected channel. - -1. Variable name: *H\_R\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_R*. - -1. Variable name: *H\_R\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_R*. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double Polarization\_Channel\_Gain\_Factor* - -Description: this variable reports the value of the gain ratio of the -reflected and transmitted polarization channels. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor\_Statistical\_Err - * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Statistical\_Err * - -Description: this variable describes the statistical uncertainties -corresponding to the variable *Polarization\_Channel\_Gain\_Factor*. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor\_Systematic\_Err - * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Systematic\_Err * - -Description: this variable describes the systematic uncertainties -corresponding to the variable *Polarization\_Channel\_Gain\_Factor*. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor\_Correction * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Correction* - -Description: this variable reports the value of the correction to the -gain ratio of the reflected and transmitted polarization channels. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Statistical\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: * double -Polarization\_Channel\_Gain\_Factor\_Correction\_Statistical\_Err * - -Description: this variable describes the statistical uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Systematic\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Correction\_Systematic\_Err * - -Description: this variable describes the systematic uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction*. - -1. Variable name: *G\_T\_Near\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Near\_Range * - -Description: G polarization cross-talk factor value corresponding to the -near range polarization transmitted channel. - -1. Variable name: *G\_T\_Near\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Near\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_T\_Near\_Range*. - -1. Variable name: *G\_T\_Near\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Near\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_T\_Near\_Range*. - -1. Variable name: *H\_T\_Near\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Near\_Range * - -Description: H polarization cross-talk factor value corresponding to the -near range polarization transmitted channel. - -1. Variable name: *H\_T\_Near\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Near\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_T\_Near\_Range*. - -1. Variable name: *H\_T\_Near\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Near\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_T\_Near\_Range*. - -1. Variable name: *G\_R\_Near\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Near\_Range * - -Description: G polarization cross-talk factor value corresponding to the -near range polarization reflected channel. - -1. Variable name: *G\_R\_Near\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Near\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_R\_Near\_Range*. - -1. Variable name: *G\_R\_Near\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Near\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_R\_Near\_Range*. - -1. Variable name: *H\_R\_Near\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Near\_Range* - -Description: H polarization cross-talk factor value corresponding to the -near range polarization reflected channel. - -1. Variable name: *H\_R\_Near\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: * double H\_R\_Near\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_R\_Near\_Range*. - -1. Variable name: *H\_R\_Near\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Near\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_R\_Near\_Range*. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor\_Near\_Range * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Near\_Range* - -Description: this variable reports the value of the gain ratio of the -near range reflected and transmitted polarization channels. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Near\_Range\_Statistical\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Near\_Range\_Statistical\_Err * - -Description: this variable describes the statistical uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Near\_Range\_Factor*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Near\_Range\_Systematic\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Near\_Range\_Systematic\_Err * - -Description: this variable describes the systematic uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Near\_Range*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range* - -Description: this variable reports the value of the correction to the -near range gain ratio of the reflected and transmitted polarization -channels. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition:\ * * - -*double -Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range\_Statistical\_Err -* - -Description: this variable describes the statistical uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range\_Systematic\_Err - * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves near -range polarization sensitive elastic channels - -NetCDF definition: - - *double -Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range\_Systematic\_Err -* - -Description: this variable describes the systematic uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction\_Near\_Range*. - -1. Variable name: *G\_T\_Far\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Far\_Range * - -Description: G polarization cross-talk factor value corresponding to the -far range polarization transmitted channel. - -1. Variable name: *G\_T\_Far\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Far\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_T\_Far\_Range*. - -1. Variable name: *G\_T\_Far\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_T\_Far\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_T\_Far\_Range*. - -1. Variable name: *H\_T\_Far\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Far\_Range * - -Description: H polarization