TIGCM runs on the YMP beginning July 1990. _____________________________________________________________________ 1.Equinox solar minimum,day==76080, F107=67., F107A=72. P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/EQSN05,06 from 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 2.Equinox solar minimum,day==76080, F107=67., F107A=72. P=11GW, PHI=60KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/EQSN13,14 from 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 3.Equinox solar minimum,day==76080, F107=67., F107A=72. P=33GW, PHI=90KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/EQSN23,24 from 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 4.Solstice solar minimum,day=76355, F107=67., F107A=72., P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 5.Solstice solar minimum,day=76355, F107=67., F107A=72., P=11, PHI=60KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECN13,14 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6.Solstice solar minimum,day=76355, F107=67., F107A=72., P=33, PHI=90KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECN23,24 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 7.March 21,1979 solar maximum, day=79080, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MARX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 8.March 21,1979 solar maximum, day=79080, F107=243.,F107A=215.,P=11GW, PHI=60KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MARX13,14 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 9.March 21,1979 solar maximum, day=79080, F107=243.,F107A=215.,P=33GW, PHI=90KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MARX23,24 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 10.December 21,1979 solar maximum, day=79355, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/DECX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 11.December 21,1979 solar maximum, day=79355, F107=243.,F107A=215.,P=11GW, PHI=60KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/DECX13,14 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 12.December 21,1979 solar maximum, day=79355, F107=243.,F107A=215.,P=33GW, PHI=90KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/DECX23,24 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) MONTHLY VARIATIONS SOLAR MINIMUM ___________________________________________________________________ 1.January 21,1976 solar minimum, day=76021, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/JANN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 2.February 21,1976 solar minimum, day=76052, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/FEBN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 3.March 21, 1976 solar minimum,day==76080, F107=67., F107A=72. P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/EQSN05,06 from 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 4.Aril 21,1976 solar minimum, day=76111, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/APRN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 5.May 21,1976 solar minimum, day=76141, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/MAYN03,04 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6.June 21,1976 solar minimum, day=76141, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNN03,04 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6A.June 21,1976 solar minimum, day=76141, F107=67., F107A=72, P=11GW, PHI=60KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNN13,14 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6B.June 21,1976 solar minimum, day=76141, F107=67., F107A=72, P=33GW, PHI=90KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNN23,24 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 7.July 21,1976 solar