; 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.1997294.txt
; Author: J. Kasper (jck@mit.edu) 1 (617) 253-7611
; Created: Fri Dec 10 10:34:45 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:          1030
;         Spectra after applying limits:            16
;         Spectra removed as time regressions:       0
;         Spectra removed as spikes:                11
;         Spectra written to this file:              2
;         Spectra with alpha particle data:          2
;
;
; 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]
;