!MKCLO3M NDACC NASA/AMES to Metadata Translation Table and Metadata Template
!Used by Run_CDS suite of Programs
!Version 01R001

(a) GEOMS-TE-[WG]-VA Interpretation
GEOMS-TE-[WG]-VA file = GEOMS-TE-MWR-VA.csv
[GAS] = ClO
POINT_SOURCE =
MANDATORY_LIST =

(b) NDACC/WOUDC File Translation
!First Row is the NASA/AMES search string for the descriptor of the 
!number of levels in each measurement, otherwise this section is 
!described as follows:
!Columns:
!  1. HDF Metadata Variable Name corresponding to NASA/AMES descriptor
!  2. NASA/AMES descriptor (text string searched for in header file)
!  3. VAR_SIZE (actual number, or nx to use number of levels from NDACC file, or nm to use the number of measurements in the NDACC file)
!  4. Scale or Conversion Factor
!  5. Global or Variable Attribute (G or V)
NX(1)=number of altitudes at which ClO mixing ratio is reported
LATITUDE.INSTRUMENT, Latitude of site (degrees), 1, 1.0, V
LONGITUDE.INSTRUMENT, Longitude of site (degrees), 1,-0.760219, V
ALTITUDE.INSTRUMENT, Altitude of site (meters), 1, 1.0, V
DATETIME, UT day number at midpoint of observation, 1, DAY-1 to MJD2000, V
ANGLE.VIEW_AZIMUTH,N/A,1,N/A, V
ANGLE.VIEW_ZENITH_MEAN,N/A,1,N/A,V
ANGLE.SOLAR_ZENITH_MEAN,N/A,1,N/A,V
OPACITY.ATMOSPHERIC.VERTICAL_EMISSION,N/A,1,N/A,V
ClO.MIXING.RATIO_EMISSION_START.TIME, UT day number of start of observation, 1, DAY-1 to MJD2000,V
ClO.MIXING.RATIO_EMISSION_STOP.TIME, UT day number of end of observation, 1, DAY-1 to MJD2000,V
ClO.MIXING.RATIO_EMISSION_INTEGRATION.TIME, Integration time (days), 1,24.0,V
ALTITUDE, Altitude in meters, nx, 1.0,V
PRESSURE_INDEPENDENT, Pressure (hectopascals), nx, 1.0,V
TEMPERATURE_INDEPENDENT, Temperature (deg-K), nx, 1.0,V
ClO.MIXING.RATIO_EMISSION, Daytime mixing ratio of ClO (PPMV), nx,1.E-6,V
ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.RANDOM,N/A,nx,N/A,V
ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.SYSTEMATIC,N/A,nx,N/A,V
ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.TOTAL, Deconvolution error in ClO mixing ratio (PPMV), nx, %;ClO.MIXING.RATIO_EMISSION;100.0,V
ClO.MIXING.RATIO_EMISSION_RESOLUTION.ALTITUDE,N/A,nx,N/A,V
ClO.MIXING.RATIO_EMISSION_APRIORI,N/A,nx,N/A,V
ClO.MIXING.RATIO_EMISSION_APRIORI.CONTRIBUTION,N/A,nx,N/A,V
ClO.MIXING.RATIO_EMISSION_AVK,N/A,nx;nx,N/A,V

(c) NDACC/WOUDC Comments Verification
!Standard Primary and Secondary Comments from the NDACC file. These have
!been hard-wired as appropriate into the Metadata File
0
20
Each vertical profile of ClO is the result of the deconvolution of a
'daytime' spectrum of the 278.632 GHz line of ClO. Each of these spectra
is an average of spectra taken over a period of several consecutive days
between 9 and 17 hours local time. Data are taken continuously during these
hours,weather permitting. The auxiliary variable "integration time" is the
net number of days of data, excluding time lost to bad weather, equipment
maintenance and deadtime in the data-taking cycle. The averaging over
several days is necessary to increase the signal to noise in the spectra
to a level permitting successful deconvolution. Deconvolution requires
knowledge of the vertical profiles of temperature and pressure in the
atmosphere, and the values used are, as a matter of convenience, included in
this file disguised as primary variables. The ClO mixing ratios presented are
average values over 3 km thick layers centered at the indicated altitudes.
