netcdf OTHITACS_tiegcm_2006_1_350157979797946620 {
dimensions:
time = UNLIMITED ; // (144 currently)
lon = 144 ;
lat = 72 ;
lev = 57 ;
ilev = 57 ;
mlon = 81 ;
mlat = 97 ;
mlev = 63 ;
imlev = 63 ;
mtimedim = 3 ;
latlon = 2 ;
dtidedim = 2 ;
sdtidedim = 10 ;
datelen = 24 ;
filelen = 1024 ;
variables:
double time(time) ;
time:long_name = "time" ;
time:units = "minutes since 2006-1-1 0:0:0" ;
time:initial_year = 2006 ;
time:initial_day = 1 ;
time:initial_mtime = 1, 0, 0 ;
time:calendar = "none" ;
double lon(lon) ;
lon:long_name = "geographic longitude (-west, +east)" ;
lon:units = "degrees_east" ;
lon:standard_name = "longitude" ;
double lat(lat) ;
lat:long_name = "geographic latitude (-south, +north)" ;
lat:units = "degrees_north" ;
lat:standard_name = "latitude" ;
double lev(lev) ;
lev:long_name = "midpoint levels" ;
lev:short_name = "ln(p0/p)" ;
lev:units = "" ;
lev:positive = "up" ;
lev:standard_name = "atmosphere_ln_pressure_coordinate" ;
lev:formula_terms = "p0: p0 lev: lev" ;
lev:formula = "p(k) = p0 * exp(-lev(k))" ;
double ilev(ilev) ;
ilev:long_name = "interface levels" ;
ilev:short_name = "ln(p0/p)" ;
ilev:units = "" ;
ilev:positive = "up" ;
ilev:standard_name = "atmosphere_ln_pressure_coordinate" ;
ilev:formula_terms = "p0: p0 lev: ilev" ;
ilev:formula = "p(k) = p0 * exp(-ilev(k))" ;
double mlon(mlon) ;
mlon:long_name = "magnetic longitude (-west, +east)" ;
mlon:units = "degrees_east" ;
double mlat(mlat) ;
mlat:long_name = "magnetic latitude (-south, +north)" ;
mlat:units = "degrees_north" ;
double mlev(mlev) ;
mlev:long_name = "magnetic midpoint levels" ;
mlev:short_name = "ln(p0/p)" ;
mlev:units = "" ;
mlev:positive = "up" ;
mlev:standard_name = "atmosphere_ln_pressure_coordinate" ;
mlev:formula_terms = "p0: p0 lev: mlev" ;
mlev:formula = "p(k) = p0 * exp(-mlev(k))" ;
double imlev(imlev) ;
imlev:long_name = "magnetic interface levels" ;
imlev:short_name = "ln(p0/p)" ;
imlev:units = "" ;
imlev:positive = "up" ;
imlev:standard_name = "atmosphere_ln_pressure_coordinate" ;
imlev:formula_terms = "p0: p0 lev: imlev" ;
imlev:formula = "p(k) = p0 * exp(-imlev(k))" ;
int mtime(time, mtimedim) ;
mtime:long_name = "model times (day, hour, minute)" ;
mtime:units = "1" ;
mtime:info = "array format: day, hour, minute" ;
int year(time) ;
year:long_name = "calendar year" ;
year:units = "1" ;
int day(time) ;
day:long_name = "calendar day" ;
day:units = "1" ;
int calendar_advance(time) ;
calendar_advance:long_name = "calendar advance flag (1 if advancing calendar time)" ;
calendar_advance:units = "1" ;
char write_date(time, datelen) ;
write_date:long_name = "Date and time each history was written" ;
int iter(time) ;
iter:long_name = "number of time steps from model time 0,0,0" ;
iter:units = "1" ;
int ntask_mpi(time) ;
ntask_mpi:long_name = "Number of MPI tasks" ;
ntask_mpi:units = "1" ;
int coupled_cmit(time) ;
coupled_cmit:long_name = "1 if coupled with CISM/CMIT, 0 otherwise" ;
coupled_cmit:units = "1" ;
double ut(time) ;
ut:long_name = "universal time (from model time hour and minute)" ;
ut:units = "hours" ;
int timestep ;
timestep:long_name = "timestep" ;
timestep:units = "seconds" ;
double f107d(time) ;
f107d:long_name = "Daily 10.7 cm solar flux" ;
