; Project: WIND/SWE Faraday Cup (Proton-Alpha Anisotropy Analysis) ; Description: Solar wind proton and alpha parameters, including anisotropic ; temperatures, derived by non-linear fitting of the measurements ; and with moment techniques. ; Filename: /nfs/faraday/d9/wind/vho/wind_swe_fc_apbimax/wi_swe_fc_apbimax.2003064.txt ; Author: J. Kasper (jck@mit.edu) 1 (617) 253-7611 ; Created: Fri Dec 10 13:10:02 2004 ; ; Notes: ; - Data reported within this file do not exceed the limits of ; various paremeters listed in the following section. There ; may be more valid data in the original dataset that requires ; additional work to interpret but was discarded due to the ; limits. In particular we have tried to exclude non-solar ; wind data from these files. ; - We provide the one sigma uncertainty for each parameter ; produced by the non-linear curve fitting analysis either ; directly from the fitting or by propagating uncertainties ; for bulk speeds, flow angles or any other derived parameter. ; - For the non-linear anisotropic proton analysis, a scalar ; thermal speed is produced by determining parallel and ; perpendicular tmperatures, taking the trace, ; Tscalar = (2Tperp + Tpara)/3 and converting the result ; back to a thermal speed. The uncertainties are also ; propagated through ; ; ; Limits: ; Minimum mach number: 0.75000000 ; Maximum chisq/dof: 100000.00 ; Minimum distance ; to bow shock: -100000.00 [Re] ; Maximum uncertainty in any ; parameter from non-linear ; analysis: 70.0000[%] ; ; Total number of spectra in this year: 23 ; Spectra after applying limits: 23 ; Spectra removed as time regressions: 0 ; Spectra removed as spikes: 0 ; Spectra written to this file: 21 ; Spectra with alpha particle data: 12 ; ; ; Format Code: (i4.4," ",f11.6,18(" ",f7.1),2(" ",f9.3),10(" ",f7.1),2(" ",f9.3)," ",f6.1,7(" ",f7.1)," ",f9.3,10(" ",f9.3)) ; ; Column # Desciption ; 1 Year ; 2 Fractional day of year of start of spectrum (Noon on January 1 = 1.5) ; 3 Proton bulk speed V (km/s) from non-linear analysis ; 4 One sigma uncertainty in V [km/s] ; 5 Proton velocity component Vx (GSE, km/s) from non-linear analysis ; 6 One sigma uncertainty in Vx [km/s] ; 7 Proton velocity component Vy (GSE, km/s) from non-linear analysis ; 8 One sigma uncertainty in Vy [km/s] ; 9 Proton velocity component Vz (GSE, km/s) from non-linear analysis ; 10 One sigma uncertainty in Vz [km/s] ; 11 Scalar proton thermal speed (km/s) trace of anisotropic temperatures ; 12 One sigma uncertainty in trace thermal speed ; 13 Proton thermal speed Wperpendicular (km/s) from non-linear analysis ; 14 One sigma uncertainty in Wperpendicular [km/s] ; 15 Proton thermal speed Wparallel (km/s) from non-linear analysis ; 16 One sigma uncertainty in Wparallel [km/s] ; 17 East-West flow angle (degrees) ; 18 One sigma uncertainty in EW flow angle ; 19 North-South flow angle (degrees) ; 20 One sigma uncertainty in NS flow angle ; 21 Proton number density Np (n/cc) from non-linear analysis ; 22 One sigma uncertainty in Np [n/cc] ; 23 Alpha bulk speed V (km/s) from non-linear analysis ; 24 One sigma uncertainty in V [km/s] ; 25 Alpha velocity component Vx (GSE, km/s) from non-linear analysis ; 26 One sigma uncertainty in Vx [km/s] ; 27 Alpha velocity component Vy (GSE, km/s) from non-linear analysis ; 28 One sigma uncertainty in Vy [km/s] ; 29 Alpha velocity component Vz (GSE, km/s) from non-linear analysis ; 30 One sigma uncertainty in Vz [km/s] ; 31 Scalar alpha thermal speed (km/s) trace of anisotropic temperatures ; 32 One sigma uncertainty in trace thermal speed ; 33 Alpha number density Na (n/cc) from non-linear analysis ; 34 