The calibration errors represent the uncertainty in the overall scaling of
the spectra and the derived vertical profile. The deconvolution errors in the
altitude layers are not independent, in the sense that if the values of the ClO
mixing ratio at all altitudes were at the upper (or lower) extreme of the
indicated range, they would imply a spectrum inconsistent with that observed.
If some are higher than their nominal values, others must be lower.
For more info, contact James.Barrett@stonybrook.edu

(d) ClO MWR Metadata File
! Input to program cr8hdf/IDLcr8hdf
!
! Section 4.1: Originator Attributes
PI_NAME = Connor; Brian
PI_AFFILIATION = State University of New York at Stony Brook;SUNYSB
PI_ADDRESS = Physics and Astronomy, SUNY Stony Brook;Stony Brook NY 11794;UNITED STATES
PI_EMAIL = bcconsulting@xtra.co.nz
DO_NAME = Barrett; James
DO_AFFILIATION = State University of New York at Stony Brook;SUNYSB
DO_ADDRESS = Physics and Astronomy, SUNY Stony Brook;Stony Brook NY 11794;UNITED STATES
DO_EMAIL = James.Barrett@sunysb.edu
DS_NAME = Barrett; James
DS_AFFILIATION = State University of New York at Stony Brook;SUNYSB
DS_ADDRESS = Physics and Astronomy, SUNY Stony Brook;Stony Brook NY 11794;UNITED STATES
DS_EMAIL = James.Barrett@sunysb.edu
!
! Dataset Attributes
DATA_DESCRIPTION =
DATA_DISCIPLINE = ATMOSPHERIC.PHYSICS;REMOTE.SENSING;GROUNDBASED
DATA_GROUP = EXPERIMENTAL; PROFILE.STATIONARY
DATA_LOCATION = MAUNA.KEA.HI
DATA_SOURCE = MWR.ClO_SUNYSB003
DATA_LEVEL = H2
DATA_VARIABLES = LATITUDE.INSTRUMENT; LONGITUDE.INSTRUMENT; ALTITUDE.INSTRUMENT; DATETIME; ANGLE.VIEW_AZIMUTH; ANGLE.VIEW_ZENITH_MEAN; ANGLE.SOLAR_ZENITH_MEAN; OPACITY.ATMOSPHERIC.VERTICAL_EMISSION; ClO.MIXING.RATIO_EMISSION_START.TIME; ClO.MIXING.RATIO_EMISSION_STOP.TIME; ClO.MIXING.RATIO_EMISSION_INTEGRATION.TIME; ALTITUDE; PRESSURE_INDEPENDENT; TEMPERATURE_INDEPENDENT; ClO.MIXING.RATIO_EMISSION; ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.RANDOM; ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.SYSTEMATIC; ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.TOTAL; ClO.MIXING.RATIO_EMISSION_RESOLUTION.ALTITUDE; ClO.MIXING.RATIO_EMISSION_APRIORI; ClO.MIXING.RATIO_EMISSION_APRIORI.CONTRIBUTION; ClO.MIXING.RATIO_EMISSION_AVK
DATA_START_DATE =
DATA_FILE_VERSION =
DATA_MODIFICATIONS = NONE
DATA_QUALITY =
DATA_CAVEATS =
DATA_RULES_OF_USE = Please contact James Barrett at James.Barrett@sunysb.edu
DATA_ACKNOWLEDGEMENT =
!
! File Attributes
FILE_NAME =
FILE_GENERATION_DATE =
FILE_HISTORY =
FILE_ACCESS = AVDC; NDACC
FILE_PROJECT_ID =
FILE_ASSOCIATION = NDACC
FILE_META_VERSION =
!
! Variable Metadata Attributes
! LATITUDE.INSTRUMENT
VAR_NAME = LATITUDE.INSTRUMENT
VAR_DESCRIPTION = Latitude of the observation site (deg)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = CONSTANT
VAR_DATA_TYPE = REAL
VAR_UNITS = deg
VAR_SI_CONVERSION = 0.0;1.74533E-2;rad
VAR_VALID_MIN = -90.00
VAR_VALID_MAX = 90.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Latitude (deg)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -90.00
VIS_SCALE_MAX = 90.00
!
! Variable Metadata Attributes
! LONGITUDE.INSTRUMENT
VAR_NAME = LONGITUDE.INSTRUMENT
VAR_DESCRIPTION = Longitude of the observation site (deg)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = CONSTANT
VAR_DATA_TYPE = REAL
VAR_UNITS = deg
VAR_SI_CONVERSION = 0.0;1.74533E-2;rad
VAR_VALID_MIN = -180.00
VAR_VALID_MAX = 180.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Longitude (deg)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -180.00
VIS_SCALE_MAX = 180.00
!