f107d:units = "1.e-22 W/m2/Hz" ;
double f107a(time) ;
f107a:long_name = "81-day average 10.7 cm solar flux" ;
f107a:units = "1.e-22 W/m2/Hz" ;
double hpower(time) ;
hpower:long_name = "Hemispheric power" ;
hpower:units = "GW" ;
double ctpoten(time) ;
ctpoten:long_name = "Cross-tail potential" ;
ctpoten:units = "kV" ;
double Kp(time) ;
Kp:long_name = "Kp index" ;
Kp:data_source = "gpi_ncfile" ;
Kp:units = "1" ;
double bximf(time) ;
bximf:long_name = "BX component of IMF" ;
bximf:units = "nT" ;
double byimf(time) ;
byimf:long_name = "BY component of IMF" ;
byimf:units = "nT" ;
double bzimf(time) ;
bzimf:long_name = "BZ component of IMF" ;
bzimf:units = "nT" ;
double swvel(time) ;
swvel:long_name = "Solar wind velocity" ;
swvel:units = "km/s" ;
double swden(time) ;
swden:long_name = "Solar wind density" ;
swden:units = "cm3" ;
double al(time) ;
al:long_name = "Lower magnetic auroral activity index" ;
al:units = "nT" ;
double colfac(time) ;
colfac:long_name = "ion/neutral collision factor" ;
colfac:units = "1" ;
double joulefac(time) ;
joulefac:long_name = "joule heating factor" ;
joulefac:units = "1" ;
double dtide(time, dtidedim) ;
dtide:long_name = "amplitude and phase of diurnal tide mode (1,1)" ;
dtide:units = "1" ;
double sdtide(time, sdtidedim) ;
sdtide:long_name = "amplitudes and phases of semi-diurnal tide" ;
sdtide:units = "1" ;
char ncep_ncfile(time, filelen) ;
ncep_ncfile:long_name = "ncep data file" ;
ncep_ncfile:data = "10 mb lower boundary for TN and Z" ;
char gpi_ncfile(time, filelen) ;
gpi_ncfile:long_name = "GeoPhysical Indices data file" ;
gpi_ncfile:data = "Kp, f107, f107a, ctpoten, power" ;
char saber_ncfile(time, filelen) ;
saber_ncfile:long_name = "SABER lbc data file" ;
saber_ncfile:data = "T,Z" ;
char tidi_ncfile(time, filelen) ;
tidi_ncfile:long_name = "TIDI lbc data file" ;
tidi_ncfile:data = "U,V" ;
char bgrddata_ncfile(time, filelen) ;
bgrddata_ncfile:long_name = "background lbc data file" ;
bgrddata_ncfile:data = "T,U,Z" ;
char ctmt_ncfile(time, filelen) ;
ctmt_ncfile:long_name = "CTMT lbc data file" ;
ctmt_ncfile:data = "U,V, T, Z" ;
char see_ncfile(time, filelen) ;
see_ncfile:long_name = "TIMED SEE data file" ;
see_ncfile:data = "Solar flux data" ;
char imf_ncfile(time, filelen) ;
imf_ncfile:long_name = "IMF data file" ;
imf_ncfile:data = "Bx,By,Bz,Swvel,Swden,Kp,f107,f107a" ;
char gswm_mi_di_ncfile(time, filelen) ;
gswm_mi_di_ncfile:long_name = "GSWM migrating diurnal tides data file" ;
gswm_mi_di_ncfile:data = "lower boundary perturbations for TN, UN, VN, and Z" ;
char gswm_mi_sdi_ncfile(time, filelen) ;
gswm_mi_sdi_ncfile:long_name = "GSWM migrating semi-diurnal tides data file" ;
gswm_mi_sdi_ncfile:data = "lower boundary perturbations for TN, UN, VN, and Z" ;
char gswm_nm_di_ncfile(time, filelen) ;
gswm_nm_di_ncfile:long_name = "GSWM non-migrating diurnal tides data file" ;
gswm_nm_di_ncfile:data = "lower boundary perturbations for TN, UN, VN, and Z" ;
char gswm_nm_sdi_ncfile(time, filelen) ;
gswm_nm_sdi_ncfile:long_name = "GSWM non-migrating semi-diurnal tides data file" ;
gswm_nm_sdi_ncfile:data = "lower boundary perturbations for TN, UN, VN, and Z" ;
double e1(time) ;
