Detailed_results_20141101_051205_ncmes1_sims12_LIHUE080.txt Sun Nov 2 23:09:07 UTC 2014 >> file 2014-11-01_1_CMEs_Control_File_Saved_2014-11-02T1553Z.txt exists and has 21 lines, 21 datalines >> There are 13 data_rows and 1 cmes/m_groups >> Summary: 13 xgroups: 12 simulations and 1 median simulation were submitted >> You have 1 loop(s) of 12, 0 simulations were leftover >> 12 of 12 simulations, and 1 median simulation were performed >> Using CR2156, Lon 056, and Startdate 2014-11-02 >> iswatag is 20141101_051205_ncmes1_sims12_LIHUE080 (2. 1st CME ID + seconds offset) >> CME Spacecraft Start Image Date Start Image Type End Image Date End Image Type >> 2014-11-01T05:12:00-CME-001 (1) SOHO 2014-11-01T06:06:00Z C3 2014-11-01T07:06:00Z C3 >> SWRC CME ensemble is obtained by building sets of initial CME parameters and by carrying out separate simulations for each set. This approach will allow mapping of uncertainties in the initial CME parameters into statistical characterization of the CME impact at locations of interest. Description of links: The first two links show the WSA-ENLIL+Cone model animation for the median ensemble member, the third link is a histogram of predicted arrival times, and the remaining links show the WSA-ENLIL+Cone model density, velocity, magnetic field, and temperature. =================================Earth=================================== Earth (summary, more details follow below): Number_of_hits_Earth= 2 Number_of_miss_Earth=10 Percentage_hits_Earth= 16.67% Earliest 2014-11-02T23:00 Average 2014-11-02T23:04 Latest 2014-11-02T23:09 Kp_90_min,Kp_90_avg,Kp_90_max = 4 4 4 Kp_135_min,Kp_135_avg,Kp_135_max= 6 6 6 Kp_180_min,Kp_180_avg,Kp_180_max= 6 6 7 Kp_all_min,Kp_all_avg,Kp_all_max= 4 5 7 Kp_all_weighted min, avg, max = 4 4 7 Sigma Kp_90,Kp_135,Kp_180,Kp_all= 0.00 0.00 0.71 1.22 ====kp90,135,180 probability of occurrence histogram (%) 0 0 0 100 0 0 0 0 0 0 0 0 0 0 100 0 0 0 0 0 0 0 0 50 50 0 0 ====kpall 0 0 0 33 0 50 17 0 0 ====kpall weighted 0 0 0 25 0 63 13 0 0 Kp bins 1 2 3 4 5 6 7 8 9 ========================================================================================== ....................................... FLOATING POINT ................................... Kp_90fp_min,Kp_90fp_avg,Kp_90fp_max = 4.4 4.4 4.4 Kp_135fp_min,Kp_135fp_avg,Kp_135fp_max= 6.0 6.0 6.0 Kp_180fp_min,Kp_180fp_avg,Kp_180fp_max= 6.5 6.5 6.6 Kp_allfp_min,Kp_allfp_avg,Kp_allfp_max= 4.4 5.6 6.6 Kp_allfp_weighted min, avg, max = 4.4 4.6 6.6 Sigma Kp_90,Kp_135,Kp_180,Kp_all fp = 0.04 0.05 0.05 1.00 ====kp90,135,180 FP probability of occurrence histogram (%) 0 0 0 100 0 0 0 0 0 0 0 0 0 50 50 0 0 0 0 0 0 0 0 100 0 0 0 ====kpall fp 0 0 0 33 17 50 0 0 0 ====kpall weighted 0 0 0 25 25 50 0 0 0 Kp bins 1 2 3 4 5 6 7 8 9 ========================================================================================== Duration_min= 32.2 h Duration_avg= 32.4 h Duration_max= 32.6 h Standard deviation= 0.3 h mp_standoff_min= 6.4 Re mp_standoff_avg= 6.4 Re mp_standoff_max= 6.4 Re Standard deviation= 0.0 Re Earth results for median input parameters: Arrival time maxKp(90,135,180) Rmin(Re) Duration (hrs) 2014-11-03T01:38 4 6 6 6.6 32.8 http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-den.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-vel.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Earth.