; 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.1999036.txt ; Author: J. Kasper (jck@mit.edu) 1 (617) 253-7611 ; Created: Fri Dec 10 10:54:00 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: 847 ; Spectra after applying limits: 70 ; Spectra removed as time regressions: 0 ; Spectra removed as spikes: 51 ; Spectra written to this file: 14 ; Spectra with alpha particle data: 11 ; ; ; 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] ; 1999 36.036409 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.048 0.010 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.002 0.010 0.1 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 46.945 -46.755 -17.188 0.131 0.127 -4.046 8.232 6.337 4.427 9.397 1999 36.173192 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.073 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 40.596 -19.671 -18.689 0.110 0.055 -7.884 5.629 9.267 2.154 10.627 1999 36.209284 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.108 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 38.978 -13.618 -14.147 0.128 0.072 -8.783 4.838 9.895 1.689 10.887 1999 36.265028 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.120 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 39.696 -10.130 -15.358 0.066 0.062 -10.083 3.567 10.756 1.002 11.288 1999 36.316361 358.0 16.3 -340.0 16.5 84.8 15.8 73.4 12.9 99999.9 99999.9 99999.9 99999.9 578.2 55.4 -14.0 0.5 11.8 0.5 0.135 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 34.265 -6.914 -12.451 0.130 0.010 -11.184 2.367 11.456 0.314 11.697 1999 36.435680 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.094 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 36.119 -0.577 -6.537 0.034 0.025 -13.472 -0.466 12.783 -1.906 12.647 1999 36.448805 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 0.051 0.010 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 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 35.345 -0.768 -6.078 0.063 0.015 -13.700 -0.781 12.909 -2.221 12.733 1999 36.882790 293.0 58.3 -286.5 58.9 -61.0 41.8 -7.8 4.6 99999.9 99999.9 40.4 14.3 99999.9 99999.9 12.0 0.5 -1.5 0.5 1.006 0.011 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 1.8 298.1 -293.8 -38.2 -33.0 55.7 62.0 NaN 1.789 2.314 8.365 12.314 10.751 2.320 -19.574 -10.658 15.408 -16.486 8.889 1999 36.987855 298.8 3.0 -293.9 2.9 -50.9 1.1 -16.7 1.0 109.4 1.0 120.0 1.2 84.2 1.8 9.8 0.5 -3.2 0.5 4.097 0.020 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.2 301.2 -295.0 -49.5 -34.8 79.4 67.1 116.3 3.378 -6.160 4.293 9.920 12.119 1.476 -20.623 -12.872 15.691 -18.781 7.693 1999 36.993324 321.9 38.5 -316.5 38.9 -56.0 26.7 -18.2 7.6 99999.9 99999.9 114.2 16.9 99999.9 99999.9 10.0 0.5 -3.2 0.5 3.701 0.019 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 317.3 -313.0 -49.7 -15.4 91.1 90.0 110.2 3.341 -3.625 6.619 11.552 10.561 0.675 -20.676 -12.986 15.704 -18.880 7.664 1999 36.995511 319.3 4.7 -311.1 4.7 -70.4 3.9 -12.7 1.0 84.2 3.3 90.7 1.7 69.3 11.0 12.8 0.5 -2.3 0.5 2.873 0.014 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 309.5 -303.7 -50.2 -31.7 71.4 66.0 108.3 2.890 -3.387 6.635 11.122 5.804 0.660 -20.697 -13.033 15.709 -18.919 7.656 1999 36.996605 376.6 3.8 -373.9 3.7 -43.0 1.0 -13.8 1.0 113.3 1.0 111.0 1.1 117.9 1.2 6.6 0.5 -2.1 0.5 4.542 0.023 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 362.3 -358.0 -49.1 -26.0 101.4 100.2 131.4 4.367 -1.485 6.402 11.497 3.948 0.783 -20.707 -13.057 15.712 -18.939 7.652 1999 36.997698 380.2 5.3 -378.1 5.3 -33.8 2.0 19.7 1.0 123.6 7.1 129.6 2.1 110.6 23.5 5.1 0.5 3.0 0.5 4.892 0.024 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 0.1 364.4 -361.6 -44.3 8.5 107.8 109.3 115.7 4.591 -0.174 6.256 12.073 5.353 0.674 -20.718 -13.080 15.714 -18.959 7.648 1999 36.998792 391.8 56.1 -389.7 56.4 -32.4 16.4 23.2 10.1 99999.9 99999.9 100.3 23.4 99999.9 99999.9 4.8 0.5 3.4 0.5 4.516 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 0.2 379.9 -377.6 -33.5 24.4 103.9 105.3 91.7 4.621 2.451 8.087 9.697 10.971 1.654 -20.728 -13.104 15.717 -18.978 7.644