e1:long_name = "Peak energy flux in noon sector of the aurora" ;
e1:units = "ergs/cm2/s" ;
double e2(time) ;
e2:long_name = "Peak energy flux in midnight sector of the aurora" ;
e2:units = "ergs/cm2/s" ;
double h1(time) ;
h1:long_name = "Gaussian half-width of the noon auroral oval" ;
h1:units = "degrees" ;
double h2(time) ;
h2:long_name = "Gaussian half-width of the midnight auroral oval" ;
h2:units = "degrees" ;
double alfac(time) ;
alfac:long_name = "Characteristic Maxwellian energy of polar cusp electrons" ;
alfac:units = "keV" ;
double ec(time) ;
ec:long_name = "Column energy input of polar cusp electrons" ;
ec:units = "ergs/cm**2/s" ;
double alfad(time) ;
alfad:long_name = "Characteristic Maxwellian energy of drizzle electrons" ;
alfad:units = "keV" ;
double ed(time) ;
ed:long_name = "Column energy input of drizzle electrons" ;
ed:units = "ergs/cm**2/s" ;
double crit1(time) ;
crit1:long_name = "critical cross-over latitude 1" ;
crit1:units = "degree" ;
double crit2(time) ;
crit2:long_name = "critical cross-over latitude 2" ;
crit2:units = "degree" ;
double mag(latlon, latlon) ;
mag:long_name = "lat,lon coordinates of S,N magnetic poles" ;
mag:units = "degrees" ;
mag:info = "unused variable" ;
double p0 ;
p0:long_name = "Reference pressure" ;
p0:units = "millibars" ;
p0:standard_name = "reference_air_pressure_for_atmosphere_vertical_coordinate" ;
double p0_model ;
p0_model:long_name = "Reference pressure (as used by the model)" ;
p0_model:units = "microbars" ;
p0_model:standard_name = "reference_air_pressure_for_atmosphere_vertical_coordinate" ;
double grav ;
grav:long_name = "gravitational acceleration" ;
grav:units = "cm/s" ;
grav:info = "constant used in the model, independent of height" ;
float TN(time, lev, lat, lon) ;
TN:long_name = "NEUTRAL TEMPERATURE" ;
TN:units = "K" ;
TN:missing_value = 1.e+36f ;
TN:standard_name = "air_temperature" ;
float UN(time, lev, lat, lon) ;
UN:long_name = "NEUTRAL ZONAL WIND (+EAST)" ;
UN:units = "cm/s" ;
UN:missing_value = 1.e+36f ;
UN:standard_name = "eastward_wind" ;
float VN(time, lev, lat, lon) ;
VN:long_name = "NEUTRAL MERIDIONAL WIND (+NORTH)" ;
VN:units = "cm/s" ;
VN:missing_value = 1.e+36f ;
VN:standard_name = "northward_wind" ;
float WN(time, ilev, lat, lon) ;
WN:long_name = "WN: Neutral Vertical Wind (plus up)" ;
WN:units = "cm/s" ;
WN:missing_value = 1.e+36f ;
WN:standard_name = "upward_air_velocity" ;
float O2(time, lev, lat, lon) ;
O2:long_name = "MOLECULAR OXYGEN" ;
O2:units = "1" ;
O2:missing_value = 1.e+36f ;
O2:info = "units: mmr (mass mixing ratio)" ;
float O1(time, lev, lat, lon) ;
O1:long_name = "ATOMIC OXYGEN" ;
O1:units = "1" ;
O1:missing_value = 1.e+36f ;
O1:info = "units: mmr (mass mixing ratio)" ;
float N2(time, lev, lat, lon) ;
N2:long_name = "N2: Molecular Nitrogen" ;
N2:units = "1" ;
N2:missing_value = 1.e+36f ;
N2:info = "units: mmr (mass mixing ratio)" ;
float NO(time, lev, lat, lon) ;
NO:long_name = "NITRIC OXIDE" ;
NO:units = "1" ;
NO:missing_value = 1.e+36f ;
NO:info = "units: mmr (mass mixing ratio)" ;
float HE(time, lev, lat, lon) ;
HE:long_name = "HELIUM" ;
HE:units = "1" ;
HE:missing_value = 1.e+36f ;
HE:info = "units: mmr (mass mixing ratio)" ;