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Earth_stack.gif ===========================other locations=============================== MESSENGER: Number_of_hits_Mess= 0 Number_of_miss_Mess=12 Percentage_hits_Mess= 0% No CME simulation in this ensemble hit MESSENGER or the impact is weak Spitzer: Number_of_hits_Spitz= 9 Number_of_miss_Spitz= 3 Percentage_hits_Spitz= 75.00% Earliest 2014-11-02T14:52 Average 2014-11-02T18:54 Latest 2014-11-02T21:48 Median input arrival 2014-11-02T20:31 http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-den.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-vel.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Spitzer.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Spitz_stack.gif STEREO A: Number_of_hits_STA= 0 Number_of_miss_STA=12 Percentage_hits_STA= 0% No CME simulation in this ensemble hit STEREO A or the impact is weak STEREO B: Number_of_hits_STB= 0 Number_of_miss_STB=12 Percentage_hits_STB= 0% No CME simulation in this ensemble hit STEREO B or the impact is weak Mars: Number_of_hits_Mars= 1 Number_of_miss_Mars=11 Percentage_hits_Mars= 8.33% Earliest 2014-11-03T12:42 Average 2014-11-03T12:42 Latest 2014-11-03T12:42 http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-den.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-vel.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Mars.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Mars_stack.gif ======================================= ### Notification information (Spitzer, Mars, missions near Earth) .... Based on heliospheric ensemble modeling carried out at NASA GSFC Space Weather Research Center, it is estimated that the CME may impact Spitzer and Mars. For 12 ensemble members (see notes section), simulations indicate that the leading edge of the CME will reach: - Spitzer between about 2014-11-02T14:52Z and 2014-11-02T21:48Z (average arrival 2014-11-02T18:54Z) for 75% of simulations. - Mars between about 2014-11-03T12:42Z and 2014-11-03T12:42Z (average arrival 2014-11-03T12:42Z) for 8% of simulations. Additionally the CME is estimated to reach NASA missions near Earth between about 2014-11-02T23:00Z and 2014-11-02T23:09Z (average arrival 2014-11-02T23:04Z) for 16% of simulations. The roughly estimated ensemble-based expected range of the maximum Kp index is 4-6 (below minor to moderate). Links to the ensemble details of the modeled event: http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_anim_tim-den.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Earth.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Earth_stack.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Mars.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Mars_stack.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_arrival_Spitzer.gif http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/20141101_051205_ncmes1_sims12_LIHUE080_Spitz_stack.gif ## Notes: SWRC CME ensemble is obtained by building sets of initial CME parameters and by carrying out separate simulations for each set. This approach will allow mapping of uncertainties in the initial CME parameters into statistical characterization of the CME impact at locations of interest. Description of links: The first link shows the WSA-ENLIL+Cone model animation for the median ensemble member and the links following show histograms of predicted arrival times, and solar wind model output for all ensemble members at various locations. For the full details of the modeled event, please go here: http://iswa.gsfc.nasa.gov/ENSEMBLE/2014-11-02_ncmes1_sims12_LIHUE080/Detailed_results_20141101_051205_ncmes1_sims12_LIHUE080.txt ### ========================================================================= Earth table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time maxKp(90,135,180) FP Rmin(Re) Duration (hrs) 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 4 2014-11-01T07:05 -13. -40. 