!
!NOTE: the section numbers refer to the Metadata Guidelines document.
!
! Section 4.1: Originator Attributes
! ----------------------------------
!
PI_NAME=Van Roozendael; Michel
PI_AFFILIATION=Belgian Institute for Space Aeronomy;BIRA.IASB
PI_ADDRESS=Avenue Circulaire, 3;B-1180 Brussels;BELGIUM
PI_EMAIL=michelv@aeronomie.be
!
DO_NAME=Hendrick; Francois
DO_AFFILIATION=Belgian Institute for Space Aeronomy;BIRA.IASB
DO_ADDRESS=Avenue Circulaire, 3;B-1180 Brussels;BELGIUM
DO_EMAIL=franch@aeronomie.be
!
DS_NAME=Fayt; Caroline
DS_AFFILIATION=Belgian Institute for Space Aeronomy;BIRA.IASB
DS_ADDRESS=Avenue Circulaire, 3;B-1180 Brussels;BELGIUM
DS_EMAIL=caroline.fayt@aeronomie.be
!
! Section 4.2: Dataset Attributes
! -------------------------------
!
DATA_DESCRIPTION=Total ozone column data from ground-based zenith-sky UV-vis observations at Jungfraujoch, Switzerland. See Hendrick et al., Atmos. Chem. Phys., 11, 5975-5995, 2011.
DATA_DISCIPLINE=ATMOSPHERIC.PHYSICS;REMOTE.SENSING;GROUNDBASED
DATA_GROUP=EXPERIMENTAL; PROFILE.STATIONARY
DATA_LOCATION=JUNGFRAUJOCH
DATA_SOURCE=UVVIS.DOAS.ZENITH.O3_BIRA.IASB002
DATA_LEVEL=O2
!
DATA_VARIABLES=DATETIME;DATETIME.START;DATETIME.STOP;INTEGRATION.TIME;LATITUDE.INSTRUMENT;LONGITUDE.INSTRUMENT;ALTITUDE.INSTRUMENT;ALTITUDE;PRESSURE_INDEPENDENT;PRESSURE_INDEPENDENT_SOURCE;TEMPERATURE_INDEPENDENT;TEMPERATURE_INDEPENDENT_SOURCE;COLUMN.PARTIAL_INDEPENDENT;COLUMN.PARTIAL_INDEPENDENT_SOURCE;ALTITUDE.BOUNDARIES;ANGLE.SOLAR_ZENITH.ASTRONOMICAL;ANGLE.SOLAR_AZIMUTH;ANGLE.VIEW_AZIMUTH;ANGLE.VIEW_ZENITH;LATITUDE;LONGITUDE;CLOUD.CONDITIONS;O3.MIXING.RATIO.VOLUME_SCATTER.SOLAR.ZENITH_APRIORI;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_UNCERTAINTY.RANDOM.STANDARD;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_UNCERTAINTY.SYSTEMATIC.STANDARD;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_APRIORI;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_AVK;O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_AMF;O3.COLUMN.PARTIAL_SCATTER.SOLAR.ZENITH_APRIORI
!
DATA_START_DATE=20080101T033000Z
DATA_STOP_DATE=20081212T233000Z
DATA_FILE_VERSION=007
DATA_MODIFICATIONS=None
DATA_QUALITY=RD
DATA_TEMPLATE=GEOMS-TE-UVVIS-DOAS-ZENITH-GAS-007
DATA_CAVEATS=
DATA_RULES_OF_USE=please contact M. Van Roozendael
DATA_ACKNOWLEDGEMENT=please contact M. Van Roozendael
!
!
! Section 4.3: File Attributes
! ----------------------------
!
FILE_NAME=
FILE_GENERATION_DATE=20151116T140512Z
FILE_ACCESS=NDACC
FILE_ASSOCIATION=NDACC/NORS
FILE_META_VERSION=04R017
!
