; 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.1997203.txt ; Author: J. Kasper (jck@mit.edu) 1 (617) 253-7611 ; Created: Fri Dec 10 10:33:11 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: 1083 ; Spectra after applying limits: 64 ; Spectra removed as time regressions: 0 ; Spectra removed as spikes: 20 ; Spectra written to this file: 9 ; Spectra with alpha particle data: 1 ; ; ; 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] ; 1997 203.197256 407.5 4.1 -407.2 4.1 -11.6 1.0 -11.5 1.0 25.3 1.0 28.7 1.0 16.3 1.0 1.6 0.5 -1.6 0.5 1.540 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 1.0 409.6 -409.5 -3.8 -10.1 54.7 53.9 54.1 2.754 -6.450 -0.482 3.229 0.727 0.012 63.776 4.024 -6.100 2.717 -6.783 1997 203.229996 394.0 3.9 -392.9 3.9 -7.0 1.0 -28.5 1.0 28.8 1.0 31.0 1.0 23.7 1.0 1.0 0.5 -4.1 0.5 3.798 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 2.1 393.9 -393.0 -4.9 -25.8 42.3 42.1 40.7 4.162 -5.869 0.173 4.029 2.185 0.072 63.482 4.210 -6.070 2.638 -6.898 1997 203.230904 389.5 14.6 -388.2 14.6 -6.5 1.0 -30.1 3.9 28.0 2.2 30.7 2.9 21.5 1.9 1.0 0.5 -4.4 0.5 4.294 0.039 386.8 28.2 -383.8 28.4 -14.0 4.3 -45.9 12.3 28.0 3.9 0.076 0.010 3.5 386.6 -385.9 -2.2 -22.8 51.8 46.1 54.7 4.946 -5.760 -0.062 3.968 2.629 0.072 63.473 4.215 -6.070 2.636 -6.901 1997 203.240897 384.8 3.8 -383.4 3.8 -14.3 1.0 -30.0 1.0 28.0 1.0 29.5 1.0 24.8 1.0 2.1 0.5 -4.5 0.5 4.776 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 1.8 384.5 -383.4 -11.8 -26.5 39.1 43.6 35.7 5.158 -5.284 0.221 4.601 0.952 0.021 63.377 4.275 -6.061 2.612 -6.937 1997 203.241805 384.6 3.8 -383.3 3.8 -14.3 1.0 -28.1 1.0 29.4 1.0 31.5 1.0 24.8 1.0 2.1 0.5 -4.2 0.5 4.596 0.023 388.5 59.3 -383.3 59.8 -17.5 11.1 -60.9 34.0 29.4 7.7 0.100 0.010 2.8 381.6 -380.8 -9.7 -23.3 52.2 49.3 53.3 5.206 -5.473 0.135 4.421 2.188 0.052 63.369 4.281 -6.060 2.610 -6.940 1997 203.242714 391.5 3.9 -390.0 3.9 -13.8 1.0 -32.4 1.0 29.6 1.0 30.2 1.0 28.4 1.0 2.0 0.5 -4.8 0.5 4.978 0.025 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 1.9 381.4 -380.3 -12.8 -26.4 62.8 50.0 80.4 5.715 -4.755 -0.205 5.206 2.469 0.041 63.361 4.286 -6.059 2.609 -6.944 1997 203.251798 397.8 4.0 -395.6 4.0 -20.4 1.0 -37.1 1.0 27.9 1.0 29.7 1.0 24.0 1.0 3.0 0.5 -5.4 0.5 5.090 0.025 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 2.4 396.8 -394.7 -18.6 -36.2 38.5 41.1 34.7 5.194 -4.960 1.225 5.094 2.075 0.038 63.283 4.341 -6.048 2.596 -6.976 1997 203.252707 398.7 4.0 -396.2 4.0 -25.9 1.0 -36.8 1.0 30.5 1.0 32.6 1.0 25.8 1.0 3.7 0.5 -5.3 0.5 5.131 0.026 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.9 99999.999 99999.999 6.2 395.8 -394.1 -21.0 -29.0 51.0 46.9 56.7 5.622 -4.677 1.815 4.807 2.446 0.119 63.274 4.346 -6.047 2.594 -6.980 1997 203.254524 396.9 16.4 -394.4 16.5 -20.5 4.0 -40.2 6.1 28.5 2.2 30.6 2.7 23.7 3.5 3.0 0.5 -5.8 0.5 4.952 0.055 396.5 18.3 -393.6 18.4 -17.9 4.1 -43.8 7.5 28.5 2.0 0.172 0.010 8.0 374.6 -373.7 -23.2 -12.3 85.3 71.4 104.3 6.738 -4.525 0.701 5.108 4.416 0.111 63.257 4.357 -6.045 2.589 -6.986