One sigma uncertainty in Na [n/cc] ; 35 CHISQ/DOF for this fit ; 36 Proton bulk speed (km/s) from moment analysis ; 37 Proton velocity component Vx (GSE, km/s) from moment analysis ; 38 Proton velocity component Vy (GSE, km/s) from moment analysis ; 39 Proton velocity component Vz (GSE, km/s) from moment analysis ; 40 Proton thermal speed W (km/s) from isotropic moment analysis ; 41 Proton thermal speed Wperpendicular (km/s) from bimax moment analysis ; 42 Proton thermal speed Wparallel (km/s) from bimax moment analysis ; 43 Proton number density Np (n/cc) from moment analysis ; 44 Magnetic field component Bx (GSE, nT) averaged over plasma measurement ; 45 Magnetic field component By (GSE, nT) averaged over plasma measurement ; 46 Magnetic field component Bz (GSE, nT) averaged over plasma measurement ; 47 Angluar deviation of magnetic field over plasma measurement [degrees] ; 48 Deviation in magnitude of field over plasma measurement [nT] ; 49 X (GSE) Position of Wind S/C at start of spectrum [Re] ; 50 Y (GSE) Position of Wind S/C at start of spectrum [Re] ; 51 Z (GSE) Position of Wind S/C at start of spectrum [Re] ; 52 Y (GSM) Position of Wind S/C at start of spectrum [Re] ; 53 Z (GSM) Position of Wind S/C at start of spectrum [Re] ; 2003 64.001082 457.5 27.7 -457.0 27.7 19.3 4.5 7.5 1.5 47.2 7.0 46.6 10.3 48.5 5.2 -2.4 0.5 0.9 0.5 5.096 0.045 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 4.4 454.6 -453.7 27.0 9.1 59.5 59.6 56.9 6.197 6.447 1.959 2.529 3.211 0.081 205.161 54.663 -5.349 48.890 25.017 2003 64.002205 454.7 23.6 -454.3 23.6 19.0 4.0 2.6 1.0 43.5 5.8 40.4 8.9 49.1 5.0 -2.4 0.5 0.3 0.5 4.448 0.031 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 2.1 456.1 -455.6 19.9 6.6 54.6 52.6 55.1 5.623 6.509 1.320 3.116 6.268 0.111 205.163 54.665 -5.347 48.901 25.004 2003 64.003329 450.2 20.1 -450.0 20.1 0.4 1.0 14.0 2.2 46.3 6.5 50.2 8.9 37.6 3.4 -0.1 0.5 1.8 0.5 4.760 0.041 482.2 72.0 -482.2 72.0 -6.1 3.7 3.8 2.0 46.3 21.9 0.272 0.010 2.1 454.3 -454.2 3.8 8.4 54.2 53.3 54.5 5.876 6.479 -0.910 3.074 6.576 0.159 205.164 54.668 -5.346 48.912 24.990 2003 64.004452 458.6 25.1 -458.4 25.1 3.5 1.0 12.9 2.4 45.1 5.7 39.8 8.7 54.3 6.2 -0.4 0.5 1.6 0.5 4.579 0.030 478.4 83.4 -478.3 83.4 2.8 1.9 5.7 3.5 99999.9 99999.9 0.306 0.010 1.4 459.2 -458.9 2.3 16.7 56.2 53.4 57.5 5.510 6.133 -0.855 3.731 4.353 0.115 205.165 54.671 -5.345 48.923 24.977 2003 64.005575 461.9 24.6 -461.7 24.6 4.7 1.0 13.2 2.5 49.0 5.7 45.2 8.5 55.9 5.9 -0.6 0.5 1.6 0.5 5.116 0.035 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 1.3 460.4 -460.0 0.5 19.2 57.5 55.1 58.0 5.976 5.845 -0.108 3.730 8.797 0.136 205.167 54.673 -5.343 48.934 24.963 2003 64.006698 445.5 21.9 -444.8 22.0 9.8 2.0 -21.9 3.6 57.6 29.6 66.1 38.7 34.9 5.0 -1.3 0.5 -2.8 0.5 4.347 0.039 478.8 71.1 -478.4 71.1 -0.6 1.0 -18.9 9.8 99999.9 99999.9 0.279 0.010 3.0 451.3 -450.8 11.4 -17.9 55.3 43.1 57.0 5.724 6.612 -0.227 -0.286 7.427 0.108 205.168 54.676 -5.342 48.944 24.950 2003 64.008945 457.7 23.5 -457.1 23.5 -14.3 2.8 16.6 2.9 46.0 4.8 43.8 6.7 50.2 6.2 1.8 0.5 2.1 0.5 4.663 0.031 481.3 78.4 -481.2 78.5 -9.1 5.9 9.2 5.3 46.0 16.3 0.295 0.010 1.6 458.7 -458.2 -13.2 16.7 55.4 58.0 52.9 5.663 5.659 -3.134 3.668 3.907 0.070 205.170 54.681 -5.340 48.967 24.920 2003 64.010068 462.4 21.3 -461.4 21.4 -22.1 3.9 20.7 3.4 44.4 3.9 43.7 5.3 45.8 5.3 2.7 0.5 2.6 0.5 4.727 0.031 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 2.3 463.8 -463.1 -19.1 17.9 55.9 55.4 55.6 5.541 5.365 -2.228 4.467 14.980 0.273 205.170 54.684 -5.340 48.979 24.901 2003 64.011192 499.0 19.8 -497.2 19.8 -41.9 7.2 -5.9 1.0 44.8 7.6 42.7 2.3 48.7 20.7 4.8 0.5 -0.7 0.5 5.753 0.045 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.2 500.1 -498.3 -42.6 -4.3 64.5 64.8 54.6 6.217 1.647 -6.646 1.349 9.952 0.150 205.170 54.687 -5.340 48.991 24.882 2003 64.012315 493.0 24.8 -491.0 24.9 -43.5 10.5 -1.1 1.0 99999.9 99999.9 49.8 3.2 99999.9 99999.9 5.1 0.5 -0.1 0.5 6.920 0.079 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.9 491.8 -489.8 -44.2 -3.3 62.9 65.7 NaN 7.064 1.302 -6.896 0.692 9.730 0.142 205.170 54.690 -5.340 49.003 24.863 2003 64.013438 497.0 20.9 -494.8 20.9 -42.7 7.3 -19.1 2.8 99999.9 99999.9 44.0 2.7 99999.9 99999.9 4.9 0.5 -2.2 0.5 5.536 0.041 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.0 500.7 -498.2 -46.4 -18.9 60.8 63.3 NaN 5.848 0.387 -6.923 -0.762 6.641 0.160 205.170 54.692 -5.340 49.015 24.844 2003 64.014562 511.7 21.3 -509.3 21.3 -45.3 8.0 -18.6 2.7 44.3 7.6 44.2 2.6 44.6 22.1 5.1 0.5 -2.1 0.5 5.270 0.038 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 516.1 -513.7 -46.0 -20.7 65.1 66.5 34.2 5.704 -0.638 -6.762 -0.706 5.858 0.118 205.170 54.695 -5.340 49.027 24.825 2003 64.015685 503.7 19.5 -501.9 19.6 -41.2 7.1 -12.3 1.7 50.0 14.2 39.3 2.1 66.4 32.0 4.7 0.5 -1.4 0.5 5.440 0.041 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 508.8 -506.8 -43.6 -8.9 64.7 67.3 NaN 5.835 -0.009 -6.582 -0.717 9.589 0.157 205.170 54.698 -5.340 49.039 24.806 2003 64.016808 493.2 20.7 -491.2 20.7 -39.1 5.6 -22.5 3.3 45.5 4.0 44.3 2.7 47.8 10.4 4.6 0.5 -2.6 0.5 5.717 0.042 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.6 495.5 -493.1 -41.9 -25.1 59.9 62.6 59.5 6.001 2.374 -5.712 -0.221 19.603 0.293 205.170 54.700 -5.340 49.052 24.787 2003 64.017932 469.8 20.1 -468.2 20.2 -37.2 6.5 -8.8 1.4 47.5 3.8 44.3 4.3 53.3 7.4 4.5 0.5 -1.1 0.5 5.919 0.044 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.4 472.2 -470.3 -41.5 -6.2 58.0 62.7 50.8 6.266 3.937 -5.054 -0.871 11.775 0.207 205.170 54.703 -5.338 49.065 24.767 2003 64.019055 504.4 24.0 -503.1 24.1 -30.3 6.8 -18.8 3.2 67.8 23.3 48.8 3.2 95.0 49.7 3.4 0.5 -2.1 0.5 6.059 0.047 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 1.1 495.6 -494.1 -32.5 -21.6 73.7 74.5 105.5 7.663 -0.377 -5.825 0.503 19.534 0.303 205.170 54.706 -5.337 49.079 24.747 2003 64.021302 499.3 20.6 -497.4 20.7 -44.0 8.7 -0.1 1.0 99999.9 99999.9 45.0 2.8 99999.9 99999.9 5.1 0.5 -0.0 0.5 6.073 0.051 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 502.5 -500.5 -44.5 -2.6 62.3 64.4 26.9 6.189 0.304 -6.579 1.084 8.566 0.164 205.170 54.711 -5.334 49.106 24.707 2003 64.022425 481.6 19.6 -479.5 19.7 -29.2 4.5 -34.4 4.9 44.9 3.8 40.4 2.9 52.6 8.7 3.5 0.5 -4.1 0.5 5.332 0.037 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.3 485.4 -482.9 -34.3 -35.5 59.4 59.0 60.3 5.609 3.308 -4.905 -2.218 11.004 0.203 205.170 54.714 -5.333 49.119 24.686 2003 64.023548 474.2 22.5 -472.8 22.6 -27.3 5.6 -22.7 4.0 45.9 4.4 42.9 4.1 51.2 9.7 3.3 0.5 -2.7 0.5 5.451 0.050 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.9 476.1 -474.5 -29.2 -25.7 64.1 66.4 62.0 5.825 3.481 -5.183 -1.530 6.703 0.109 205.170 54.717 -5.332 49.133 24.666 2003 64.024672 481.3 19.8 -479.1 19.8 -32.2 4.9 -32.2 4.7 46.6 4.6 43.6 2.8 52.1 11.5 3.8 0.5 -3.8 0.5 5.570 0.040 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.2 484.3 -481.7 -34.7 -35.7 60.4 59.7 65.8 5.831 2.531 -4.703 -2.858 8.428 0.171 205.170 54.719 -5.330 49.146 24.646 2003 64.025795 491.8 24.1 -490.2 24.1 8.7 1.8 38.7 6.9 54.3 6.5 53.2 3.4 56.6 17.6 -1.0 0.5 4.5 0.5 6.539 0.053 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 1.2 492.2 -490.4 8.1 41.4 65.1 66.2 86.9 6.963 1.788 -0.460 6.646 14.091 0.592 205.171 54.722 -5.330 49.160 24.623