cross-talk factor value corresponding to the -far range polarization transmitted channel. - -1. Variable name: *H\_T\_Far\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double H\_T\_Far\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_T\_Far\_Range*. - -1. Variable name: *H\_T\_Far\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: d\ *ouble H\_T\_Far\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_T\_Far\_Range*. - -1. Variable name: *G\_R\_Far\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Far\_Range * - -Description: G polarization cross-talk factor value corresponding to the -far range polarization reflected channel. - -1. Variable name: *G\_R\_Far\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Far\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *G\_R\_Far\_Range*. - -1. Variable name: *G\_R\_Far\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double G\_R\_Far\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *G\_R\_Far\_Range*. - -1. Variable name: *H\_R\_Far\_Range* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Far\_Range* - -Description: H polarization cross-talk factor value corresponding to the -far range polarization reflected channel. - -1. Variable name: *H\_R\_Far\_Range\_Statistical\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Far\_Range\_Statistical\_Err* - -Description: this variable describes the statistical uncertainties -corresponding to the variable *H\_R\_Far\_Range*. - -1. Variable name: *H\_R\_Far\_Range\_Systematic\_Err* - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double H\_R\_Far\_Range\_Systematic\_Err* - -Description: this variable describes the systematic uncertainties -corresponding to the variable *H\_R\_Far\_Range*. - -1. Variable name: *Polarization\_Channel\_Gain\_Factor\_Far\_Range * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Far\_Range* - -Description: this variable reports the value of the gain ratio of the -far range reflected and transmitted polarization channels. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Far\_Range\_Statistical\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Far\_Range\_Statistical\_Err * - -Description: this variable describes the statistical uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Far\_Range\_Factor*. - -1. Variable name: - P\ *olarization\_Channel\_Gain\_Factor\_Far\_Range\_Systematic\_Err * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: *double -Polarization\_Channel\_Gain\_Factor\_Far\_Range\_Systematic\_Err * - -Description: this variable describes the systematic uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Far\_Range*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: d\ *ouble -Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range* - -Description: this variable reports the value of the correction to the -far range gain ratio of the reflected and transmitted polarization -channels. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range\_Statistical\_Err - * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: - -d\ *ouble -Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range\_Statistical\_Err -* - -Description: this variable describes the statistical uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range*. - -1. Variable name: - *Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range\_Systematic\_Err - * - -Type: *double* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves far -range polarization sensitive elastic channels - -NetCDF definition: - -*double -Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range\_Systematic\_Err -* - -Description: this variable describes the systematic uncertainties -corresponding to the variable -*Polarization\_Channel\_Gain\_Factor\_Correction\_Far\_Range*. - -1. Variable name: *Depolarization\_Calibration\_Type * - -Type: *integer* - -Number of dimensions: 0 - -Dimensions: N/A - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: * int Depolarization\_Calibration\_Type * - -Description: this variable describes the type of depolarization -calibration that has been performed. A value of 1 means automatic -calibration made the the SCC, a value of 2 means manual calibration -inserted into the SCC database. - -1. Variable name: *Molecular\_Linear\_Depolarization\_Ratio * - -Type: *double* - -Number of dimensions: 2 - -Dimensions: *scan\_angles,points* - -Location: Present if the Low Resolution SCC L1 Product involves -polarization sensitive elastic channels - -NetCDF definition: *double -Molecular\_Linear\_Depolarization\_Ratio(scan\_angles, points) * - -Description: this variable report the value of molecular linear -depolarization ration for at given scan angles and at given altitude -(*points*). This profile is calculated on the base of the atmospheric -data from standard models or radiosonding submitted by the user as -separate file. - -The altitude scale at which each RCS within the time-series reported by -the variables *elT, elTnr, elTfr, vrRN2, vrRN2nr, vrRN2fr, elPT, elPTnr, -elPTfr, elPR, elPRnr, elPRfr*, refer to can be obtained as: - -H(laser\_pointing\_angle\_of\_profiles(time),points) - -The total signal (*I*\ :sub:`*total*`) and the volume depolarization -ratio (**) can be calculated out of reflected (*I*\ :sub:`*R*`) and -transmitted (*I*\ :sub:`*T*`) polarization component intensities using -the following equations: - -where *\** is the gain ratio of the reflected and transmitted -polarization channels (variable *Polarization\_Channel\_Gain\_Factor*); -*K* is the correction to the gain ratio of the reflected and transmitted -polarization channels (variable -*Polarization\_Channel\_Gain\_Factor\_Correction*); *I*\ :sub:`*R*` is -the intensity of the reflected polarization component (variable *elPR*); -*I*\ :sub:`*T*` is the intensity of the transmitted polarization -component (variable *elPT*); and *G*\ :sub:`*T*`, *H*\ :sub:`*T*`, -*G*\ :sub:`*R*` and *H*\ :sub:`*R*` are the polarization cross-talk -parameters (variables *G\_T, H\_T, G\_R* and *H\_R*). - -1. - - 1. .. rubric:: Low Resolution SCC L1 Product Format: global - attributes - :name: low-resolution-scc-l1-product-format-global-attributes - -In this section all the possible Low Resolution SCC L1 Product global -attributes are reported. There are some global attributes that are -mandatory and