&tgcm_input
;
; Namelist read input file for model tiegcm1.92_r325
; /hao/polar1/emery/aurora_d/tie_v1.93/tiegcm1.92_r325/scripts/Mknamelist Thu May  6 16:08:30 MDT 2010
;
 LABEL = 'tiegcm res=5'
; JRO drifts 105-109 (Ap=6,7,62,63,62)
 START_YEAR = 2002   ; starting year
 START_DAY  = 95    ; starting day of year (1->365)
 CALENDAR_ADVANCE = 1       ; if > 0, calendar time will be advanced
 STEP= 120
;
; SOURCE: source history file
; SOURCE_START:  source history model time to read
;
;SOURCE='/hao/aim1/tgcm/tiegcm_imf/apr2002/gpi/FOSTER.tiegcm_imf.pgpi_apr02_001.nc'
; imf mtime 2002 from 91-120 daynumbers
 SOURCE='/hao/aim1/tgcm/tiegcm_imf/apr2002/imf/FOSTER.tiegcm_imf.pimf_apr02_001.nc'
; This name EMERY.... failed since it chopped off .p2002101wd.nc
;SOURCE='/hao/polar1/emery/aurora_d/tie_v1.93/tiegcm1.92_r325-linux/EMERY.tiegcm1.92_r325.p2002101wd.nc'
; This source p2002101wd.nc is gone in 3/11
;SOURCE='/hao/polar1/emery/aurora_d/tie_v1.93/tiegcm1.92_r325-linux/p2002101wd.nc'
; start 6 days earlier for some spin-up (day 99 instead of day 105)
 SOURCE_START = 95,0,0
;
 START= 95,0,0
 STOP=  109,0,0
;HIST=   0,1,0
;SAVE=   0,6,0
;OUTPUT='/EMERY/tiegcm1.92_r325/p2002101wd.nc'
;OUTPUT='p2002105wda.nc','p2002105wdb.nc','p2002106wda.nc','p2002106wdb.nc',
;       'p2002107wda.nc','p2002107wdb.nc','p2002108wda.nc','p2002108wdb.nc',
;       'p2002109wda.nc','p2002109wdb.nc','p2002110wda.nc'
;OUTPUT='p2002105_110wc.nc'
;OUTPUT='p200295_110_wd_5_15.nc'
 OUTPUT='p2002_095_109_wd_5_10.nc'
;OUTPUT='p_apr02_con_15_30.nc'
 MXHIST_PRIM = 20
 HIST=   1,0,0
 SAVE=   1,0,0
;OUTPUT='phd2002105.nc','to','phd2002110.nc','by','1'
;MXHIST_PRIM = 1
;MXHIST_PRIM = 10 ; default maximum histories per primary file
; Multiple start/stops of histories meant saved daily on first sechist, then
;  save every 20 min starting at 0020 on day 105 with second history
;SECSTART = 95,0,0,  105,0,0
;SECSTOP =  105,0,0, 109,0,0
;SECHIST =  1,0,0,  0,0,20
;SECSAVE =  1,0,0,  1,0,0
;  Can start secondary histories later than primaries - ie, save after spin-up
 SECSTART = 105,0,0
 SECSAVE =  1,0,0
 SECSTOP =  109,0,0
 SECHIST =  0,0,20
 SECSAVE =  1,0,0
;SECOUT='/EMERY/tiegcm1.92_r325/s2002101wd.nc'
;SECOUT='s2002101wd.nc'
;SECOUT='s2002105wca.nc','s2002105wcb.nc','s2002106wca.nc','s2002106wcb.nc',
;        's2002107wca.nc','s2002107wcb.nc','s2002108wca.nc','s2002108wcb.nc',
;        's2002109wca.nc','s2002109wcb.nc','s2002110wca.nc'
;SECOUT='s2002105wda.nc','s2002105wdb.nc','s2002106wda.nc','s2002106wdb.nc',
;       's2002107wda.nc','s2002107wdb.nc','s2002108wda.nc','s2002108wdb.nc',
;       's2002109wda.nc','s2002109wdb.nc','s2002110wda.nc'
;SECOUT='shd2002105.nc','to','shd2002110.nc','by','1'
; Each s history has 2 days so day 105 0000 UT starts _004 file - false! is at end of _004 file!