! Variable Metadata Attributes
! ALTITUDE.INSTRUMENT
VAR_NAME = ALTITUDE.INSTRUMENT
VAR_DESCRIPTION = Altitude of the observation site (m)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = CONSTANT
VAR_DATA_TYPE = LONG
VAR_UNITS = m
VAR_SI_CONVERSION = 0;1;m
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 5000.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Instrument altitude (m)
VIS_FORMAT = I6
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 5000.00
!
! Variable Metadata Attributes
! DATETIME
VAR_NAME = DATETIME
VAR_DESCRIPTION = Date and Time of the Measurement (MJD2000)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = INDEPENDENT
VAR_DATA_TYPE = DOUBLE
VAR_UNITS = MJD2000
VAR_SI_CONVERSION = 0.0;86400.0;s
VAR_VALID_MIN = -2910.0
VAR_VALID_MAX =
VAR_AVG_TYPE = STANDARD
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Datetime (MJD2000)
VIS_FORMAT = F16.9
VIS_PLOT_TYPE = XY.TIMESERIES
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -2910.0
VIS_SCALE_MAX = 5000.0
!
! Variable Metadata Attributes
! ANGLE.VIEW_AZIMUTH
VAR_NAME = ANGLE.VIEW_AZIMUTH
VAR_DESCRIPTION = Viewing Azimuth angle (deg)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = CONSTANT
VAR_DATA_TYPE = REAL
VAR_UNITS = deg
VAR_SI_CONVERSION = 0.0;1.74533E-2;rad
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 360.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Azimuth (deg)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 360.00
!
! Variable Metadata Attributes
! ANGLE.VIEW_ZENITH_MEAN
VAR_NAME = ANGLE.VIEW_ZENITH_MEAN
VAR_DESCRIPTION = Mean Viewing Zenith angle (deg)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = REAL
VAR_UNITS = deg
VAR_SI_CONVERSION = 0.0;1.74533E-2;rad
VAR_VALID_MIN = 60.00
VAR_VALID_MAX = 85.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Zenith angle (deg)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 60.00
VIS_SCALE_MAX = 85.00
!
! Variable Metadata Attributes
! ANGLE.SOLAR_ZENITH.MEAN
VAR_NAME = ANGLE.SOLAR_ZENITH_MEAN
VAR_DESCRIPTION = Mean Solar Zenith angle of measurement (deg)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = REAL
VAR_UNITS = deg
VAR_SI_CONVERSION = 0.0;1.74533E-2;rad
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 180.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Mean solar zenith angle (deg)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 180.00
!
! Variable Metadata Attributes
! OPACITY.ATMOSPHERIC.VERTICAL_EMISSION
VAR_NAME = OPACITY.ATMOSPHERIC.VERTICAL_EMISSION
VAR_DESCRIPTION = Tropospheric Optical Depth at 278.632 GHz
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = REAL
VAR_UNITS = Np
VAR_SI_CONVERSION = 0.0;1.0;DIMENSIONLESS
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 1.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.000
! Variable Visualisation Attributes
VIS_LABEL = Opacity (Np)
VIS_FORMAT = F10.3
VIS_PLOT_TYPE = XY.TIMESERIES
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 1.00
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_START.TIME
VAR_NAME = ClO.MIXING.RATIO_EMISSION_START.TIME
VAR_DESCRIPTION = Start Date and Time of the Measurement (MJD2000)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = DOUBLE
VAR_UNITS = MJD2000
VAR_SI_CONVERSION = 0.0;86400.0;s
VAR_VALID_MIN =
VAR_VALID_MAX =
VAR_AVG_TYPE = STANDARD
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Start Datetime (MJD2000)
VIS_FORMAT = F16.9
VIS_PLOT_TYPE = XY.TIMESERIES
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -2810.0
VIS_SCALE_MAX = 5000.0
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_STOP.TIME
VAR_NAME = ClO.MIXING.RATIO_EMISSION_STOP.TIME
VAR_DESCRIPTION = Stop Date and Time of the Measurement (MJD2000)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = DOUBLE
VAR_UNITS = MJD2000
VAR_SI_CONVERSION = 0.0;86400.0;s
VAR_VALID_MIN =
VAR_VALID_MAX =
VAR_AVG_TYPE = STANDARD
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Stop Datetime (MJD2000)
VIS_FORMAT = F16.9
VIS_PLOT_TYPE = XY.TIMESERIES
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -2810.0
VIS_SCALE_MAX = 5000.0
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_INTEGRATION.TIME
VAR_NAME = ClO.MIXING.RATIO_EMISSION_INTEGRATION.TIME
VAR_DESCRIPTION = Effective Measurement Time (h)
VAR_NOTES = The auxiliary variable "integration time" is the net number of days of data, excluding time lost to bad weather, equipment maintenance and deadtime in the data-taking cycle. The averaging over several days is necessary to increase the signal to noise in the spectra to a level permitting successful deconvolution.
