!@.qft@QIE V_3.6.2 [Feb 2012] ! ! Sample header for NASA Omni data ! See data file (with attached header) omni_hr.qft for corresponding data record syntax ! Place this file in the same directory as the data files ! ! For different data products and variable types ! the column start/width and sizes fields will need modifying ! !------------------- QSAS ASCII File -------------------| ! Fixed column width table padded with CSDS fill values | ! Column position in record counted from 0 | ! | ! ASCII Format | ! Native C ordering, last index varies fastest | ! Blank lines are ignored | ! "!" escapes rest of line as comment | !-------------------------------------------------------| File_type = t FILE_NAME = format.qfh ! Attribute_delimiter = , Record_numbering = off Start_variable = epoch Column_start = 0 Column_width = 14 ! scalar, no Size entry Data_type = epoch Time_format = FREE_TIME_FORMAT TIME_FORMAT_STRING = YYYY Doy HH MI End_variable = epoch Start_variable = NPOINTS Column_start = 14 Column_width = 4 ! scalar, no Size entry Data_type = int FIELDNAM = Number of points UNITS = ! no units DEPEND_0 = epoch FILLVAL = 999 End_variable = NPOINTS Start_variable = percent Column_start = 18 Column_width = 4 ! scalar, no Size entry Data_type = int FIELDNAM = Number of points UNITS = ! no units DEPEND_0 = epoch FILLVAL = 999 End_variable = percent Start_variable = cp_mvflag Column_start = 22 Column_width = 4 ! scalar, no Size entry Data_type = float FIELDNAM = Number of points UNITS = ! no units DEPEND_0 = epoch FILLVAL = 9.9 End_variable = cp_mvflag Start_variable = Tshift Column_start = 26 Column_width = 7 ! scalar, no Size entry Data_type = int FIELDNAM = time shift UNITS = s SI_conversion = 1>s DEPEND_0 = epoch FILLVAL = 999999 End_variable = Tshift Start_variable = Phase_frnt_nrml Column_start = 33 Column_width = 6 SIZES = 3 Data_type = float FRAME = vector>gse_xyz FIELDNAM = Phase front Normal UNITS = ! no units DEPEND_0 = epoch FILLVAL = 99.99 End_variable = Phase_frnt_nrml Start_variable = Bmag Column_start = 51 Column_width = 8 Data_type = float FIELDNAM = B field magnitude UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = Bmag Start_variable = Bgse Column_start = 59 Column_width = 8 SIZES = 3 Data_type = float FRAME = vector>gse_xyz FIELDNAM = B field UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = Bgse Start_variable = By_gsm Column_start = 83 Column_width = 8 Data_type = float FIELDNAM = B field magnitude UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = By_gsm Start_variable = Bz_gsm Column_start = 91 Column_width = 8 Data_type = float FIELDNAM = B field magnitude UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = Bz_gsm Start_variable = RMS_Tshift Column_start = 99 Column_width = 7 ! scalar, no Size entry Data_type = int FIELDNAM = RMS time shift UNITS = s SI_conversion = 1>s DEPEND_0 = epoch FILLVAL = 999999 End_variable = RMS_Tshift Start_variable = RMS_Phase_frnt_nrml Column_start = 106 Column_width = 6 Data_type = float FIELDNAM = RMS Phase front Normal UNITS = ! no units DEPEND_0 = epoch FILLVAL = 99.99 End_variable = RMS_Phase_frnt_nrml Start_variable = RMS_Bmag Column_start = 112 Column_width = 8 Data_type = float FIELDNAM = RMS B field magnitude UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = RMS_Bmag Start_variable = RMS_Bvector Column_start = 120 Column_width = 8 Data_type = float FIELDNAM = RMS B vector UNITS = nT SI_conversion = 1.0e-9>T DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = RMS_Bvector Start_variable = NPOINTS_plasma Column_start = 128 Column_width = 4 ! scalar, no Size entry Data_type = int FIELDNAM = Number of points plasma avgs UNITS = ! no units DEPEND_0 = epoch FILLVAL = 999 End_variable = NPOINTS_plasma Start_variable = flowSpeed Column_start = 132 Column_width = 8 Data_type = float FIELDNAM = flow speed UNITS = km/s SI_conversion = 1.0e3>m s^-1 DEPEND_0 = epoch FILLVAL = 99999.9 End_variable = flowSpeed Start_variable = V Column_start = 140 Column_width = 8 SIZES = 3 Data_type = float FRAME = vector>gse_xyz FIELDNAM = Flow velocity UNITS = km/s SI_conversion = 1.0e3>m s^-1 DEPEND_0 = epoch FILLVAL = 99999.9 End_variable = V Start_variable = Np Column_start = 164 Column_width = 7 Data_type = float FIELDNAM = proton density UNITS = cm^-3 SI_conversion = 1.0e6>m^-3 DEPEND_0 = epoch FILLVAL = 999.99 End_variable = Np Start_variable = T Column_start = 171 Column_width = 9 Data_type = float FIELDNAM = temperature UNITS = K SI_conversion = 1.0>K DEPEND_0 = epoch FILLVAL = 9999999. End_variable = T Start_variable = Posn Column_start = 180 Column_width = 8 SIZES = 3 Data_type = float FRAME = vector>gse_xyz FIELDNAM = s/c position UNITS = Re SI_conversion = 6.3712e+06>m DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = Posn Start_variable = PosnTarget Column_start = 204 Column_width = 8 SIZES = 3 Data_type = float FRAME = vector>gse_xyz FIELDNAM = target position UNITS = Re SI_conversion = 6.3712e+06>m DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = PosnTarget Start_variable = RMStarget Column_start = 228 Column_width = 8 Data_type = float FIELDNAM = target RMS UNITS = Re SI_conversion = 6.3712e+06>m DEPEND_0 = epoch FILLVAL = 9999.99 End_variable = RMStarget Start_variable = DBOT1 Column_start = 236 Column_width = 7 ! scalar, no Size entry Data_type = int FIELDNAM = Duration Between Observing Times (1) UNITS = s SI_conversion = 1>s DEPEND_0 = epoch FILLVAL = 999999 End_variable = DBOT1 Start_variable = DBOT2 Column_start = 243 Column_width = 7 ! scalar, no Size entry Data_type = int FIELDNAM = Duration Between Observing Times (2) UNITS = s SI_conversion = 1>s DEPEND_0 = epoch FILLVAL = 999999 End_variable = DBOT2 Start_data = 0