! Section 5.1 & 5.2: Variable Attributes
! --------------------------------------
!
VAR_NAME=DATETIME
VAR_DESCRIPTION=datetime (UT), defined relative to reference datetime of Jan. 1, 2000 at 0:00:00 UT which is equal to 0.00
VAR_NOTES=mean time of the measurement sequence used for each retrieval
VAR_DATA_TYPE=DOUBLE
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=INDEPENDENT
VAR_UNITS=MJD2K
VAR_SI_CONVERSION=0;86400;s
VAR_VALID_MIN=-5500
VAR_VALID_MAX=6000
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Datetime (MJD2K)
VIS_FORMAT=F18.9
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-5500
VIS_SCALE_MAX=5000
!
VAR_NAME=DATETIME.START
VAR_DESCRIPTION=datetime start (UT), defined relative to reference datetime of Jan. 1, 2000 at 0:00:00 UT which is equal to 0.00
VAR_NOTES=start time of the measurement sequence used for each retrieval
VAR_DATA_TYPE=DOUBLE
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=MJD2K
VAR_SI_CONVERSION=0;86400;s
VAR_VALID_MIN=-5500
VAR_VALID_MAX=6000
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Datetime start(MJD2K)
VIS_FORMAT=F18.9
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-5500
VIS_SCALE_MAX=6000
!
VAR_NAME=DATETIME.STOP
VAR_DESCRIPTION=datetime stop (UT), defined relative to reference datetime of Jan. 1, 2000 at 0:00:00 UT which is equal to 0.00
VAR_NOTES=End time of the measurement sequence used for each retrieval
VAR_DATA_TYPE=DOUBLE
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=MJD2K
VAR_SI_CONVERSION=0;86400;s
VAR_VALID_MIN=-5500
VAR_VALID_MAX=6000
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Datetime stop(MJD2K)
VIS_FORMAT=F18.9
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-5500
VIS_SCALE_MAX=6000
!
VAR_NAME=INTEGRATION.TIME
VAR_DESCRIPTION=duration of the measurement corresponding to the profile
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=s
VAR_SI_CONVERSION=0;1;s
VAR_VALID_MIN=0
VAR_VALID_MAX=25600
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=measurement duration (s)
VIS_FORMAT=F12.4
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=25600
!
VAR_NAME=LATITUDE.INSTRUMENT
VAR_DESCRIPTION=latitude north (decimal degrees) of the location of the instrument
VAR_NOTES=sign convention: + for north and - for south
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS=deg
VAR_SI_CONVERSION=0;0.017453292519943;rad
VAR_VALID_MIN=-90
VAR_VALID_MAX=90
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Site Lat N (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-90
VIS_SCALE_MAX=90
!
VAR_NAME=LONGITUDE.INSTRUMENT
VAR_DESCRIPTION=longitude east (decimal degrees) of the location of the instrument
VAR_NOTES=sign convention: + for east and - for west
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS=deg
VAR_SI_CONVERSION=0;0.017453292519943;rad
VAR_VALID_MIN=-180
VAR_VALID_MAX=180
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Site Lon E (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-180
VIS_SCALE_MAX=180
!
VAR_NAME=ALTITUDE.INSTRUMENT
VAR_DESCRIPTION=altitude of the instrument relative to the location site
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS=m
VAR_SI_CONVERSION=0;1;m
VAR_VALID_MIN=-0.05
VAR_VALID_MAX=5000
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Instrument Altitude (m)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-0.01
VIS_SCALE_MAX=1000
!
VAR_NAME=ALTITUDE
VAR_DESCRIPTION=Grid of altitude levels upon which the retrieved target profile as well as pressure and temperature profiles are reported
VAR_NOTES=these altitudes are the centers of the retrieval altitude layers (geometric mean between the 2 layer boundaries); the reported number densities, P and T are effective layer values.