32. 1800. H 5 2014-11-01T07:10 -10. -55. 36. 1750. H 6 2014-11-01T06:52 -12. -47. 41. 1805. H 7 2014-11-01T07:02 -13. -39. 37. 1772. H 2014-11-02T23:00 4 6 7 4.41 6.05 6.56 6.4 32.2 8 2014-11-01T06:46 -8. -46. 40. 1838. H 2014-11-02T23:09 4 6 6 4.35 5.98 6.49 6.4 32.6 9 2014-11-01T06:55 -11. -43. 36. 1810. H 10 2014-11-01T06:42 -8. -41. 39. 1873. H 11 2014-11-01T06:50 -15. -44. 37. 1822. H 12 2014-11-01T06:59 -12. -39. 40. 1739. H 13 2014-11-01T06:58 -11. -43. 37. 1808. M 2014-11-03T01:38 4 6 6 6.6 32.8 ========== MESSENGER table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 4 2014-11-01T07:05 -13. -40. 32. 1800. H 5 2014-11-01T07:10 -10. -55. 36. 1750. H 6 2014-11-01T06:52 -12. -47. 41. 1805. H 7 2014-11-01T07:02 -13. -39. 37. 1772. H 8 2014-11-01T06:46 -8. -46. 40. 1838. H 9 2014-11-01T06:55 -11. -43. 36. 1810. H 10 2014-11-01T06:42 -8. -41. 39. 1873. H 11 2014-11-01T06:50 -15. -44. 37. 1822. H 12 2014-11-01T06:59 -12. -39. 40. 1739. H 13 2014-11-01T06:58 -11. -43. 37. 1808. M ========== Spitzer table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 2014-11-02T17:02 4 2014-11-01T07:05 -13. -40. 32. 1800. H 2014-11-02T17:02 5 2014-11-01T07:10 -10. -55. 36. 1750. H 2014-11-02T17:02 6 2014-11-01T06:52 -12. -47. 41. 1805. H 2014-11-02T17:02 7 2014-11-01T07:02 -13. -39. 37. 1772. H 8 2014-11-01T06:46 -8. -46. 40. 1838. H 2014-11-02T14:52 9 2014-11-01T06:55 -11. -43. 36. 1810. H 2014-11-02T21:48 10 2014-11-01T06:42 -8. -41. 39. 1873. H 2014-11-02T21:48 11 2014-11-01T06:50 -15. -44. 37. 1822. H 2014-11-02T21:48 12 2014-11-01T06:59 -12. -39. 40. 1739. H 2014-11-02T21:48 13 2014-11-01T06:58 -11. -43. 37. 1808. M 2014-11-02T20:31 ========== STEREO A table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 4 2014-11-01T07:05 -13. -40. 32. 1800. H 5 2014-11-01T07:10 -10. -55. 36. 1750. H 6 2014-11-01T06:52 -12. -47. 41. 1805. H 7 2014-11-01T07:02 -13. -39. 37. 1772. H 8 2014-11-01T06:46 -8. -46. 40. 1838. H 9 2014-11-01T06:55 -11. -43. 36. 1810. H 10 2014-11-01T06:42 -8. -41. 39. 1873. H 11 2014-11-01T06:50 -15. -44. 37. 1822. H 12 2014-11-01T06:59 -12. -39. 40. 1739. H 13 2014-11-01T06:58 -11. -43. 37. 1808. M ========== STEREO B table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 4 2014-11-01T07:05 -13. -40. 32. 1800. H 5 2014-11-01T07:10 -10. -55. 36. 1750. H 6 2014-11-01T06:52 -12. -47. 41. 1805. H 7 2014-11-01T07:02 -13. -39. 37. 1772. H 8 2014-11-01T06:46 -8. -46. 40. 1838. H 9 2014-11-01T06:55 -11. -43. 36. 1810. H 10 2014-11-01T06:42 -8. -41. 39. 1873. H 11 2014-11-01T06:50 -15. -44. 37. 1822. H 12 2014-11-01T06:59 -12. -39. 40. 1739. H 13 2014-11-01T06:58 -11. -43. 37. 1808. M ========== Mars table (NCMES=1) # time (21.5Rs) Lat Lon w/2 v flag Arrival time 1 2014-11-01T06:58 -9. -43. 32. 1868. H 2 2014-11-01T07:05 -9. -43. 32. 1800. H 3 2014-11-01T07:08 -11. -51. 34. 1849. H 4 2014-11-01T07:05 -13. -40. 32. 1800. H 5 2014-11-01T07:10 -10. -55. 36. 1750. H 6 2014-11-01T06:52 -12. -47. 41. 1805. H 7 2014-11-01T07:02 -13. -39. 37. 1772. H 8 2014-11-01T06:46 -8. -46. 40. 1838. H 2014-11-03T12:42 9 2014-11-01T06:55 -11. -43. 36. 1810. H 10 2014-11-01T06:42 -8. -41. 39. 1873. H 11 2014-11-01T06:50 -15. -44. 37. 1822. H 12 2014-11-01T06:59 -12. -39. 40. 1739. H 13 2014-11-01T06:58 -11. -43. 37. 1808. M