minimum, day=76202, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JULN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 8.August 21,1976 solar minimum, day=76233, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/AUGN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 9.September,1976 solar minimum, day=76264, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/SEPN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 10.October 21,1976 solar minimum, day=76294, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/OCTN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 11.November 21,1976 solar minimum, day=76325, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/NOVN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 12.December 21,1976 solar minimum, day=76355, F107=67., F107A=72, P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECN03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) MONTHLY VARIATIONS SOLAR MEDIUM ___________________________________________________________________ 12.December 21,1978 solar medium , day=78355, F107=150.,F107A=150 P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECM01,02,03 FROM 0,0,0 to 2,0,0 (24 hour hist.) 2,0,0 to 3,0,0 (1 hour hist.) 3.March 21,1978 solar medium, day=78080, F107=150.,F107A=150.,P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MARM01,02,03 FROM 0,0,0 to 2,0,0 (24 hour hist.) 2,0,0 to 3,0,0 (1 hour hist.) 6.June 21,1978 solar medium, day=78080, F107=176.,F107A=160.,P=5GW, PHI=30KV (F107 and F107A are different than 150) DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNM01,02,03 FROM 0,0,0 to 2,0,0 (24 hour hist.) 2,0,0 to 3,0,0 (1 hour hist.) 12.December 21,1978 solar medium , day=78355, F107=150.,F107A=150 P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/DECM01,02,03 FROM 0,0,0 to 2,0,0 (24 hour hist.) 2,0,0 to 3,0,0 (1 hour hist.) TIGCM RUNS FOR GONZOLO SOLAR MIN-MAX FRITZ PEAK STUDY _________________________________________________________________ 1.Solar minimum, November 1984, day=84328, F107=80., F107A=73.,AP=15. P=35., PHI=60., KP=3 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/GZMN03,04 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 ( 1 hour hist.) HISTORY=ROBLE/RGR90/GZMN05,06 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) HISTORY=ROBLE/RGR91/GZMN01,02 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) INCREASE HEATING SLIGHTLY HISTORY=ROBLE/RGR91/GZMN03,04 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) 2.Solar maximum November 1979, day=79317, F107=235., F107A=212.,AP=10. P=20., PHI=40., KP=2 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/GZMX03,04 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 ( 1 hour hist.) HISTORY=ROBLE/RGR91/GZMX01,02 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) 3.Solar maximum November 1979, day=79314, F107=367., F107A=212.,AP=9. (super) P=20., PHI=40., KP=2 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/GZSX03,04 FROM 2,0,0 TO 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 ( 1 hour hist.) A three day run ,NOVEMBER 9-12,1979 WAS MADE TO SIMULATE THE REAL SOLAR FLUX VARIATION FOR THE PERIOD. HISTORY=ROBLE/RGR90/GZSX05 FROM 9,0,0 TO 11,0,0 (6 hour hist.) HISTORY=ROBLE/RGR90/GZSX06,07 FROM 11,0,0 TO 12,0,0(1 hour hist.) The day numbers indicate the day of the month. **************************NEW************************** 3a.Solar maximum November 1979, day=79314, F107=367., F107A=212.,AP=9. (super) P=20., PHI=40., KP=2 HISTORY=ROBLE/RGR91/GZSX01,02 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) A three day run ,NOVEMBER 9-12,1979 WAS MADE TO SIMULATE THE REAL SOLAR FLUX VARIATION FOR THE PERIOD. HISTORY=ROBLE/RGR91/GZSX03,04,05,06,07,08 From 9,0,0 to 12,0,0 (1 hr hist.) The day numbers indicate the day of