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=47
VAR_DEPEND=INDEPENDENT
VAR_UNITS=km
VAR_SI_CONVERSION=0;1000;m
VAR_VALID_MIN=0
VAR_VALID_MAX=120
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Altitude (km)
VIS_FORMAT=F10.3
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=120
!
VAR_NAME=PRESSURE_INDEPENDENT
VAR_DESCRIPTION=Total effective air pressures in layers for vertical profile retrieval
VAR_NOTES=Pressure/temperature profiles are taken NCEP; the pressure values represent the effective pressure in each layer and are reported at the center altitude of each layer
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=hPa
VAR_SI_CONVERSION=0;100;m-1 kg s-2
VAR_VALID_MIN=0
VAR_VALID_MAX=1100
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=P (hPa)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LOG;DECREASE
VIS_SCALE_MIN=0.01
VIS_SCALE_MAX=1020
!
VAR_NAME=PRESSURE_INDEPENDENT_SOURCE
VAR_DESCRIPTION=Pressure profile source (e.g. NCEP, Sonde, ECMWF etc.)
VAR_NOTES=
VAR_DATA_TYPE=STRING
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS= 
VAR_SI_CONVERSION= 
VAR_VALID_MIN= 
VAR_VALID_MAX= 
VAR_FILL_VALUE= 
!
!
VAR_NAME=TEMPERATURE_INDEPENDENT
VAR_DESCRIPTION=effective air temperatures in layers for vertical profile retrieval
VAR_NOTES=Pressure/temperature profiles are taken from NCEP; the pressure values represent the effective pressure in each layer and are reported at the center altitude of each layer
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=K
VAR_SI_CONVERSION=0;1;K
VAR_VALID_MIN=0
VAR_VALID_MAX=500
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=T (K)
VIS_FORMAT=F10.3
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=500
!
VAR_NAME=TEMPERATURE_INDEPENDENT_SOURCE
VAR_DESCRIPTION=Temperature profile source (e.g. NCEP, Sonde, ECMWF etc.)
VAR_NOTES=
VAR_DATA_TYPE=STRING
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS= 
VAR_SI_CONVERSION= 
VAR_VALID_MIN= 
VAR_VALID_MAX= 
VAR_FILL_VALUE= 
!
!
VAR_NAME=COLUMN.PARTIAL_INDEPENDENT
VAR_DESCRIPTION=Vertical profile of partial columns of dry air number densities (for conversion between VMR and partial column profile)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=molec cm-2
VAR_SI_CONVERSION=0.0;1.66054E-20;mol m-2
VAR_VALID_MIN=0.0
VAR_VALID_MAX=2.00E+025
VAR_FILL_VALUE=-90000.0
!
!
VAR_NAME=COLUMN.PARTIAL_INDEPENDENT_SOURCE
VAR_DESCRIPTION=Partial columns of air source (e.g. NCEP; Sonde; ECMWF etc.)
VAR_NOTES=
VAR_DATA_TYPE=STRING
VAR_DIMENSION=1
VAR_SIZE=1
VAR_DEPEND=CONSTANT
VAR_UNITS= 
VAR_SI_CONVERSION= 
VAR_VALID_MIN= 
VAR_VALID_MAX= 
VAR_FILL_VALUE= 
!
!
VAR_NAME=ALTITUDE.BOUNDARIES
VAR_DESCRIPTION=2D matrix providing the layer boundaries used for vertical profile retrieval
VAR_NOTES=The retrieved partial columns are given at the center between the boundaries provided in this vector.The lower most boundary is at the altitude of the site
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=2;47
VAR_DEPEND=INDEPENDENT;ALTITUDE
VAR_UNITS=km
VAR_SI_CONVERSION=0;1000;m
VAR_VALID_MIN=0
VAR_VALID_MAX=120
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Altitude boundaries (km)
VIS_FORMAT=F10.3
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=120
!