have to be present in all the Low Resolution SCC L1 -Product files while there are others that have to be present only in -specific cases. - -1. Attribute name: *Location* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the name of site where the measurements have been performed - -1. Attribute name: *System* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the name of the lidar system used to perform the -measurements - -1. Attribute name: *Latitude\_degrees\_north* - -Type: *double* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the latitude (in degrees North) of the measurement site - -1. Attribute name: *Longitude\_degrees\_east* - -Type: *double* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the longitude (in degrees East) of the measurement site - -1. Attribute name: *Altitude\_meter\_asl* - -Type: *double * - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the altitude (in m above see level) of the measurement site - -1. Attribute name: *Measurement\_ID* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: within the SCC all the measurement sessions is identified -by a string called *Measurement\_ID* uniquely. This gobal attributes -provides this string. - -1. Attribute name: *Measurement\_Start\_Date* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the start date of the measurements. The format in which -this date is written is specified in the gobal attribute -*Measurement\_Date\_Format*. - -1. Attribute name: *Measurement\_Date\_Format* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the format in which the global attribute -*Measurement\_Start\_Date* is given. - -1. Attribute name: *Measurement\_Start\_Time\_UT* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the start time (UT) of the measurements. The format in -which this time is written is specified in the global attribute -*Measurement\_Time\_Format*. - -1. Attribute name: *Measurement\_Time\_Format* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the format in which the global attribute -*Measurement\_Start\_Time\_U*\ T is given. - -1. Attribute name: *Comments* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: this string can contain comments of the measurement session - -1. Attribute name: *Overlap\_File\_Name * - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files for -which an overlap file has been submitted by the data originator. - -Description: The name of the overlap file to use for overlap correction. - -1. Attribute name: *LR\_File\_Name* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files -corresponding to elastic only retrieval and for which an lidar ratio -profile file has been submitted by the data originator. - -Description: The name of the lidar ratio file containing the profile of -particle lidar ratio values to use as input in the elastic only -retrieval. - -1. Attribute name: *SCCPreprocessingVersion* - -Type: *string* - -Location: Included in all the Low Resolution SCC L1 Product files - -Description: the version of SCC used to produce the current Low -Resolution SCC L1 Product - -1. .. rubric:: Low Resolution SCC L1 Product Filename - :name: low-resolution-scc-l1-product-filename - -The filename of the Low Resolution SCC L1 Products has the following -format: - -measurementid\_prodid.nc - -The *measurementid* is a 12 characters alphanumeric string identifying -the measurement session at which the product refers to. The -*measurementid* (which is unique for a given measurement session) allows -to fully trance the SCC analysis performed on the current product. This -can be done because each measurement session is recorded in a SCC -database using the same string. In the same database the measurement -session is linked to the lidar configuration used to analyze the data -(which is recorded and fully characterized in the SCC database providing -all the channel details) and to a set of optical products to calculate. - -The *prodid* is a numeric string identifying the optical product that -has to be calculated by SCC (in particular ELDA module) by applying the -optical retrieval algorithm on the current pre-processed L1 product. - -Different product types are defined within the SCC. The contents of a -Low Resolution SCC L1 product depends on the type of the product -specified in the its filename by prodid string. In particular only the -**Aerosol Related Variables **\ and\ ** Polarization related variables** -specified in the section 2.2 can change depending on product type. In -Tab. 3.1 are reported the product-type related variables for each -optical product type. - -To link the *prodid* string with the corresponding product type the SCC -database a proper query to the SCC database should be addressed. - -**Table 3.1:** Possible variables that can be found in the SCC L1 -Products for each optical product type - -+--------------------------------------------------------------+---------------------------------------------------+ -| Product type | Possible variables in Low Resolution L1 Product | -+--------------------------------------------------------------+---------------------------------------------------+ -| Extinction only | vrRN2, vrRN2nr, vrRN2fr | -| | | -| | vrRN2\_err, vrRN2nr\_err, vrRN2fr\_err | -+--------------------------------------------------------------+---------------------------------------------------+ -| Elastic Backscatter | elT, elTnr, elTfr | -| | | -| Elastic Backscatter + Particle Linear Depolarization Ratio | elT\_err, elTnr\_err, elTfr\_err | -| | | -| | elPR, elPRnr, elPRfr | -| | | -| | elPR\_err, elPRnr\_err, elPRfr\_err | -| | | -| | elPT, elPTnr, elPTfr | -| | | -| | elPT\_err, elPTnr\_err, elPTfr\_err | -+--------------------------------------------------------------+---------------------------------------------------+ -| Raman Backscatter | elT, elTnr, elTfr | -| | | -| Raman Backscatter + Particle Linear Depolarization Ratio | elT\_err, elTnr\_err, elTfr\_err | -| | | -| Lidar Ratio | elPR, elPRnr, elPRfr | -| | | -| | elPR\_err, elPRnr\_err, elPRfr\_err | -| | | -| | elPT, elPTnr, elPTfr | -| | | -| | elPT\_err, elPTnr\_err, elPTfr\_err | -| | | -| | vrRN2, vrRN2nr, vrRN2fr | -| | | -| | vrRN2\_err, vrRN2nr\_err, vrRN2fr\_err | -+--------------------------------------------------------------+---------------------------------------------------+