the month. MONTHLY VARIATIONS SOLAR MAXIMUM ____________________________________________________________________ 1.January 21,1979 solar maximum, day=79021, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/JANX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 2.February 21,1979 solar maximum, day=79052, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/FEBX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 3.March 21,1979 solar maximum, day=79080, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/MARX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 4.April 21,1979 solar maximum, day=79111, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/APRX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 5.May 21,1979 solar maximum, day=79141, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/MAYX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6.June 21,1979 solar maximum, day=79182, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6A.June 21,1979 solar maximum, day=79182, F107=243.,F107A=215.,P=11GW, PHI=60KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNX13,14 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 6B.June 21,1979 solar maximum, day=79182, F107=243.,F107A=215.,P=33GW, PHI=90KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUNX23,24 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 7.July 21,1979 solar maximum, day=79202, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JULX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 8.August 21,1979 solar maximum, day=79233, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/AUGX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 10.October 21,1979 solar maximum, day=79294, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/OCTX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 11.November 21,1979 solar maximum, day=79325, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/NOVX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) 12.December 21,1979 solar maximum, day=79355, F107=243.,F107A=215.,P=5GW, PHI=30KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/DECX03,04 FROM 2,0,0 to 3,0,0 (24 hour hist.) 3,0,0 to 4,0,0 (1 hour hist.) TIGCM FORBES-FESEN TIDAL RUNS FOR ZONAL MEAN ANALYSIS __________________________________________________________________ 1 MARCH 21,1976 solar minimum, day=76080, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing) - no 2-2 or 1-1 tides DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/ETID01 FROM 0,0,0 to 5,0,0 (24 hour hist.) 2 MARCH 21,1976 solar minimum, day=76080, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing + 2-2tides) no 1-1 tides DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/ETID11 FROM 0,0,0 to 5,0,0 (24 hour hist.) 3 MARCH 21,1976 solar minimum, day=76080, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing + 2-2tides + 1-1 tides) DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/ETID21 FROM 0,0,0 to 5,0,0 (24 hour hist.) CHANGE PHASE OF DIURNAL FROM 0 TO 6 HRS HISTORY=ROBLE/RGR90/ETID22 FROM 0,0,0 TO 5,0,0 (24 HOUR HIST.) CHANGE PHASE OF DIURNAL FROM 0 TO 12 HRS HISTORY=ROBLE/RGR90/ETID24 FROM 0,0,0 TO 5,0,0 (24 HOUR HIST.) 4 DECEMBER 21,1976 solar minimum, day=76355, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing) - no 2-2 or 1-1 tides DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/STID01 FROM 0,0,0 to 5,0,0 (24 hour hist.) HISTORY=ROBLE/RGR90/STID02 FROM 0,0,0 to 5,0,0 (24 hour hist.) 5 DECEMBER 21,1976 solar minimum, day=76355, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing + 2-2tides) no 1-1 tides DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/STID11 FROM 0,0,0 to 5,0,0 (24 hour hist.) 6 DECEMBER 21,1976 solar minimum, day=76355, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing + 2-2tides + 1-1 tides) DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/STID21 FROM 0,0,0 to 5,0,0 (24 hour hist.) HISTORY=ROBLE/RGR90/STID22 FROM 0,0,0 to 5,0,0 (24 hour hist.) 7 MARCH 21,1976 solar minimum, day=76080, F107=67.,F107A=72.,P=5GW, PHI=30KV (solar radiative forcing + 2-2tides) no 1-1 tides HERE THE LTCS-1 TIDES DERIVED BY FORBES FROM DATA ARE USED AS INPUT INSTEAD OF THE STANDARD FORBES-VIAL TIDES DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/ELTCS1 FROM 0,0,0 to 5,0,0 (24 hour hist.) SAME AS LTCS AS ABOVE BUT WITH THE ADDITION OF A 1-1 TIDE TIDE2=4.E+4,6.0 HISTORY=ROBLE/RGR90/ELTCS2 FROM 0,0,0 to 5,0,0 (24 hour hist.) 8. LTCS1 TIME-DEPENDENT RUN FROM SEPT.21-26,1987 A. RUN TO STEADY STATE BEFORE TIME-DEPENDENT RUN DATA=ROBLE/RGR87/IONSTS START=ROBLE/RGR90/SEPN04,4,0,0 HISTORY=ROBLE/RGR90/LTCS00 FROM 0,0,0 TO 2,0,0 (6HR HISTORIES) B. TIME-DEPENDENT RUN START DAY=21......26. START=ROBLE/RGR90/LTCS00,2,0,0 HISTORY=ROBLE/RGR90/LTCS01,02 FROM 21,0,0 TO 22,0,0 (1HR HIST.) HISTORY=ROBLE/RGR90/LTCS03,04 FROM 22,0,0 TO 23,0,0 (1HR HIST.) HISTORY=ROBLE/RGR90/LTCS05,06 FROM 23,0,0 TO 24,0,0 (1HR HIST.) HISTORY=ROBLE/RGR90/LTCS07,08 FROM 24,0,0 TO 25,0,0 (1HR HIST.) HISTORY=ROBLE/RGR90/LTCS09,10 FROM 25,0,0 TO 26,0,0 (1HR HIST.) SOLAR MINIMUM TO SOLAR MAXIMUM STEP FUNCTION RESPONSE 1. March 21,1976 to March 21,1979, day 76080, F107=67.-243., P=5GW F107A=72.-215., PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MNMX01,02 FROM 0,0,0 TO 1,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MNMX03,04 FROM 1,0,0 TO 2,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MNMX05,06 FROM 2,0,0 TO 3,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MNMX07 FROM 3,0,0 TO 5,0,0 (6hr hsit.) 2. December 21,1976 to December 21,1979, day 76355, F107=67.-243., P=5GW F107A=72.-215., PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/SNSX01,02 FROM 0,0,0 TO 1,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SNSX03,04 FROM 1,0,0 TO 2,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SNSX05,06 FROM 2,0,0 TO 3,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SNSX07 FROM 3,0,0 TO 5,0,0 (6hr hsit.) SOLAR MAXIMUM TO SOLAR MINIMU STEP FUNCTION RESPONSE 1. March 21,1979 to March 21,1976, day 76080, F107=243.-67., P=5GW F107A=215.-72., PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/MXMN01,02 FROM 0,0,0 TO 1,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MXMN03,04 FROM 1,0,0 TO 2,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MXMN05,06 FROM 2,0,0 TO 3,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/MXMN07 FROM 3,0,0 TO 5,0,0 (6hr hsit.) 2. December 21,1979 to December 21,1976, day 76355, F107=243.-67., P=5GW F107A=215.-72., PHI=30KV DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/SXSN01,02 FROM 0,0,0 TO 1,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SXSN03,04 FROM 1,0,0 TO 2,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SXSN05,06 FROM 2,0,0 TO 3,0,0 (1hr hist.) HISTORY=ROBLE/RGR90/SXSN07 FROM 3,0,0 TO 5,0,0 (6hr hsit.) EQUINOX GRAVITY WAVE STUDY (SEPTEMBER,17-18,1974). 1.BASE DIURNAL REPRODUCIBLE START CASE DAY=74260 ,F107=100., F107A=100., P=5GW, PHI=30KV DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/GWBS01 FROM O,O,O TO 2,12,0 (6HR HIST.) 2. GRAVITY WAVE CASE HISTORY=ROBLE/RGR90/GWTI01,.....09 FROM 2,12,0 TO 4,0,0 (20MIN HISTORY) 3.NO GRAVITY WAVE CASE FOR COMPARISON HISTORY=ROBLE/RGR90/GWTB01,.....09 FROM 2,12,0 TO 4,0,0 (20 MIN HISTORY) JULY 1982 DYNAMICS EXPLORER AND SME AND AIR FORCE SATELLITE STORM ANALYSIS _________________________________________________________________ 1. Base steady state run before the storm, July 10,1982 day=82191 F107=176.,F107A=160. ,P=5 GW, PHI=30 KV DATA=ROBLE/RGR89/DVSSOL