VAR_NAME=ANGLE.SOLAR_ZENITH.ASTRONOMICAL
VAR_DESCRIPTION=astronomical zenith angle of the sun
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0; 0.017453292519943;rad
VAR_VALID_MIN=0
VAR_VALID_MAX=180
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=SZA (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=180
!
VAR_NAME=ANGLE.SOLAR_AZIMUTH
VAR_DESCRIPTION=The solar azimuth angle at which the measurement was taken using north as the reference plane and increasing clockwise (0 for north, 90 for east and so on)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0; 0.017453292519943;rad
VAR_VALID_MIN=0.0
VAR_VALID_MAX=360.0
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Solar azimuth (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0.0
VIS_SCALE_MAX=360.0
!
VAR_NAME=ANGLE.VIEW_AZIMUTH
VAR_DESCRIPTION=The azimuth viewing direction of the instrument using north as the reference plane and increasing clockwise (0 for north, 90 for east and so on)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0; 0.017453292519943;rad
VAR_VALID_MIN=0.0
VAR_VALID_MAX=360.0
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Instrument pointing azimuth (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0.0
VIS_SCALE_MAX=360.0
!
VAR_NAME=ANGLE.VIEW_ZENITH
VAR_DESCRIPTION=pointing zenith angle of the MAXDOAS
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0; 0.017453292519943;rad
VAR_VALID_MIN=0
VAR_VALID_MAX=180
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-90000.00
!
VIS_LABEL=Instrument pointing zenith (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=180
!
VAR_NAME=LATITUDE
VAR_DESCRIPTION=Latitude of the effective air mass. Values are given for each altitude layer (ALTITUDE)
VAR_NOTES=sign convention: + for north and - for south
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0;0.017453292519943;rad
VAR_VALID_MIN=-90
VAR_VALID_MAX=90
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Measurement Lat N (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-90
VIS_SCALE_MAX=90
!
VAR_NAME=LONGITUDE
VAR_DESCRIPTION=Longitude of the effective air mass. Values are given for each altitude layer (ALTITUDE)
VAR_NOTES=sign convention: + for east and - for west
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=deg
VAR_SI_CONVERSION=0;0.017453292519943;rad
VAR_VALID_MIN=-180
VAR_VALID_MAX=180
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Measurement Lon E (deg)
VIS_FORMAT=F9.2
VIS_PLOT_TYPE=XY
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-180
VIS_SCALE_MAX=180
!
VAR_NAME=CLOUD.CONDITIONS
VAR_DESCRIPTION=Possible Values: clear-sky; thin clouds; thick clouds; broken clouds; [empty]. [empty] means that the cloud retrieval is not successful or not possible
VAR_NOTES=
VAR_DATA_TYPE=STRING
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS= 
VAR_SI_CONVERSION= 
VAR_VALID_MIN= 
VAR_VALID_MAX= 
VAR_FILL_VALUE= 
!
VIS_LABEL=cloud conditions
!
VAR_NAME=O3.MIXING.RATIO.VOLUME_SCATTER.SOLAR.ZENITH_APRIORI
VAR_DESCRIPTION=a priori vertical profile of O3 used in the retrieval in VMR units (zenith)
VAR_NOTES=the same a priorti vertical profile was taken for all days in the present datafile
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=pptv
VAR_SI_CONVERSION=0; 10-12; ppv
VAR_VALID_MIN=-9
VAR_VALID_MAX=9e+10
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=O3 apriori VMR (pptv) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-9
VIS_SCALE_MAX=-99
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH
VAR_DESCRIPTION=retrieved O3 total stratospheric column corresponding to retrieved vmr profiles (zenith)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=Pmolec cm-2
VAR_SI_CONVERSION=0; 1.660539E-5; mol m-2
VAR_VALID_MIN=-1.00E+02
VAR_VALID_MAX=1.00E+07
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=O3 vertical stratospheric column (1E15 molec cm-2) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-1.00E+02
VIS_SCALE_MAX=1.00E+07
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_UNCERTAINTY.RANDOM.STANDARD
VAR_DESCRIPTION=total random uncertainty on the retrieved total vertical columns of O3 (zenith)
VAR_NOTES=smoothing error is not included!