VAR_DIMENSION = 1
VAR_SIZE = 1
VAR_DEPEND = DATETIME
VAR_DATA_TYPE = DOUBLE
VAR_UNITS = h
VAR_SI_CONVERSION = 0.0;3600.0;s
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 1000.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Effective Measurement Time (h)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XY.TIMESERIES
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 1000.00
!
! Variable Metadata Attributes
! ALTITUDE
VAR_NAME = ALTITUDE
VAR_DESCRIPTION = Altitude as geometric height (m)
VAR_NOTES = The ClO mixing ratios presented are average values over 3 km thick layers centered at the indicated altitudes.
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = INDEPENDENT
VAR_DATA_TYPE = LONG
VAR_UNITS = m
VAR_SI_CONVERSION = 0;1;m
VAR_VALID_MIN = 10000
VAR_VALID_MAX = 120000
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000
! Variable Visualisation Attributes
VIS_LABEL = Altitude (m)
VIS_FORMAT = I6
VIS_PLOT_TYPE = XY
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 10000
VIS_SCALE_MAX = 120000
!
! Variable Metadata Attributes
! PRESSURE_INDEPENDENT
VAR_NAME = PRESSURE_INDEPENDENT
VAR_DESCRIPTION = Atmospheric Pressure
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = hPa
VAR_SI_CONVERSION = 0.0;1.0E2;kg m-1 s-2
VAR_VALID_MIN = 5.0000E-005
VAR_VALID_MAX = 2.5000E+002
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -9.0000E+004
! Variable Visualisation Attributes
VIS_LABEL = Pressure (hPa)
VIS_FORMAT = E12.4
VIS_PLOT_TYPE = XY.PROFILE
VIS_SCALE_TYPE = LOG; DECREASE
VIS_SCALE_MIN = 5.0000E-005
VIS_SCALE_MAX = 2.5000E+002
!
! Variable Metadata Attributes
! TEMPERATURE_INDEPENDENT
VAR_NAME = TEMPERATURE_INDEPENDENT
VAR_DESCRIPTION = Temperature Profile (K)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = K
VAR_SI_CONVERSION = 0.0;1.0;K
VAR_VALID_MIN = 100.00
VAR_VALID_MAX = 500.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = Temperature (K)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 100.00
VIS_SCALE_MAX = 500.00
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION
VAR_NAME = ClO.MIXING.RATIO_EMISSION
VAR_DESCRIPTION = ClO Volume Mixing Ratio Profile (ppv)
VAR_NOTES = Each vertical profile of ClO is the result of the deconvolution of a 'daytime' spectrum of the 278.632 GHz line of ClO. Each of these spectra is an average of spectra taken over a period of several consecutive days between 9 and 17 hours local time. Data are taken continuously during these hours,weather permitting.
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = ppv
VAR_SI_CONVERSION = 0.0;1.0;DIMENSIONLESS
VAR_VALID_MIN = -1.0000E-006
VAR_VALID_MAX = 2.0000E-005
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -9.0000E+004
! Variable Visualisation Attributes
VIS_LABEL = ClO VMR (ppv)
VIS_FORMAT = E12.4
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -1.0000E-006
VIS_SCALE_MAX = 2.0000E-005
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.RANDOM
VAR_NAME = ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.RANDOM
VAR_DESCRIPTION = ClO Profile Random Error (%)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = %
VAR_SI_CONVERSION = 0.0;0.01;DIMENSIONLESS
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 50.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = ClO VMR Random Error (%)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 50.00
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.SYSTEMATIC
VAR_NAME = ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.SYSTEMATIC
VAR_DESCRIPTION = ClO Profile Systematic Error (%)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = %
VAR_SI_CONVERSION = 0.0;0.01;DIMENSIONLESS
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 50.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = ClO VMR Random Error (%)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 50.0
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.TOTAL
VAR_NAME = ClO.MIXING.RATIO_EMISSION_UNCERTAINTY.TOTAL
VAR_DESCRIPTION = ClO Profile Total Error (%)
VAR_NOTES = The deconvolution errors in the altitude layers are not independent, in the sense that if the values of the ClO mixing ratio at all altitudes were at the upper (or lower) extreme of the indicated range, they would imply a spectrum inconsistent with that observed. If some are higher than their nominal values, others must be lower.