 MXHIST_SECH = 75
 SECOUT   = 's_apr02_crb_5_10_001.nc','to',
           's_apr02_crb_5_10_004.nc','by','1'
;SECOUT   = 's_apr02_con_15_30_001.nc','to',
;          's_apr02_c0n_15_30_004.nc','by','1'
;MXHIST_SECH = 120
 SECFLDS = 'WI_VEL','TEC','NE'
;SECFLDS = 'TN','UN','VN','O1','NO','N4S','NE','TE','TI','TEC',
;          'O2','O2P','OMEGA','POTEN','UI_VEL','VI_VEL','WI_VEL',
;          'ALFA','NFLUX','EFLUX','QSUM'
;MXHIST_SECH = 48
;MXHIST_SECH = 36
;MXHIST_SECH = 24 ; default maximum histories per secondary file
;SECFLDS = 'TN','UN','VN','O1','NO','N4S','NE','TE','TI','QJI_TN','QJI_TI',
;          'O2','O2P','OMEGA','POTEN','UI_VEL','VI_VEL','WI_VEL','ALFA','NFLUX','EFLUX'
;
 DISPOSE = 0 ; no dispose to mss
;DISPOSE = 1 ; dispose to mss during model execution
;DISPOSE = 2 ; dispose to mss after model execution
;
; Set TIDEs = 0. if using GSWM below.
 TIDE    = 0.,0.,0.,0.,0.,0.,0.,0.,0.,0.
 TIDE2   = 0.,0.
;
; By default, use gswm migrating diurnal and semi-diurnal tides:
 GSWM_MI_DI_NCFILE  = '$TGCMDATA/gswm_diurn_5.0d_99km.nc'
 GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_99km.nc'
;
; SABER (T,Z) and/or TIDI (U,V) data files for lbc perturbations:
;SABER_NCFILE = '/2002_saber_5.0deg.nc'
;TIDI_NCFILE  = '/2002_tidi_5.0deg.nc'
;
;POTENTIAL_MODEL = 'HEELIS'
 GPI_NCFILE = '$TGCMDATA/gpi_2000001-2009031.nc'
;
; Uncomment GPI_NCFILE to calculate POWER and CTPOTEN from
; Kp data, and to use data for f10.7 flux. GPI_NCFILE can be 
; used only when potential_model='HEELIS'. If GPI_NCFILE is 
; specified, one or more of POWER,CTPOTEN,F107,F107A must be 
; commented out (data will be used for those that are commented 
; out, otherwise the user-provided values will be used).
;
; If KP is specified, and POWER and/or CTPOTEN are commented,
; then the given KP will be used to calculate POWER and/or CTPOTEN
;
;KP = 4.0
;POWER= 16.
;CTPOTEN=45.
;F107 = 150.
;F107A =150.
;
 POTENTIAL_MODEL = 'WEIMER05'
 IMF_NCFILE = '$TGCMDATA/imf_OMNI_2002001-2002365.nc'
;IMF_NCFILE = '$TGCMDATA/imf_2000001-2006365.nc'
;
; Uncomment IMF_NCFILE to read IMF parameters from the data.
; IMF_NCFILE can be used only when potential_model='WEIMER05'.
; If IMF_NCFILE is specified, one or more of BXIMF,BYIMF,BZIMF,
; SWVEL,SWDEN,F107,F107A must be commented out (data will be
; used). If IMF_NCFILE is specified and POWER is not provided,
; it will be calculated from BZ,SWVEL. Also, if IMF_NCFILE is
; used, the user cannot provide CTPOTEN (it will be calculated
; from the Weimer potential).
;
;BXIMF = 0.
;BYIMF = 0.
;BZIMF = -5.
;SWVEL = 400.
;SWDEN = 4.  ; try this if problems with missing IMF SWDEN data
;
; SEE data file:
;SEE_NCFILE  = '$TGCMDATA/see__L3_merged_2005007_007.nc'
;
;DIFHOR=1
 AURORA=1
 COLFAC=1.5
/