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=Pmolec cm-2
VAR_SI_CONVERSION=0; 1.660539E-5; mol m-2
VAR_VALID_MIN=-1.00E+02
VAR_VALID_MAX=1.00E+07
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=O3 vertical stratospheric column random uncertainty (1E15 molec cm-2) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-1.00E+02
VIS_SCALE_MAX=1.00E+07
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_UNCERTAINTY.SYSTEMATIC.STANDARD
VAR_DESCRIPTION=total systematic uncertainty on the retrieved total vertical columns of O3 (zenith)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=Pmolec cm-2
VAR_SI_CONVERSION=0; 1.660539E-5; mol m-2
VAR_VALID_MIN=-1.00E+02
VAR_VALID_MAX=1.00E+07
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=O3 vertical STRATOSPHERIC column systematic uncertainty (1E15 molec cm-2) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-1.00E+02
VIS_SCALE_MAX=1.00E+07
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_APRIORI
VAR_DESCRIPTION=apriori O3 total stratospheric column corresponding to retrieved vmr apriori profiles (zenith)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=Pmolec cm-2
VAR_SI_CONVERSION=0; 1.660539E-5; mol m-2
VAR_VALID_MIN=-1.00E+02
VAR_VALID_MAX=1.00E+10
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=apriori O3 vertical stratospheric column (1E15 molec cm-2) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.TIMESERIES
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-1.00E+02
VIS_SCALE_MAX=1.00E+03
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_AVK
VAR_DESCRIPTION=total vertical column averaging kernel for O3 derived from mixing ratio averaging kernel (zenith)
VAR_NOTES=this averaging kernel multiplies the partial column vector in order to get smoothed total column
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=DIMENSIONLESS
VAR_SI_CONVERSION=0; 1; DIMENSIONLESS
VAR_VALID_MIN=-15
VAR_VALID_MAX=15
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=O3 total stratospheric column averaging kernel (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=-15
VIS_SCALE_MAX=15
!
VAR_NAME=O3.COLUMN.STRATOSPHERIC_SCATTER.SOLAR.ZENITH_AMF
VAR_DESCRIPTION=air mass factor associated with the total stratospheric vertical columns of O3 (zenith)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=1
VAR_SIZE=2
VAR_DEPEND=DATETIME
VAR_UNITS=DIMENSIONLESS
VAR_SI_CONVERSION=0; 1; DIMENSIONLESS
VAR_VALID_MIN=0
VAR_VALID_MAX=50
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=Stratospheric O3 air mass factors(zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0
VIS_SCALE_MAX=50
!
VAR_NAME=O3.COLUMN.PARTIAL_SCATTER.SOLAR.ZENITH_APRIORI
VAR_DESCRIPTION=apriori O3 (vertical) partial columns in the retrieved layers (zenith)
VAR_NOTES=
VAR_DATA_TYPE=REAL
VAR_DIMENSION=2
VAR_SIZE=47;2
VAR_DEPEND=ALTITUDE;DATETIME
VAR_UNITS=Pmolec cm-2
VAR_SI_CONVERSION=0; 1.660539E-5; mol m-2
VAR_VALID_MIN=0.00E+00
VAR_VALID_MAX=1.00E+03
VAR_AVG_TYPE=NONE
VAR_FILL_VALUE=-9.0000E+004
!
VIS_LABEL=apriori O3 partial column (1E15 molec cm-2) (zenith)
VIS_FORMAT=E12.4
VIS_PLOT_TYPE=XY.PROFILE
VIS_SCALE_TYPE=LINEAR;INCREASE
VIS_SCALE_MIN=0.00E+00
VIS_SCALE_MAX=1.00E+03
!