netcdf ROBLE.glbmean_002 { dimensions: time = UNLIMITED ; // (4 currently) lev = 97 ; nbin_uars = 170 ; nsftrf = 158 ; nsfdim1 = 17 ; nsfdima = 9 ; nsfdimb = 5 ; natm = 71 ; nfatm = 8 ; variables: double time(time) ; time:long_name = "total days from year 0" ; time:short_name = "time" ; time:units = "decimal days" ; time:derivation = "(year-1)*365+day+ut/24" ; double year(time) ; year:long_name = "calendar year" ; year:short_name = "year" ; double day(time) ; day:long_name = "calendar day" ; day:short_name = "day" ; double dday(time) ; dday:long_name = "days from beginning of run" ; dday:short_name = "dday" ; dday:units = "decimal days" ; double ut(time) ; ut:long_name = "universal time" ; ut:short_name = "UT" ; ut:units = "hours" ; double lev(lev) ; lev:long_name = "log pressure levels" ; lev:short_name = "LEV" ; lev:units = "LN(P0/P)" ; double f107d(time) ; f107d:long_name = "Daily 10.7 cm solar flux" ; f107d:short_name = "F107D" ; f107d:units = "1.e-22 kg.s-4" ; double f107a(time) ; f107a:long_name = "81-day average 10.7 cm solar flux" ; f107a:short_name = "F107A" ; f107a:units = "1.e-22 kg.s-4" ; double wv_low(nbin_uars) ; double wv_high(nbin_uars) ; double sminflx(nbin_uars) ; double smedflx(nbin_uars) ; double smaxflx(nbin_uars) ; double vl1(nsftrf) ; double vl2(nsftrf) ; double sfx(nsftrf) ; double sgry(nsftrf) ; double sgo2hz(nsftrf) ; double sgo31(nsftrf) ; double sgo32(nsftrf) ; double aij(nsfdima, nsfdim1) ; double bij(nsfdimb, nsfdim1) ; double ad00(nsfdima) ; double ad10(nsfdima) ; double bd00(nsfdimb) ; double bd10(nsfdimb) ; double atm(nfatm, natm) ; double ZP(lev) ; ZP:long_name = "LOG PRESSURE" ; ZP:short_name = "ZP" ; ZP:units = "LN(P0/P)" ; ZP:logplt = 0 ; ZP:timedep = "time-independent" ; ZP:restart = "yes" ; double ZPHT(time, lev) ; ZPHT:long_name = "HEIGHT" ; ZPHT:short_name = "ZPHT" ; ZPHT:units = "CM" ; ZPHT:logplt = 0 ; ZPHT:timedep = "time-dependent" ; ZPHT:restart = "yes" ; double TN(time, lev) ; TN:long_name = "NEUTRAL TEMPERATURE" ; TN:short_name = "TN" ; TN:units = "DEG K" ; TN:logplt = 0 ; TN:timedep = "time-dependent" ; TN:restart = "yes" ; double XNO(time, lev) ; XNO:long_name = "ATOMIC OXYGEN" ; XNO:short_name = "O" ; XNO:units = "CM-3" ; XNO:logplt = 1 ; XNO:timedep = "time-dependent" ; XNO:restart = "yes" ; double XNO1D(time, lev) ; XNO1D:long_name = "O(1D)" ; XNO1D:short_name = "NO1D" ; XNO1D:units = "CM-3" ; XNO1D:logplt = 1 ; XNO1D:timedep = "time-dependent" ; XNO1D:restart = "yes" ; double XNN2(time, lev) ; XNN2:long_name = "MOLECULAR NITROGEN" ; XNN2:short_name = "N2" ; XNN2:units = "CM-3" ; XNN2:logplt = 1 ; XNN2:timedep = "time-dependent" ; XNN2:restart = "yes" ; double XNO2(time, lev) ; XNO2:long_name = "MOLECULAR OXYGEN" ; XNO2:short_name = "O2" ; XNO2:units = "CM-3" ; XNO2:logplt = 1 ; XNO2:timedep = "time-dependent" ; XNO2:restart = "yes" ; double TE(time, lev) ; TE:long_name = "ELECTRON TEMPERATURE" ; TE:short_name = "TE" ; TE:units = "DEG K" ; TE:logplt = 0 ; TE:timedep = "time-dependent" ; TE:restart = "yes" ; double TI(time, lev) ; TI:long_name = "ION TEMPERATURE" ; TI:short_name = "TI" ; TI:units = "DEG K" ; TI:logplt = 0 ; TI:timedep = "time-dependent" ; TI:restart = "yes" ; double XNE(time, lev) ; XNE:long_name = "ELECTRON DENSITY" ; XNE:short_name = "NE" ; XNE:units = "CM-3" ; XNE:logplt = 1 ; XNE:timedep = "time-dependent" ; XNE:restart = "yes" ; double XN2D(time, lev) ; XN2D:long_name = "N(2D)" ; XN2D:short_name = "N2D" ; XN2D:units = "CM-3" ; XN2D:logplt = 1 ; XN2D:timedep = "time-dependent" ; XN2D:restart = "yes" ; double XN4S(time, lev) ; XN4S:long_name = "N(4S)" ; XN4S:short_name = "N4S" ; XN4S:units = "CM-3" ; XN4S:logplt = 1 ; XN4S:timedep = "time-dependent" ; XN4S:restart = "yes" ; double XNNO(time, lev) ; XNNO:long_name = "NITRIC OXIDE" ; XNNO:short_name = "NO" ; XNNO:units = "CM-3" ; XNNO:logplt = 1 ; XNNO:timedep = "time-dependent" ; XNNO:restart = "yes" ; double XNNO2(time, lev) ; XNNO2:long_name = "NO2" ; XNNO2:short_name = "NO2" ; XNNO2:units = "CM-3" ; XNNO2:logplt = 1 ; XNNO2:timedep = "time-dependent" ; XNNO2:restart = "yes" ; double XNNOZ(time, lev) ; XNNOZ:long_name = "NOZ (NO+NO2)" ; XNNOZ:short_name = "NOZ" ; XNNOZ:units = "CM-3" ; XNNOZ:logplt = 1 ; XNNOZ:timedep = "time-dependent" ; XNNOZ:restart = "yes" ; double XNHE(time, lev) ; XNHE:long_name = "HELIUM" ; XNHE:short_name = "HE" ; XNHE:units = "CM-3" ; XNHE:logplt = 1 ; XNHE:timedep = "time-dependent" ; XNHE:restart = "yes" ; double XNARG(time, lev) ; XNARG:long_name = "ARGON" ; XNARG:short_name = "ARG" ; XNARG:units = "CM-3" ; XNARG:logplt = 1 ; XNARG:timedep = "time-dependent" ; XNARG:restart = "yes" ; double XNH2O(time, lev) ; XNH2O:long_name = "WATER VAPOR" ; XNH2O:short_name = "H2O" ; XNH2O:units = "CM-3" ; XNH2O:logplt = 1 ; XNH2O:timedep = "time-dependent" ; XNH2O:restart = "yes" ; double XNH2(time, lev) ; XNH2:long_name = "MOLECULAR HYDROGEN" ; XNH2:short_name = "H2" ; XNH2:units = "CM-3" ; XNH2:logplt = 1 ; XNH2:timedep = "time-dependent" ; XNH2:restart = "yes" ; double XNCH4(time, lev) ; XNCH4:long_name = "METHANE" ; XNCH4:short_name = "CH4" ; XNCH4:units = "CM-3" ; XNCH4:logplt = 1 ; XNCH4:timedep = "time-dependent" ; XNCH4:restart = "yes" ; double XNOH(time, lev) ; XNOH:long_name = "HYDROXYL" ; XNOH:short_name = "OH" ; XNOH:units = "CM-3" ; XNOH:logplt = 1 ; XNOH:timedep = "time-dependent" ; XNOH:restart = "yes" ; double XNHO2(time, lev) ; XNHO2:long_name = "HYDROGEN DIOXIDE" ; XNHO2:short_name = "HO2" ; XNHO2:units = "CM-3" ; XNHO2:logplt = 1 ; XNHO2:timedep = "time-dependent" ; XNHO2:restart = "yes" ; double XNH2O2(time, lev) ; XNH2O2:long_name = "HYDROGEN PEROXIDE" ; XNH2O2:short_name = "H2O2" ; XNH2O2:units = "CM-3" ; XNH2O2:logplt = 1 ; XNH2O2:timedep = "time-dependent" ; XNH2O2:restart = "yes" ; double XNH(time, lev) ; XNH:long_name = "HYDROGEN" ; XNH:short_name = "H" ; XNH:units = "CM-3" ; XNH:logplt = 1 ; XNH:timedep = "time-dependent" ; XNH:restart = "yes" ; double XNHTOT(time, lev) ; XNHTOT:long_name = "TOTAL HYDROGEN" ; XNHTOT:short_name = "HTOT" ; XNHTOT:units = "CM-3" ; XNHTOT:logplt = 1 ; XNHTOT:timedep = "time-dependent" ; XNHTOT:restart = "yes" ; double XNCO(time, lev) ; XNCO:long_name = "CARBON MONOXIDE" ; XNCO:short_name = "CO" ; XNCO:units = "CM-3" ; XNCO:logplt = 1 ; XNCO:timedep = "time-dependent" ; XNCO:restart = "yes" ; double XNCO2(time, lev) ; XNCO2:long_name = "CARBON DIOXIDE" ; XNCO2:short_name = "CO2" ; XNCO2:units = "CM-3" ; XNCO2:logplt = 1 ; XNCO2:timedep = "time-dependent" ; XNCO2:restart = "yes" ; double XNO3(time, lev) ; XNO3:long_name = "OZONE" ; XNO3:short_name = "O3" ; XNO3:units = "CM-3" ; XNO3:logplt = 1 ; XNO3:timedep = "time-dependent" ; XNO3:restart = "yes" ; double XNAS(time, lev) ; XNAS:long_name = "NEUTRAL SODIUM" ; XNAS:short_name = "XNAS" ; XNAS:units = "CM-3" ; XNAS:logplt = 1 ; XNAS:timedep = "time-dependent" ; XNAS:restart = "yes" ; double XNAT(time, lev) ; XNAT:long_name = "TOTAL SODIUM" ; XNAT:short_name = "XNAT" ; XNAT:units = "CM-3" ; XNAT:logplt = 1 ; XNAT:timedep = "time-dependent" ; XNAT:restart = "yes" ; double XNN2O(time, lev) ; XNN2O:long_name = "NITROUS OXIDE" ; XNN2O:short_name = "N2O" ; XNN2O:units = "CM-3" ; XNN2O:logplt = 1 ; XNN2O:timedep = "time-dependent" ; XNN2O:restart = "yes" ; double SHT(time, lev) ; SHT:long_name = "SCALE HEIGHT" ; SHT:short_name = "SHT" ; SHT:units = "CM" ; SHT:logplt = 0 ; SHT:timedep = "time-dependent" ; SHT:restart = "no" ; double AMAS(time, lev) ; AMAS:long_name = "AMAS" ; AMAS:short_name = "AMAS" ; AMAS:logplt = 0 ; AMAS:timedep = "time-dependent" ; AMAS:restart = "no" ; double RHO(time, lev) ; RHO:long_name = "TOTAL DENSITY" ; RHO:short_name = "RHO" ; RHO:units = "CM-3" ; RHO:logplt = 1 ; RHO:timedep = "time-dependent" ; RHO:restart = "no" ; double XNEEE(time, lev) ; XNEEE:long_name = "D-REGION ELECTRON DENSITY" ; XNEEE:short_name = "XNEEE" ; XNEEE:units = "CM-3" ; XNEEE:logplt = 1 ; XNEEE:timedep = "time-dependent" ; XNEEE:restart = "no" ; double XNPI(time, lev) ; XNPI:long_name = "POSITIVE ION DENSITY" ; XNPI:short_name = "XNPI" ; XNPI:units = "CM-3" ; XNPI:logplt = 1 ; XNPI:timedep = "time-dependent" ; XNPI:restart = "no" ; double XNNI(time, lev) ; XNNI:long_name = "NEGATIVE ION DENSITY" ; XNNI:short_name = "XNNI" ; XNNI:units = "CM-3" ; XNNI:logplt = 1 ; XNNI:timedep = "time-dependent" ; XNNI:restart = "no" ; double XIOP(time, lev) ; XIOP:long_name = "O+ ION" ; XIOP:short_name = "O+" ; XIOP:units = "CM-3" ; XIOP:logplt = 1 ; XIOP:timedep = "time-dependent" ; XIOP:restart = "no" ; double XINOP(time, lev) ; XINOP:long_name = "NO+ ION" ; XINOP:short_name = "NO+" ; XINOP:units = "CM-3" ; XINOP:logplt = 1 ; XINOP:timedep = "time-dependent" ; XINOP:restart = "no" ; double XINP(time, lev) ; XINP:long_name = "N+ ION" ; XINP:short_name = "N+" ; XINP:units = "CM-3" ; XINP:logplt = 1 ; XINP:timedep = "time-dependent" ; XINP:restart = "no" ; double XIN2P(time, lev) ; XIN2P:long_name = "N2+ ION" ; XIN2P:short_name = "N2+" ; XIN2P:units = "CM-3" ; XIN2P:logplt = 1 ; XIN2P:timedep = "time-dependent" ; XIN2P:restart = "no" ; double XIO2P(time, lev) ; XIO2P:long_name = "O2+ ION" ; XIO2P:short_name = "O2+" ; XIO2P:units = "CM-3" ; XIO2P:logplt = 1 ; XIO2P:timedep = "time-dependent" ; XIO2P:restart = "no" ; double QNTOT(time, lev) ; QNTOT:long_name = "TOTAL NEUTRAL HEATING" ; QNTOT:short_name = "QNTOT" ; QNTOT:units = "ERGS GM-1 S-1" ; QNTOT:logplt = 1 ; QNTOT:timedep = "time-dependent" ; QNTOT:restart = "no" ; double XIRCOOL(time, lev) ; XIRCOOL:long_name = "TOTAL INFRA-RED COOLING" ; XIRCOOL:short_name = "XIRCOOL" ; XIRCOOL:units = "ERGS GM-1 S-1" ; XIRCOOL:logplt = 1 ; XIRCOOL:timedep = "time-dependent" ; XIRCOOL:restart = "no" ; double DO2T(time, lev) ; DO2T:long_name = "TOTAL O2 DISSOCIATION" ; DO2T:short_name = "DO2T" ; DO2T:units = "S-1" ; DO2T:logplt = 1 ; DO2T:timedep = "time-dependent" ; DO2T:restart = "no" ; double DO3T(time, lev) ; DO3T:long_name = "TOTAL O3 DISSOCIATION" ; DO3T:short_name = "DO3T" ; DO3T:units = "S-1" ; DO3T:logplt = 1 ; DO3T:timedep = "time-dependent" ; DO3T:restart = "no" ; double SPED(time, lev) ; SPED:long_name = "PEDERSEN CONDUCTIVITY" ; SPED:short_name = "SPED" ; SPED:units = "MHO M-1" ; SPED:logplt = 1 ; SPED:timedep = "time-dependent" ; SPED:restart = "no" ; double SHAL(time, lev) ; SHAL:long_name = "HALL CONDUCTIVITY" ; SHAL:short_name = "SHAL" ; SHAL:units = "MHO M-1" ; SHAL:logplt = 1 ; SHAL:timedep = "time-dependent" ; SHAL:restart = "no" ; double PARCD(time, lev) ; PARCD:long_name = "PARALLEL CONDUCTIVITY" ; PARCD:short_name = "PARCD" ; PARCD:units = "MHO M-1" ; PARCD:logplt = 1 ; PARCD:timedep = "time-dependent" ; PARCD:restart = "no" ; double QTIN(time, lev) ; QTIN:long_name = "TOTAL IONIZATION RATE" ; QTIN:short_name = "QTIN" ; QTIN:units = "CM-3 S-1" ; QTIN:logplt = 1 ; QTIN:timedep = "time-dependent" ; QTIN:restart = "no" ; double EDY(time, lev) ; EDY:long_name = "EDDY DIFFUSION" ; EDY:short_name = "EDY" ; EDY:units = "S-1" ; EDY:logplt = 1 ; EDY:timedep = "time-dependent" ; EDY:restart = "no" ; double QNN(time, lev) ; QNN:long_name = "TOTAL NEUTRAL HEATING" ; QNN:short_name = "QNN" ; QNN:units = "ERGS GM-1 S-1" ; QNN:logplt = 1 ; QNN:timedep = "time-dependent" ; QNN:restart = "no" ; double QNC(time, lev) ; QNC:long_name = "NEUTRAL CHEMICAL HEATING" ; QNC:short_name = "QNC" ; QNC:units = "ERGS GM-1 S-1" ; QNC:logplt = 1 ; QNC:timedep = "time-dependent" ; QNC:restart = "no" ; double QSRC(time, lev) ; QSRC:long_name = "S-R CONTINUUM HEATING" ; QSRC:short_name = "QSRC" ; QSRC:units = "ERGS GM-1 S-1" ; QSRC:logplt = 1 ; QSRC:timedep = "time-dependent" ; QSRC:restart = "no" ; double QSRB(time, lev) ; QSRB:long_name = "S-R BAND HEATING" ; QSRB:short_name = "QSRB" ; QSRB:units = "ERGS GM-1 S-1" ; QSRB:logplt = 1 ; QSRB:timedep = "time-dependent" ; QSRB:restart = "no" ; double QN1D(time, lev) ; QN1D:long_name = "O(1D) QUENCHING HEATING" ; QN1D:short_name = "QN1D" ; QN1D:units = "ERGS GM-1 S-1" ; QN1D:logplt = 1 ; QN1D:timedep = "time-dependent" ; QN1D:restart = "no" ; double XLEN(time, lev) ; XLEN:long_name = "ELECTRON-NEUTRAL COLLISIONAL HEATING" ; XLEN:short_name = "XLEN" ; XLEN:units = "ERGS GM-1 S-1" ; XLEN:logplt = 1 ; XLEN:timedep = "time-dependent" ; XLEN:restart = "no" ; double QO3PR(time, lev) ; QO3PR:long_name = "O 3-BODY HEATING" ; QO3PR:short_name = "QO3PR" ; QO3PR:units = "ERGS GM-1 S-1" ; QO3PR:logplt = 1 ; QO3PR:timedep = "time-dependent" ; QO3PR:restart = "no" ; double QIAN(time, lev) ; QIAN:long_name = "AURORAL PARTICLE HEATING" ; QIAN:short_name = "QIAN" ; QIAN:units = "ERGS GM-1 S-1" ; QIAN:logplt = 0 ; QIAN:timedep = "time-dependent" ; QIAN:restart = "no" ; double QJOUL(time, lev) ; QJOUL:long_name = "JOULE HEATING" ; QJOUL:short_name = "QJOUL" ; QJOUL:units = "ERGS GM-1 S-1" ; QJOUL:logplt = 1 ; QJOUL:timedep = "time-dependent" ; QJOUL:restart = "no" ; double QNO3(time, lev) ; QNO3:long_name = "TOTAL OZONE HEATING" ; QNO3:short_name = "QNO3" ; QNO3:units = "ERGS GM-1 S-1" ; QNO3:logplt = 1 ; QNO3:timedep = "time-dependent" ; QNO3:restart = "no" ; double QNLYA(time, lev) ; QNLYA:long_name = "LYMAN-ALPHA HEATING" ; QNLYA:short_name = "QNLYA" ; QNLYA:units = "ERGS GM-1 S-1" ; QNLYA:logplt = 1 ; QNLYA:timedep = "time-dependent" ; QNLYA:restart = "no" ; double XNOC(time, lev) ; XNOC:long_name = "NO 5.3U COOLING" ; XNOC:short_name = "XNOC" ; XNOC:units = "ERGS GM-1 S-1" ; XNOC:logplt = 1 ; XNOC:timedep = "time-dependent" ; XNOC:restart = "no" ; double XCO2C(time, lev) ; XCO2C:long_name = "CO2 15U COOLING" ; XCO2C:short_name = "XCO2C" ; XCO2C:units = "ERGS GM-1 S-1" ; XCO2C:logplt = 1 ; XCO2C:timedep = "time-dependent" ; XCO2C:restart = "no" ; double XO3PC(time, lev) ; XO3PC:long_name = "O FINE STRUCTURE COOLING" ; XO3PC:short_name = "XO3PC" ; XO3PC:units = "ERGS GM-1 S-1" ; XO3PC:logplt = 1 ; XO3PC:timedep = "time-dependent" ; XO3PC:restart = "no" ; double HCM(time, lev) ; HCM:long_name = "MOLECULAR DIFFUSION COOLING" ; HCM:short_name = "HCM" ; HCM:units = "ERGS GM-1 S-1" ; HCM:logplt = 1 ; HCM:timedep = "time-dependent" ; HCM:restart = "no" ; double HCE(time, lev) ; HCE:long_name = "EDDY DIFFUSION COOLING" ; HCE:short_name = "HCE" ; HCE:units = "ERGS GM-1 S-1" ; HCE:logplt = 1 ; HCE:timedep = "time-dependent" ; HCE:restart = "no" ; double DICHM(time, lev) ; DICHM:long_name = "DISSOCIATION O2 ION CHEMISTRY" ; DICHM:short_name = "DICHM" ; DICHM:units = "S-1" ; DICHM:logplt = 1 ; DICHM:timedep = "time-dependent" ; DICHM:restart = "no" ; double DNCHM(time, lev) ; DNCHM:long_name = "DISSOCIATION O2 NEUTRAL CHEMISTRY" ; DNCHM:short_name = "DNCHM" ; DNCHM:units = "S-1" ; DNCHM:logplt = 1 ; DNCHM:timedep = "time-dependent" ; DNCHM:restart = "no" ; double DO2LYA(time, lev) ; DO2LYA:long_name = "DISSOCIATION O2 LYMAN-ALPHA" ; DO2LYA:short_name = "DO2LYA" ; DO2LYA:units = "S-1" ; DO2LYA:logplt = 1 ; DO2LYA:timedep = "time-dependent" ; DO2LYA:restart = "no" ; double DO2SRC(time, lev) ; DO2SRC:long_name = "DISSOCIATION O2 S-R CONTINUUM" ; DO2SRC:short_name = "DO2SRC" ; DO2SRC:units = "S-1" ; DO2SRC:logplt = 1 ; DO2SRC:timedep = "time-dependent" ; DO2SRC:restart = "no" ; double DO2SRB(time, lev) ; DO2SRB:long_name = "DISSOCIATION O2 S-R BANDS" ; DO2SRB:short_name = "DO2SRB" ; DO2SRB:units = "S-1" ; DO2SRB:logplt = 1 ; DO2SRB:timedep = "time-dependent" ; DO2SRB:restart = "no" ; double QNIGHT(time, lev) ; QNIGHT:long_name = "NIGHTIME HEATING" ; QNIGHT:short_name = "QNIGHT" ; QNIGHT:units = "ERGS GM-1 S-1" ; QNIGHT:logplt = 1 ; QNIGHT:timedep = "time-dependent" ; QNIGHT:restart = "no" ; double QOP(time, lev) ; QOP:long_name = "O+ IONIZATION RATE" ; QOP:short_name = "QOP" ; QOP:units = "CM-3 S-1" ; QOP:logplt = 1 ; QOP:timedep = "time-dependent" ; QOP:restart = "no" ; double QNOP(time, lev) ; QNOP:long_name = "NO+ IONIZATION RATE" ; QNOP:short_name = "QNOP" ; QNOP:units = "CM-3 S-1" ; QNOP:logplt = 1 ; QNOP:timedep = "time-dependent" ; QNOP:restart = "no" ; double QO2P(time, lev) ; QO2P:long_name = "O2+ IONIZATION RATE" ; QO2P:short_name = "QO2P" ; QO2P:units = "CM-3 S-1" ; QO2P:logplt = 1 ; QO2P:timedep = "time-dependent" ; QO2P:restart = "no" ; double QN2P(time, lev) ; QN2P:long_name = "N2+ IONIZATION RATE" ; QN2P:short_name = "QN2P" ; QN2P:units = "CM-3 S-1" ; QN2P:logplt = 1 ; QN2P:timedep = "time-dependent" ; QN2P:restart = "no" ; double QNP(time, lev) ; QNP:long_name = "N+ IONIZATION RATE" ; QNP:short_name = "QNP" ; QNP:units = "CM-3 S-1" ; QNP:logplt = 1 ; QNP:timedep = "time-dependent" ; QNP:restart = "no" ; double QNSPE(time, lev) ; QNSPE:long_name = "SECONDARY PHOTOELECTRON HEATING" ; QNSPE:short_name = "QNSPE" ; QNSPE:units = "CM-3 S-1" ; QNSPE:logplt = 1 ; QNSPE:timedep = "time-dependent" ; QNSPE:restart = "no" ; double GWHEAT(time, lev) ; GWHEAT:long_name = "GRAVITY WAVE HEATING" ; GWHEAT:short_name = "GWHEAT" ; GWHEAT:units = "ERGS GM-1 S-1" ; GWHEAT:logplt = 1 ; GWHEAT:timedep = "time-dependent" ; GWHEAT:restart = "no" ; double QPRO(time, lev) ; QPRO:long_name = "SOLAR PROTON HEATING" ; QPRO:short_name = "QPRO" ; QPRO:units = "CM-3 S-1" ; QPRO:logplt = 1 ; QPRO:timedep = "time-dependent" ; QPRO:restart = "no" ; double QPROH(time, lev) ; QPROH:long_name = "QPROH" ; QPROH:short_name = "QPROH" ; QPROH:units = "CM-3 S-1" ; QPROH:logplt = 1 ; QPROH:timedep = "time-dependent" ; QPROH:restart = "no" ; double QCR(time, lev) ; QCR:long_name = "COSMIC RAY ION PRODUCTION" ; QCR:short_name = "QCR" ; QCR:units = "CM-3 S-1" ; QCR:logplt = 1 ; QCR:timedep = "time-dependent" ; QCR:restart = "no" ; double QIXRAY(time, lev) ; QIXRAY:long_name = "X-RAY ION PRODUCTION" ; QIXRAY:short_name = "QIXRAY" ; QIXRAY:units = "CM-3 S-1" ; QIXRAY:logplt = 1 ; QIXRAY:timedep = "time-dependent" ; QIXRAY:restart = "no" ; double XNCH4L(time, lev) ; XNCH4L:long_name = "CH4L" ; XNCH4L:short_name = "CH4L" ; XNCH4L:logplt = 1 ; XNCH4L:timedep = "time-dependent" ; XNCH4L:restart = "no" ; double XNNOY(time, lev) ; XNNOY:long_name = "NOY" ; XNNOY:short_name = "NOY" ; XNNOY:units = "CM-3" ; XNNOY:logplt = 1 ; XNNOY:timedep = "time-dependent" ; XNNOY:restart = "no" ; double XNHNO3(time, lev) ; XNHNO3:long_name = "HNO3" ; XNHNO3:short_name = "HNO3" ; XNHNO3:units = "CM-3" ; XNHNO3:logplt = 1 ; XNHNO3:timedep = "time-dependent" ; XNHNO3:restart = "no" ; double XNN2O5(time, lev) ; XNN2O5:long_name = "N2O5" ; XNN2O5:short_name = "N2O5" ; XNN2O5:units = "CM-3" ; XNN2O5:logplt = 1 ; XNN2O5:timedep = "time-dependent" ; XNN2O5:restart = "no" ; double XNH2O2L(time, lev) ; XNH2O2L:long_name = "H2O2L" ; XNH2O2L:short_name = "H2O2L" ; XNH2O2L:logplt = 1 ; XNH2O2L:timedep = "time-dependent" ; XNH2O2L:restart = "no" ; double XNNO3(time, lev) ; XNNO3:long_name = "NO3" ; XNNO3:short_name = "NO3" ; XNNO3:units = "CM-3" ; XNNO3:logplt = 1 ; XNNO3:timedep = "time-dependent" ; XNNO3:restart = "no" ; double XN4SL(time, lev) ; XN4SL:long_name = "N4SL" ; XN4SL:short_name = "N4SL" ; XN4SL:logplt = 1 ; XN4SL:timedep = "time-dependent" ; XN4SL:restart = "no" ; double XNO21D(time, lev) ; XNO21D:long_name = "O2(1D)" ; XNO21D:short_name = "O21D" ; XNO21D:units = "CM-3" ; XNO21D:logplt = 1 ; XNO21D:timedep = "time-dependent" ; XNO21D:restart = "no" ; double XNO21S(time, lev) ; XNO21S:long_name = "O2(1S)" ; XNO21S:short_name = "O21S" ; XNO21S:units = "CM-3" ; XNO21S:logplt = 1 ; XNO21S:timedep = "time-dependent" ; XNO21S:restart = "no" ; double ZPMS(lev) ; ZPMS:long_name = "MSIS LOG PRESSURE" ; ZPMS:short_name = "ZPMS" ; ZPMS:units = "LN(P0/P)" ; ZPMS:logplt = 0 ; ZPMS:timedep = "time-independent" ; ZPMS:restart = "no" ; double ZPMHT(lev) ; ZPMHT:long_name = "MSIS HEIGHT" ; ZPMHT:short_name = "ZPMHT" ; ZPMHT:units = "CM" ; ZPMHT:logplt = 0 ; ZPMHT:timedep = "time-independent" ; ZPMHT:restart = "no" ; double SHTMS(lev) ; SHTMS:long_name = "MSIS SCALE HEIGHT" ; SHTMS:short_name = "SHTMS" ; SHTMS:units = "CM" ; SHTMS:logplt = 0 ; SHTMS:timedep = "time-independent" ; SHTMS:restart = "no" ; double AMASS(lev) ; AMASS:long_name = "AMASS" ; AMASS:short_name = "AMASS" ; AMASS:logplt = 1 ; AMASS:timedep = "time-independent" ; AMASS:restart = "no" ; double TNMS(lev) ; TNMS:long_name = "MSIS NEUTRAL TEMPERATURE" ; TNMS:short_name = "TNMS" ; TNMS:units = "DEG K" ; TNMS:logplt = 0 ; TNMS:timedep = "time-independent" ; TNMS:restart = "no" ; double XOM(lev) ; XOM:long_name = "MSIS O" ; XOM:short_name = "XOM" ; XOM:units = "CM-3" ; XOM:logplt = 1 ; XOM:timedep = "time-independent" ; XOM:restart = "no" ; double XN2M(lev) ; XN2M:long_name = "MSIS N2" ; XN2M:short_name = "XN2M" ; XN2M:units = "CM-3" ; XN2M:logplt = 1 ; XN2M:timedep = "time-independent" ; XN2M:restart = "no" ; double XO2M(lev) ; XO2M:long_name = "MSIS O2" ; XO2M:short_name = "XO2M" ; XO2M:units = "CM-3" ; XO2M:logplt = 1 ; XO2M:timedep = "time-independent" ; XO2M:restart = "no" ; double XN4SM(lev) ; XN4SM:long_name = "MSIS N4S" ; XN4SM:short_name = "XN4SM" ; XN4SM:units = "CM-3" ; XN4SM:logplt = 1 ; XN4SM:timedep = "time-independent" ; XN4SM:restart = "no" ; double XNHEM(lev) ; XNHEM:long_name = "MSIS HE" ; XNHEM:short_name = "XNHEM" ; XNHEM:units = "CM-3" ; XNHEM:logplt = 1 ; XNHEM:timedep = "time-independent" ; XNHEM:restart = "no" ; double XNARGM(lev) ; XNARGM:long_name = "MSIS ARGON" ; XNARGM:short_name = "XNARGM" ; XNARGM:units = "CM-3" ; XNARGM:logplt = 1 ; XNARGM:timedep = "time-independent" ; XNARGM:restart = "no" ; double XNHM(lev) ; XNHM:long_name = "MSIS H" ; XNHM:short_name = "XNHM" ; XNHM:units = "CM-3" ; XNHM:logplt = 1 ; XNHM:timedep = "time-independent" ; XNHM:restart = "no" ; double RHOMS(lev) ; RHOMS:long_name = "MSIS TOTAL DENSITY" ; RHOMS:short_name = "RHOMS" ; RHOMS:units = "CM-3" ; RHOMS:logplt = 1 ; RHOMS:timedep = "time-independent" ; RHOMS:restart = "no" ; double E5577(lev) ; E5577:long_name = "Greenline Emission" ; E5577:short_name = "E5577" ; E5577:units = "PHOTONS CM-3 S-1" ; E5577:logplt = 1 ; E5577:timedep = "time-independent" ; E5577:restart = "no" ; double EO200(lev) ; EO200:long_name = "O2 Atmospheric Band Emission" ; EO200:short_name = "EO200" ; EO200:units = "PHOTONS CM-3 S-1" ; EO200:logplt = 1 ; EO200:timedep = "time-independent" ; EO200:restart = "no" ; double E6300(lev) ; E6300:long_name = "Redline Emission" ; E6300:short_name = "E6300" ; E6300:units = "PHOTONS CM-3 S-1" ; E6300:logplt = 1 ; E6300:timedep = "time-independent" ; E6300:restart = "no" ; double ECO215(lev) ; ECO215:long_name = "15 micron CO2" ; ECO215:short_name = "ECO215" ; ECO215:units = "PHOTONS CM-3 S-1" ; ECO215:logplt = 1 ; ECO215:timedep = "time-independent" ; ECO215:restart = "no" ; double ENO53(lev) ; ENO53:long_name = "5.3 micron NO Emission" ; ENO53:short_name = "ENO53" ; ENO53:units = "PHOTONS CM-3 S-1" ; ENO53:logplt = 1 ; ENO53:timedep = "time-independent" ; ENO53:restart = "no" ; double SR63(lev) ; SR63:long_name = "Shumann-Runge 63" ; SR63:short_name = "SR63" ; SR63:units = "PHOTONS CM-3 S-1" ; SR63:logplt = 1 ; SR63:timedep = "time-independent" ; SR63:restart = "no" ; double HOX(time, lev) ; HOX:long_name = "HOX (H+OH+HO2)" ; HOX:short_name = "HOX" ; HOX:units = "CM-3" ; HOX:logplt = 1 ; HOX:timedep = "time-dependent" ; HOX:restart = "no" ; double OX(time, lev) ; OX:long_name = "OX (O+O3)" ; OX:short_name = "OX" ; OX:units = "CM-3" ; OX:logplt = 1 ; OX:timedep = "time-dependent" ; OX:restart = "no" ; // global attributes: :model_version = "glbmean1.2" ; :file_creation_time = "06/17/08 14:09:59" ; :logname = "roble" ; :system = "LINUX" ; data: year = 2000, 2000, 2000, 2001 ; day = 92, 183, 274, 1 ; }