HISTORY=ROBLE/RGR90/JUST01,02 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 to 2,0,0 ( 1 hour hist.) HISTORY=ROBLE/RGR90/JSTM01.......JSTM FORM 10,0,0 TO 19,0,0 WITH 1-HR TIME HISTORIES. HAGEN/ROBLE OCTOBER TIGCM/MILLSTONE IONOSPHERE AGU STUDY 1. Base steady state run before study period, October,1,1989 day=89 ,F107=198. ,F107A=214 ,P=15 GW, PHI=50KV, DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/OCTB01,02 FROM 0,0,0 TO 1,0,0 (24 hour hist.) 1,0,0 TO 2,0,0 ( 1 hour hist.) 2. Day 1 -Oct.1-Oct.2,1989 DATA=(SAME) as above except that topside fluxes have been modified HISTORY=ROBLE/RGR90/OCTM01,02 FROM 1,0,0 TO 2,0,0 ( 1 hour hist.) OCTM03,04 FROM 2,0,0 TO 3,0,0 ( 1 hour hist.) (INCREASE O+ AND TOPHE AS DETERMINED BY MAURA) DATA(SAME) HISTORY=ROBLE/RGR90/OCTM05,06 FROM 1,0,0 TO 2,0,0 ( 1 hour hist.) OCTM07,08 FROM 2,0,0 TO 3,0,0 ( 1 hour hist.) TIGCM NO STUDY FOR S.F. AGU ________________________________________________________________________ 1. BASE DECEMBER SOLSTICE CASE DAY=78355, F107=150.,F107A=150.,P=5GW, PHI=30.KV DATA=ROBLE/RGR90/DVWSOL HISTORY=ROBLE/RGR90/DNOS01 FROM DAY=0,0,0 TO 5,0,0 (24hr hist.) A. BASE CASE FOR SENSITIVITY EXPERIMENTS HISTORY=ROBLE/RGR90/DNOS03,04 FROM 0,0,0 TO 1,0,0 (24 hr hist.) 1,0,0 to 2,0,0 (1 hr hist.) B. CHANGE BRN2D=0.6 HISTORY=ROBLE/RGR90/DNOS05,06 FROM 0,0,0 TO 1,0,0 (24 hr hist.) 1,0,0 TO 2,0,0 (1 hr hist.) C. INCREASE P=33.GW PHI=90KV HISTORY=ROBLE/RGR90/DNOS07,08 FROM 0,0,0 TO 1,0,0 (24 hr hist.) 1,0,0 TO 2,0,0 (1 hr hist.) D. INCREASE KEDDY *3. UNIFORM HISTORY=ROBLE/RGR90/DNOS09,10 FROM 0,0,0 TO 1,0,0 (24 hr hist.) 1,0,0 TO 2,0,0 (1 hr hist.) E. BASE CASE BUT INCLUDE 1-1 DIURNAL TIDE HISTORY=ROBLE/RGR90/DNOS11,12 FROM 0,0,0 TO 1,0,0 (24 hr hist.) 1,0,0 TO 2,0,0 (1 hr hist.) ________________________________________________________________________ CO2 DOUBLING STUDY ________________________________________________________________________ 1. BASE CASE DECEMBER 1976 SOLAR MINIMUM START=ROBLE/RGR90/DECN04,4,0,0 F107=67., F107A=72., P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2B01 FROM 0,0,0 TO 5,0,0 (24 HR HIST) HISTORY=ROBLE/RGR90/CO2B02 FROM 5,0,0 TO 10,0,0 (24 HR HIST) 2. CO2 DOUBLE TO=161., CO2MIX=660.E-6 HISTORY=ROBLE/RGR90/CO2S01 FROM 0,0,0 TO 5,0,0 (24 HR HIST) HISTORY=ROBLE/RGR90/CO2S02 FROM 5,0,0 TO 10,0,0 (24 HR HIST) 2a BASE CASE DECEMBER 1976 SOLAR MINIMUM AURORA RESPONSE STUDY START=ROBLE/RGR90/CO2B02,10,0,0 F107=67. ,F107A=72., P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. P=33GW,PHI=90KV SUDDEN CHANGE 0,0,0 TO 3,0,0 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2AN1,2 FROM 0,0,0 TO 1,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2AN3,4 FROM 1,0,0 TO 2,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2AN5,6 FROM 2,0,0 TO 3,0,0 (1 HR HIST) 4B CO2 DBL DECEMBER 1976 SOLAR MINIMUM AURORA RESPONSE STUDY START=ROBLE/RGR90/CO2S02,10,0,0 F107=67., F107A=72., P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. P=33GW,PHI=90KV SUDDEN CHANGE 0,0,0 TO 3,0,0 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2CN1,2 FROM 0,0,0 TO 1,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2CN3,4 FROM 1,0,0 TO 2,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2CN5,6 FROM 2,0,0 TO 3,0,0 (1 HR HIST) 3. BASE CASE DECEMBER 1979 SOLAR MAXIMUM START=ROBLE/RGR90/CO2DX1,5,0,0 F107=243.,F107A=215. P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2BX1 FROM 0,0,0 TO 5,0,0 (24 HR HIST) 4. CO2 DOUBLE TO=161., CO2MIX=660.E-6 HISTORY=ROBLE/RGR90/CO2DX4 FROM 0,0,0 TO 5,0,0 (24 HR HIST) 4a BASE CASE DECEMBER 1979 SOLAR MAXIMUM AURORA RESPONSE STUDY START=ROBLE/RGR90/CO2BX1,5,0,0 F107=243.,F107A=215.,P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. P=33GW,PHI=90KV SUDDEN CHANGE 0,0,0 TO 3,0,0 