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = %
VAR_SI_CONVERSION = 0.0;0.01;DIMENSIONLESS
VAR_VALID_MIN = 0.00
VAR_VALID_MAX = 5000.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = ClO VMR Total Error (%)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.00
VIS_SCALE_MAX = 5000.00
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_RESOLUTION.ALTITUDE
VAR_NAME = ClO.MIXING.RATIO_EMISSION_RESOLUTION.ALTITUDE
VAR_DESCRIPTION = ClO Mixing Ratio Altitude Resolution (m)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = LONG
VAR_UNITS = m
VAR_SI_CONVERSION = 0;1;m
VAR_VALID_MIN = 5000
VAR_VALID_MAX = 20000
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000
! Variable Visualisation Attributes
VIS_LABEL = ClO VMR Resolution (m)
VIS_FORMAT = I6
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 5000
VIS_SCALE_MAX = 20000
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_APRIORI
VAR_NAME = ClO.MIXING.RATIO_EMISSION_APRIORI
VAR_DESCRIPTION = A priori ClO Profile (ppv)
VAR_NOTES =
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = ppv
VAR_SI_CONVERSION = 0.0;1.0;DIMENSIONLESS
VAR_VALID_MIN = 0.0000E+000
VAR_VALID_MAX = 2.0000E-005
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -9.0000E+004
! Variable Visualisation Attributes
VIS_LABEL = A priori ClO Profile (ppv)
VIS_FORMAT = E12.4
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = 0.0000E+000
VIS_SCALE_MAX = 2.0000E-005
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_APRIORI.CONTRIBUTION
VAR_NAME = ClO.MIXING.RATIO_EMISSION_APRIORI.CONTRIBUTION
VAR_DESCRIPTION = Contribution from the A priori to the retrieved ClO Profile (%)
VAR_NOTES = Contribution from the A priori to the retrieved ClO profile computed according to Connor et al., JGR, 100, 9283-9291, 1995.
VAR_DIMENSION = 1
VAR_SIZE =
VAR_DEPEND = ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = %
VAR_SI_CONVERSION = 0.0;0.01;DIMENSIONLESS
VAR_VALID_MIN = -50.00
VAR_VALID_MAX = 50.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -90000.00
! Variable Visualisation Attributes
VIS_LABEL = A priori Contribution (%)
VIS_FORMAT = F9.2
VIS_PLOT_TYPE = XYZ.COLOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -50.00
VIS_SCALE_MAX = 50.00
!
! Variable Metadata Attributes
! ClO.MIXING.RATIO_EMISSION_AVK
VAR_NAME = ClO.MIXING.RATIO_EMISSION_AVK
VAR_DESCRIPTION = ClO Retrieval Averaging Kernels
VAR_NOTES = Generic Averaging Kernels for this site.
VAR_DIMENSION = 2
VAR_SIZE =
VAR_DEPEND = ALTITUDE; ALTITUDE
VAR_DATA_TYPE = REAL
VAR_UNITS = DIMENSIONLESS
VAR_SI_CONVERSION = 0.0;1.0;DIMENSIONLESS
VAR_VALID_MIN = -1.00
VAR_VALID_MAX = 1.00
VAR_AVG_TYPE = NONE
VAR_FILL_VALUE = -9.00E+004
! Variable Visualisation Attributes
VIS_LABEL = Averaging Kernels (-)
VIS_FORMAT = E10.2
VIS_PLOT_TYPE = XYZ.CONTOUR
VIS_SCALE_TYPE = LINEAR; INCREASE
VIS_SCALE_MIN = -0.200
VIS_SCALE_MAX = 0.500
!
! End of ClO MWR Metadata File
!