float DEN(time, ilev, lat, lon) ;
DEN:long_name = "Total Density" ;
DEN:units = "g/cm3" ;
DEN:missing_value = 1.e+36f ;
DEN:standard_name = "air_density" ;
float TEC(time, lat, lon) ;
TEC:long_name = "TEC: Total Electron Content" ;
TEC:units = "1/cm2" ;
TEC:missing_value = 1.e+36f ;
float NE(time, ilev, lat, lon) ;
NE:long_name = "ELECTRON DENSITY" ;
NE:units = "cm-3" ;
NE:missing_value = 1.e+36f ;
float TE(time, lev, lat, lon) ;
TE:long_name = "ELECTRON TEMPERATURE" ;
TE:units = "K" ;
TE:missing_value = 1.e+36f ;
float TI(time, lev, lat, lon) ;
TI:long_name = "ION TEMPERATURE" ;
TI:units = "K" ;
TI:missing_value = 1.e+36f ;
float OP(time, lev, lat, lon) ;
OP:long_name = "O+ ION" ;
OP:units = "cm-3" ;
OP:missing_value = 1.e+36f ;
float O2P(time, lev, lat, lon) ;
O2P:long_name = "O2+ ION" ;
O2P:units = "cm-3" ;
O2P:missing_value = 1.e+36f ;
float POTEN(time, ilev, lat, lon) ;
POTEN:long_name = "ELECTRIC POTENTIAL" ;
POTEN:units = "volts" ;
POTEN:missing_value = 1.e+36f ;
float QJOULE(time, lev, lat, lon) ;
QJOULE:long_name = "QJOULE: Joule Heating" ;
QJOULE:units = "erg/g/s" ;
QJOULE:missing_value = 1.e+36f ;
float BX(time, lat, lon) ;
BX:long_name = "BX/BMAG: Normalized eastward component of magnetic field" ;
BX:missing_value = 1.e+36f ;
BX:units = "1" ;
float BY(time, lat, lon) ;
BY:long_name = "BY/BMAG: Normalized northward component of magnetic field" ;
BY:missing_value = 1.e+36f ;
BY:units = "1" ;
float BZ(time, lat, lon) ;
BZ:long_name = "BZ/BMAG: Normalized upward component of magnetic field" ;
BZ:missing_value = 1.e+36f ;
BZ:units = "1" ;
float BMAG(time, lat, lon) ;
BMAG:long_name = "BMAG: Magnetic field magnitude" ;
BMAG:units = "Gauss" ;
BMAG:missing_value = 1.e+36f ;
float UI_ExB(time, ilev, lat, lon) ;
UI_ExB:long_name = "UI: Zonal ExB Velocity" ;
UI_ExB:units = "cm/s" ;
UI_ExB:missing_value = 1.e+36f ;
float VI_ExB(time, ilev, lat, lon) ;
VI_ExB:long_name = "VI: Meridional ExB Velocity" ;
VI_ExB:units = "cm/s" ;
VI_ExB:missing_value = 1.e+36f ;
float WI_ExB(time, ilev, lat, lon) ;
WI_ExB:long_name = "WI: Vertical ExB Velocity" ;
WI_ExB:units = "cm/s" ;
WI_ExB:missing_value = 1.e+36f ;
float EX(time, ilev, lat, lon) ;
EX:long_name = "EX: Zonal component of electric field" ;
EX:units = "V/m" ;
EX:missing_value = 1.e+36f ;
float EY(time, ilev, lat, lon) ;
EY:long_name = "EY: Meridional component of electric field" ;
EY:units = "V/m" ;
EY:missing_value = 1.e+36f ;
float EZ(time, ilev, lat, lon) ;
EZ:long_name = "EZ: Vertical component of electric field" ;
EZ:units = "V/m" ;
EZ:missing_value = 1.e+36f ;
float ED1(time, imlev, mlat, mlon) ;
ED1:long_name = "ED1: Magnetic eastward component of electric field" ;
ED1:units = "V/m" ;
ED1:missing_value = 1.e+36f ;
float ED2(time, imlev, mlat, mlon) ;
ED2:long_name = "ED2: Magnetic downward (equatorward) component of electric field" ;
ED2:units = "V/m" ;
ED2:missing_value = 1.e+36f ;
float Z(time, ilev, lat, lon) ;
Z:long_name = "GEOPOTENTIAL HEIGHT" ;
Z:units = "cm" ;
Z:missing_value = 1.e+36f ;
Z:standard_name = "geopotential_height" ;
float ZG(time, ilev, lat, lon) ;
ZG:long_name = "Geometric Height ZG" ;
ZG:units = "cm" ;
ZG:missing_value = 1.e+36f ;
ZG:info = "see subroutine calczg in addiag.F" ;