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2AX1,2 FROM 0,0,0 TO 1,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2AX3,4 FROM 1,0,0 TO 2,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2AX5,6 FROM 2,0,0 TO 3,0,0 (1 HR HIST) 4B CO2 DBL DECEMBER 1979 SOLAR MAXIMUM AURORA RESPONSE STUDY START=ROBLE/RGR90/CO2DX4,5,0,0 F107=243.,F107A=215.,P=5GW, PHI=30KV, DEC 2-2 TIDES AND 1-1 LTCS1 TIDES. P=33GW,PHI=90KV SUDDEN CHANGE 0,0,0 TO 3,0,0 DATA=ROBLE/RGR88/DVWSOL HISTORY=ROBLE/RGR90/CO2CX1,2 FROM 0,0,0 TO 1,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2CX3,4 FROM 1,0,0 TO 2,0,0 (1 HR HIST) HISTORY=ROBLE/RGR90/CO2CX5,6 FROM 2,0,0 TO 3,0,0 (1 HR HIST) _______________________________________________________________________ APRIL 11-16, 1981 RED AURORA GEOMAGNETIC STORM _______________________________________________________________________ 1. BASE CASE DIURNAL RUN PRIOR TO STORM DATA=ROBLE/RGR87/IONSTS START=ROBLE/RGR90/APRX04,4,0,0 HISTORY=ROBLE/RGR90/APRB01 FROM 0,0,0 TO 2,0,0 (6HR HIST.) 2.HISTORY=ROBLE/RGR90/APRS01,02 FROM 11,0,0 TO 12,0,0 (1 HR HIST.) 3.HISTORY=ROBLE/RGR90/APRS03,04 FROM 12,0,0 TO 13,0,0 (1 HR HIST.) _______________________________________________________________________ MAY 29-JUNE 7,1987 SUNDIAL RUN _______________________________________________________________________ 1. BASE CASE DIURNAL RUN PRIOR TO STORM DATA=ROBLE/RGR88/DVSSOL START=ROBLE/RGR90/MAYN04,4,0,0 HISTORY=ROBLE/RGR90/SUNDB1,SUNDB2 FROM 0,0,0 TO 1,0,0 24HR HIST. FROM 1,0,0 TO 2,0,0 1 HR HIST. M.HAGAN STUDY OF THE TEPERATURE REVERSAL DURING JAN. SOLSTICE CONDITIONS 1. BASE CASE DIURNAL VARIATIONS WITH STANDARD INPUTS STANDARD FORBES-VIAL 2-2 TIDES DATA=ROBLE/RGR88/DVWSOL START=ROBLE/RGR90/JANN04,4,0,0 HISTORY=ROBLE/RGR90/JN8601,02 FROM 0,0,0 TO 1,0,0 24 HR HIST. FROM 1,0,0 TO 2,0,0 1 HR HIST. 2. BASE CASE +1-1 DIRURNAL TIDE WITH STANDARD INPUTS DATA=ROBLE/RGR88/DVWSOL START=ROBLE/RGR90/JN8602,2,0,0 HISTORY=ROBLE/RGR90/JN8611,12 FROM 0,0,0 TO 1,0,0 24 HR HIST. FROM 1,0,0 TO 2,0,0 1 HR HIST. 3. BASE CASE +WITH NO TIDES 1-1 AND 2-2 SET TO ZEROS DATA=ROBLE/RGR88/DVWSOL START=ROBLE/RGR90/JN8602,2,0,0 HISTORY=ROBLE/RGR90/JN8621,22 FROM 0,0,0 TO 1,0,0 24 HR HIST. FROM 1,0,0 TO 2,0,0 1 HR HIST. MAURA HAGAN JAN. SOLAR MINIMUM STUDY OF THERMOSPHERIC STRUCTURE _____________________________________________________________________ 1. BASE CASE F107=75., F107A=70., POWER=5GW, PHI=30KV, DAY=86015 JAN. 2-2 TIDES, 1-1 TIDES=0. STANDARD RUN DATA=ROBLE/RGR88/DVWSOL SOURCE=ROBLE/RGR91 HAGN12,2,0,0 HISTORY=ROBLE/RGR91/HAGN01,02 FROM 0,0,0 TO 1,0,0 (24HR) FROM 1,0,0 TO 2,0,0 (HOURLY) 2. BASE CASE+1-1 TIDES F107=75., F107A=70., POWER=5GW, PHI=30KV, DAY=86015 JAN. 2-2 TIDES, 1-1 TIDES=4.E+4,4.O DIURNAL TIDES DATA=ROBLE/RGR88/DVWSOL SOURCE=ROBLE/RGR91 HAGN02,2,0,0 HISTORY=ROBLE/RGR91/HAGN11,12 FROM 0,0,0 TO 1,0,0 (24HR) FROM 1,0,0 TO 2,0,0 (HOURLY) 3. BASE CASE+1-1 TIDES + INCREASED AURORAL INPUTS F107=75., F107A=70., POWER=11 GW, PHI=60KV, DAY=86015 JAN. 2-2 TIDES, 1-1 TIDES=4.E+4,4.O DIURNAL TIDES DATA=ROBLE/RGR88/DVWSOL SOURCE=ROBLE/RGR91 HAGN02,2,0,0 HISTORY=ROBLE/RGR91/HAGN21,22 FROM 0,0,0 TO 1,0,0 (24HR) FROM 1,0,0 TO 2,0,0 (HOURLY) 4. BASE CASE+1-1 TIDES BUT USE HAGAN CLIMATOLOGICAL JAN. MEAN TIDES F107=75., F107A=70., POWER=5 GW, PHI=30KV, DAY=86015 JAN. 2-2 TIDES, 1-1 TIDES=4.E+4,4.O DIURNAL TIDES DATA=ROBLE/RGR88/DVWSOL SOURCE=ROBLE/RGR91 HAGN02,2,0,0 HISTORY=ROBLE/RGR91/HAGN31,32 FROM 0,0,0 TO 1,0,0 (24HR) FROM 1,0,0 TO 2,0,0 (HOURLY) 5. BASE CASE+1-1 TIDES BUT USE HAGAN QBO SHIFTED JAN.86 MEAN TIDES F107=75., F107A=70., POWER=5 GW, PHI=30KV, DAY=86015 JAN. 2-2 TIDES, 1-1 TIDES=4.E+4,4.O DIURNAL TIDES DATA=ROBLE/RGR88/DVWSOL SOURCE=ROBLE/RGR91 HAGN02,2,0,0 HISTORY=ROBLE/RGR91/HAGN33,34 FROM 0,0,0 TO 1,0,0 (24HR) FROM 1,0,0 TO 2,0,0 (HOURLY) __________________________________________________________ NICOLET AURORA STUDY, AURORA EFFECTS AT HIGH LATITUDE __________________________________________________________ 1. BASE CASE , EQUINOX (SOLAR ONLY) F107=150.,F107A=150.,POWER=0GW, PHI=0KV, DAY=91080 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/MARM03,3,0,0 HISTORY=ROBLE/RGR91/NICL00 FROM 0,0,0 TO 5,0,0 (24HR) 2. EQUINOX WITH AURORA SMALL F107=150.,F107A=150.,POWER=5GW, PHI=30KV, DAY=91080 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/MARM03,3,0,0 HISTORY=ROBLE/RGR91/NICL01 FROM 0,0,0 TO 5,0,0 (24HR) 3. EQUINOX WITH AURORA MEDIUM/LARGE F107=150.,F107A=150.,POWER=16GW, PHI=70KV, DAY=91080 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/MARM03,3,0,0 HISTORY=ROBLE/RGR91/NICL02 FROM 0,0,0 TO 5,0,0 (24HR) 4. BASE CASE , SOLSTICE (SOLAR ONLY) F107=150.,F107A=150.,POWER=0GW, PHI=0KV, DAY=91355 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/DECM03,3,0,0 HISTORY=ROBLE/RGR91/NICL03 FROM 0,0,0 TO 5,0,0 (24HR) 5. SOLSTICE WITH AURORA SMALL F107=150.,F107A=150.,POWER=5GW, PHI=30KV, DAY=91355 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/DECM03,3,0,0 HISTORY=ROBLE/RGR91/NICL04 FROM 0,0,0 TO 5,0,0 (24HR) 6. SOLSTICE WITH AURORA MEDIUM/LARGE F107=150.,F107A=150.,POWER=16GW, PHI=70KV, DAY=91355 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/DECM03,3,0,0 HISTORY=ROBLE/RGR91/NICL05 FROM 0,0,0 TO 5,0,0 (24HR) 7. SOLSTICE WITH AURORA LARGE F107=150.,F107A=150.,POWER=115 GW, PHI=130 KV, DAY=91355 DATA=ROBLE/RGR87/IONSTS SOURCE=ROBLE/RGR90/DECM03,3,0,0 HISTORY=ROBLE/RGR91/NICL06 FROM 0,0,0 TO 5,0,0 (24HR) TOWNSVILLE STUDY OF LAYER DESCENT ______________________________________ 1. September,21,1989 F107=180., F107A=200., POWER=5.GW, PHI=30KV, DAY=89284 WITH 2-2 TIDE ONLY DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/TOWN01,02 FROM 0,0,0 TO 1,0,0 ( 24 HOURS) FROM 1,0,0 TO 2,0,0 ( 1 HOUR ) HISTORY=ROBLE/RGR90/TOWN03,04 FROM 0,0,0 TO 1,0,0 ( 24 HOURS) FROM 1,0,0 TO 2,0,0 ( 1 HOUR ) 2. September,21,1989 F107=180., F107A=200., POWER=5.GW, PHI=30KV, DAY=89284 WITH 2-2 TIDE ONLY AND 1-1 TIDE 2.E+4,4.0 DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/TOWN11,12 FROM 0,0,0 TO 1,0,0 ( 24 HOURS) FROM 1,0,0 TO 2,0,0 ( 1 HOUR ) 3. September,21,1989 F107=180., F107A=200., POWER=5.GW, PHI=30KV, DAY=89284 WITH 2-2 TIDE ONLY AND 1-1 TIDE 2.E+4,20.0 DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR90/TOWN21,22 FROM 0,0,0 TO 1,0,0 ( 24 HOURS) FROM 1,0,0 TO 2,0,0 ( 1 HOUR ) ***************************************************************** TIGCM TEST MOVING UPPER BOUNDARY TO Z= +7 1. March 21,1976 F107=75., F107A=70., POWER=5.GW, PHI=30KV, DAY=76080 DATA=FOSTER/DATAVOL/EQMNZ7 HISTORY=ROBLE/RGR91/EQNZ73,74,75 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) 2. March 21,1978 F107=160., F107A=160., POWER=5.GW, PHI=30KV, DAY=78080 DATA=FOSTER/DATAVOL/EQMNZ7 HISTORY=ROBLE/RGR91/EQMZ71,72,73 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) 3. March 21,1979 F107=243., F107A=215., POWER=5.GW, PHI=30KV, DAY=79080 DATA=FOSTER/DATAVOL/EQMNZ7 HISTORY=ROBLE/RGR91/EQXZ71,72,73 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) ************************ TIEGCM.P7 COMPARISONS WITH THE ABOVE TIGCM RUN AT Z= +7 1. March 21,1976 F107=75., F107A=70., POWER=5.GW, PHI=30KV, DAY=76080 DATA=NO DATA HISTORY=ROBLE/RGR91/EQNZE3,74,75 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) 2. March 21,1978 F107=160., F107A=160., POWER=5.GW, PHI=30KV, DAY=78080 DATA=NO DATA HISTORY=ROBLE/RGR91/EQMZE3,74,75 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) 3. March 21,1979 F107=243., F107A=215., POWER=5.GW, PHI=30KV, DAY=79080 DATA=NO DATA HISTORY=ROBLE/RGR91/EQXZE3,74,75 FROM 0,0,0 TO 2,0,0 ( 24 HOURS) FROM 2,0,0 TO 3,0,0 ( 1 HOUR ) _________________________________________________________________ AIR FORCE GEOMAGNETIC STORM MARCH 21 - APRIL 10, 1979 _________________________________________________________________ 1. BASE CASE diurnal reproducible case for March 19,1979 DATA=ROBLE/RGR87/IONSTS HISTORY=ROBLE/RGR91/AFSY0C,0D FROM 1,0,0 TO 2,0,0 ( 1 HOUR) 2. STORM RUN FOR THE PERIOD MODEL DAYS 1,2,3,......... 