netcdf hope_lac_cr00_l1_any_1_1854713095018731168 {
dimensions:
time = UNLIMITED ; // (8636 currently)
range = 498 ;
nv = 2 ;
variables:
float lon ;
lon:standard_name = "longitude" ;
lon:units = "degrees_east" ;
float lat ;
lat:standard_name = "latitude" ;
lat:units = "degrees_north" ;
float zsl ;
zsl:standard_name = "altitude" ;
zsl:long_name = "altitude above mean sea level" ;
zsl:units = "m" ;
int nfft(time) ;
nfft:long_name = "number of fft points" ;
nfft:units = "1" ;
int prf(time) ;
prf:long_name = "pulse repetition frequency" ;
prf:units = "s-1" ;
float pd(time) ;
pd:long_name = "pulse duration" ;
pd:units = "s" ;
float nqv(time) ;
nqv:long_name = "nyquist velocity" ;
nqv:units = "m s-1" ;
int nave(time) ;
nave:long_name = "number of spectral averages" ;
nave:units = "1" ;
nave:comment = "one spectrum corresponds to a temporal averaging interval of 1/prf*nfft " ;
float freq_sb ;
freq_sb:standard_name = "sensor_band_central_radiation_frequency" ;
freq_sb:units = "s-1" ;
float range(range) ;
range:long_name = "distance from sensor to center of each range gate along the line of sight" ;
range:units = "m" ;
range:bounds = "range_bnds" ;
float range_bnds(range, nv) ;
double time(time) ;
time:standard_name = "time" ;
time:units = "seconds since 1970-01-01 00:00:00 UTC" ;
time:bounds = "time_bnds" ;
time:calendar = "gregorian" ;
double time_bnds(time, nv) ;
float azi(time) ;
azi:standard_name = "sensor_azimuth_angle" ;
azi:long_name = "sensor azimuth due reference point" ;
azi:units = "degree" ;
azi:bounds = "azi_bnds" ;
azi:comment = "angle given in clockwise direction relative to home position" ;
float azi_bnds(time, nv) ;
float azi_north ;
azi_north:long_name = "azimuth angle of north direction" ;
azi_north:units = "degree" ;
azi_north:comment = "angle given in clockwise direction relative to home position" ;
float ele(time) ;
ele:long_name = "sensor elevation angle" ;
ele:units = "degree" ;
ele:bounds = "ele_bnds" ;
float ele_bnds(time, nv) ;
float aziv(time) ;
aziv:long_name = "sensor azimuth angle velocity" ;
aziv:units = "degree s-1" ;
float elev(time) ;
elev:long_name = "sensor elevation angle velocity" ;
elev:units = "degree s-1" ;
float dv_all(time, range) ;
dv_all:long_name = "Doppler velocity of all targets" ;
dv_all:_FillValue = -999.f ;
dv_all:units = "m s-1" ;
float sw_all(time, range) ;
sw_all:long_name = "spectral width of all targets" ;
sw_all:_FillValue = -999.f ;
sw_all:units = "m s-1" ;
float ldr_all(time, range) ;
ldr_all:long_name = "linear depolarization ratio of all targets" ;
ldr_all:_FillValue = -999.f ;
ldr_all:units = "dB" ;
float dbz_all(time, range) ;
dbz_all:long_name = "equivalent reflectivity factor of all targets" ;
dbz_all:_FillValue = -999.f ;
dbz_all:units = "dBZ" ;
float dv_hm(time, range) ;
dv_hm:long_name = "Doppler velocity of targets classified as hydrometeors" ;
dv_hm:_FillValue = -999.f ;
dv_hm:units = "m s-1" ;
float sw_hm(time, range) ;
sw_hm:long_name = "spectral width of targets classified as hydrometeors" ;
sw_hm:_FillValue = -999.f ;
sw_hm:units = "m s-1" ;
float ldr_hm(time, range) ;
ldr_hm:long_name = "linear depolarization ratio of targets classified as hydrometeors" ;
ldr_hm:_FillValue = -999.f ;
ldr_hm:units = "dB" ;
float dbz_hm(time, range) ;
dbz_hm:long_name = "equivalent reflectivity factor of targets classified as hydrometeors" ;
dbz_hm:_FillValue = -999.f ;
dbz_hm:units = "dBZ" ;
float dbz_hm_mie(time, range) ;
dbz_hm_mie:long_name = "Mie-corrected equivalent reflectivity factor of targets classified as hydrometeors" ;
dbz_hm_mie:_FillValue = -999.f ;
dbz_hm_mie:units = "dBZ" ;
float radconst_5km_co(time) ;
radconst_5km_co:long_name = "radar constant of co-channel at 5 km height" ;
radconst_5km_co:units = "1" ;
float radconst_5km_cross(time) ;
radconst_5km_cross:long_name = "radar constant of cross-channel at 5 km height" ;
radconst_5km_cross:units = "1" ;
float dbz_bias ;
dbz_bias:long_name = "Estimated calibration error in dBz, one standard deviation" ;
dbz_bias:comment = "This varibale is an estimate of the one-standard-deviation calibration error (i.e.likely systematic error in radar reflectivity factor)" ;
dbz_bias:units = "dB" ;
float dbz_min_co(time, range) ;
dbz_min_co:long_name = "minimum detectable radar reflectivity factor of co-channel" ;
dbz_min_co:units = "dBZ" ;
float dbz_min_cross(time, range) ;
dbz_min_cross:long_name = "minimum detectable radar reflectivity factor of cross-channel" ;
dbz_min_cross:units = "dBZ" ;
// global attributes:
:Title = "Cloud radar data" ;
:Institution = "Leibniz Institute for Tropospheric Research (TROPOS), Leipzig, Germany" ;
:Contact_person = "Dr. Patric Seifert, " ;
:Source = "Metek MIRA36 cloud radar" ;
:History = "Data processed by TROPOS with CONVERT_MMCLX_2_HDCP2.PRO on the basis of the mmclx (multi-mode clusster classification) output." ;
:Conventions = "CF-1.6" ;
:Processing_date = "2014-09-18, 11:58:42 UTC" ;
:Author = "Dr. Patric Seifert, " ;
:Comments = "This product was created from MIRA mmclx data files adjusted to the HD(CP)2 data conventions." ;
:Licence = "For non-commercial use only. This data is subject to the HD(CP)2 data policy to be found at hdcp2.zmaw.de and in the HD(CP)2 Observation Data Product Standard." ;
}