float SIGMA_PED(time, lev, lat, lon) ;
SIGMA_PED:long_name = "SIGMA_PED: Pedersen Conductivity" ;
SIGMA_PED:units = "S/m" ;
SIGMA_PED:missing_value = 1.e+36f ;
float SIGMA_HAL(time, lev, lat, lon) ;
SIGMA_HAL:long_name = "SIGMA_HAL: Hall Conductivity" ;
SIGMA_HAL:units = "S/m" ;
SIGMA_HAL:missing_value = 1.e+36f ;
float LAMDA_PED(time, lev, lat, lon) ;
LAMDA_PED:long_name = "LAMDA_PED: Pedersen Ion Drag Coefficient" ;
LAMDA_PED:units = "1/s" ;
LAMDA_PED:missing_value = 1.e+36f ;
float LAMDA_HAL(time, lev, lat, lon) ;
LAMDA_HAL:long_name = "LAMDA_HAL: Hall Ion Drag Coefficient" ;
LAMDA_HAL:units = "1/s" ;
LAMDA_HAL:missing_value = 1.e+36f ;
float EFLUX(time, lat, lon) ;
EFLUX:long_name = "Aurora Energy Flux" ;
EFLUX:units = "erg/cm2/s" ;
EFLUX:missing_value = 1.e+36f ;
float NFLUX(time, lat, lon) ;
NFLUX:long_name = "Aurora Number Flux" ;
NFLUX:units = "cm-2 s-1" ;
NFLUX:missing_value = 1.e+36f ;
NFLUX:info = "units: #/cm2/s" ;
float ZMAG(time, imlev, mlat, mlon) ;
ZMAG:long_name = "ZMAG from pdynamo" ;
ZMAG:units = "km" ;
ZMAG:missing_value = 1.e+36f ;
float TLBC(time, lat, lon) ;
TLBC:long_name = "Lower boundary condition of TN" ;
TLBC:units = "K" ;
TLBC:coordinates = "LBC" ;
float ULBC(time, lat, lon) ;
ULBC:long_name = "Lower boundary condition of UN" ;
ULBC:units = "cm/s" ;
ULBC:coordinates = "LBC" ;
float VLBC(time, lat, lon) ;
VLBC:long_name = "Lower boundary condition of VN" ;
VLBC:units = "cm/s" ;
VLBC:coordinates = "LBC" ;
float TLBC_NM(time, lat, lon) ;
TLBC_NM:long_name = "Lower boundary condition of TN (TIME N-1)" ;
TLBC_NM:units = "K" ;
TLBC_NM:coordinates = "LBC" ;
float ULBC_NM(time, lat, lon) ;
ULBC_NM:long_name = "Lower boundary condition of UN (TIME N-1)" ;
ULBC_NM:units = "cm/s" ;
ULBC_NM:coordinates = "LBC" ;
float VLBC_NM(time, lat, lon) ;
VLBC_NM:long_name = "Lower boundary condition of VN (TIME N-1)" ;
VLBC_NM:units = "cm/s" ;
VLBC_NM:coordinates = "LBC" ;
double LBC ;
LBC:long_name = "Interface level of t,u,v lower boundary condition" ;
LBC:units = "1" ;
// global attributes:
:Conventions = "CF-1.0" ;
:label = "DLR TIE-GCM Long Run. res=2.5" ;
:create_date = "05/05/23 18:01:35" ;
:logname = "Timothy_Kodikara" ;
:host = "DLR_kratos" ;
:system = "LINUX" ;
:model_name = "tiegcm" ;
:model_version = "tiegcm_trunk" ;
:svn_revision = "tiegcm2.0" ;
:output_file = "dlr_tiegcmlongrun_2006_sec_001.nc" ;
:history_type = "secondary" ;
:run_type = "continuation" ;
:source_file = "dlr_tiegcmlongrun_2006_prim_001.nc (continuation)" ;
:source_mtime = 1, 0, 0 ;
:initial_file = "" ;
:initial_mtime = 0, 0, 0 ;
:lev_to_hPa_method1 = "p0*exp(-lev(k))" ;
:lev_to_hPa_method2 = "p0_model*1.e-3*exp(-lev(k))" ;
:nhist = 144 ;
:delhist_mins = 10 ;
:potential_model = "HEELIS" ;
:tuv_lbc_intop = 0 ;
:contents = "06001 1 0 10 to 06002 2 0 0 by 10 tiegcm_trunk secondary" ;
:contents_desc = "yyddd day hour min to yyddd day hour min by delta_mins" ;
:institution = "Institute of Solar-Terrestrial Physics, German Aerospace Center (DLR)" ;
:creator = "Timothy Kodikara, ORCID: 0000-0003-4099-9966" ;
:title = "The open time-series of the high-resolution ionosphere-thermosphere aeronomic climate simulation (OTHITACS)" ;
}