1979 DAYS 79,80,81,...... MARCH DAYS 19,20,21,...... DATA=ROBLE/RGR87/IONSTS HISTORIES=ROBLE/RGR91/AFSY01,02,03,04,....18,19 DAYS ARE CONSECUTIVE STARTING FROM DAY 1 TO DAY 11. HISTORIES ARE CONTINUOUS AND NOT 2 VOLUMES=1 DAY AS IN PREVIOUS RUNS FINAL VOLUME IS ROBLE/RGR91/AFSY19,11,0,0 THESE ARE THE FILES FOR THE NEW 3-D ION DRIFT DYNAMO MODEL THAT WAS DEVELOPED ON MARCH 1, 1991. 1. Equinox solar minimum, solar only with 2-2 tides. (This is a comparison file from dynamo1 fields, 1-level of potential for comparisons with the new 25-level potential model) F107=67., F107A=72., POWER=0., PHI=0., DAY=76080. HISTORY=ECRIDLEY/ECR91/EQDY05,06 FROM 1,0,0 TO 2,0,0 (HOURLY) 2. Equinox solar minimum, solar only with 2-2 tides. F107=67., F107A=72., POWER=0., PHI=0., DAY=76080. HISTORY=ECRIDLEY/ECR91/EQDY01,02 FROM 1,0,0 TO 2,0,0 (HOURLY) =ECRIDLEY/ECR91/EQDY07,08 FROM 2,0,0 TO 3,0,0 (24-HR) FROM 3,0,0 TO 4,0,0 (HOURLY) 3. Equinox solar minimum, solar only with 2-2 tides. (This run is a test with ui=vi=0. for comparison) F107=67., F107A=72., POWER=0., PHI=0., DAY=76080. HISTORY=ECRIDLEY/ECR91/EQDY03,04 FROM 1,0,0 TO 2,0,0 (HOURLY) =ECRIDLEY/ECR91/EQDY09,10 FROM 2,0,0 TO 3,0,0 (24-HR) FROM 3,0,0 TO 4,0,0 (HOURLY) 4. Solstice solar minimum, solar only with 2-2 tides. F107=67., F107A=72., POWER=0., PHI=0., DAY=76355. HISTORY=ROBLE/RGR91/SLDY01,02 FROM 1,0,0 TO 2,0,0 (HOURLY) 5. Equinox solar maximum, solar only with 2-2 tides. F107=243., F107A=215., POWER=0., PHI=0., DAY=79080. HISTORY=ROBLE/RGR91/EXDY01,02 FROM 1,0,0 TO 2,0,0 (HOURLY) TIEGCM RUNS STARTING MARCH 23,1991, WITH NEW MODEL INCLUDING HIGH LATITUDE COUPLINGS ____________________________________________________________________________ 0. Equinox solar minimum, solar only with 2-2 tides F107=67., F107A=72., POWER=0., PHI=0., DAY=76080. HISTORY=ROBLE/RGR91/DYESO1,02 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 1. Equinox solar minimum, solar with 2-2 tides and auroral forcings F107=67., F107A=72., POWER=5., PHI=30., DAY=76080. HISTORY=ROBLE/RGR91/DYEN01,02 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 2. Equinox solar minimum, solar with 2-2 tides and auroral forcings F107=67., F107A=72., POWER=11., PHI=60., DAY=76080. HISTORY=ROBLE/RGR91/DYEN11,12 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 3. Equinox solar minimum, solar with 2-2 tides and auroral forcings F107=67., F107A=72., POWER=33., PHI=90., DAY=76080. HISTORY=ROBLE/RGR91/DYEN21,22 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 4. Equinox solar medium , solar with 2-2 tides and auroral forcings F107=150.,F107A=150.,POWER=11., PHI=60., DAY=78080. HISTORY=ROBLE/RGR91/DYEM01,02 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 5. Solstice solar minimum, solar with 2-2 tides and auroral forcings F107=67., F107A=72., POWER=5., PHI=30., DAY=76355. HISTORY=ROBLE/RGR91/DYSN01,02 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 6. Solstice solar minimum, solar with 2-2 tides and auroral forcings F107=67., F107A=72., POWER=11., PHI=60., DAY=76355. HISTORY=ROBLE/RGR91/DYSN11,12 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY) 7. Equinox solar maximum, solar with 2-2 tides and auroral forcings F107=243.,F107A=215.,POWER=11., PHI=60., DAY=79080. HISTORY=ROBLE/RGR91/DYEX01,02 FROM 0,0,0 TO 1,0,0 (24-HOURLY) FROM 1,0,0 TO 2,0,0 (1-HOURLY)