OBJECT = COLUMN NAME = 'UT' COLUMN_NUMBER = 1 UNIT = 'SEC' DATA_TYPE = 'FLOAT' START_BYTE = 1 BYTES = 8 DESCRIPTION = "Universal Time given in seconds since 1966-01-01T00:00:00.000 where no attempt has been made to account for leap seconds." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E100HZ' COLUMN_NUMBER = 2 UNIT = '(V/M)**2/H' DATA_TYPE = 'FLOAT' START_BYTE = 9 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Wave intensity per Hertz, measured at 100 Hz. The wave intensity is the square of the wave electric field amplitude. At a particular frequency the wave intensity (V/M)^2 is measured over the bandwidth of the filter (30% bandwidth for OEFD). The bandwidth is incorporated in order to compare measurements made with this instrument with other wave measurements, which may have different bandwidths." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E730HZ' COLUMN_NUMBER = 3 UNIT = '(V/M)**2/H' DATA_TYPE = 'FLOAT' START_BYTE = 13 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Wave intensity per Hertz, measured at 730 Hz. The wave intensity is the square of the wave electric field amplitude. At a particular frequency the wave intensity (V/M)^2 is measured over the bandwidth of the filter (30% bandwidth for OEFD). The bandwidth is incorporated in order to compare measurements made with this instrument with other wave measurements, which may have different bandwidths." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E5.4KHZ' COLUMN_NUMBER = 4 UNIT = '(V/M)**2/H' DATA_TYPE = 'FLOAT' START_BYTE = 17 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Wave intensity per Hertz, measured at 5.4 kHz. The wave intensity is the square of the wave electric field amplitude. At a particular frequency the wave intensity (V/M)^2 is measured over the bandwidth of the filter (30% bandwidth for OEFD). The bandwidth is incorporated in order to compare measurements made with this instrument with other wave measurements, which may have different bandwidths." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E30KHZ' COLUMN_NUMBER = 5 UNIT = '(V/M)**2/H' DATA_TYPE = 'FLOAT' START_BYTE = 21 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Wave intensity per Hertz, measured at 30 kHz. The wave intensity is the square of the wave electric field amplitude. At a particular frequency the wave intensity (V/M)^2 is measured over the bandwidth of the filter (30% bandwidth for OEFD). The bandwidth is incorporated in order to compare measurements made with this instrument with other wave measurements, which may have different bandwidths." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E100 PH' COLUMN_NUMBER = 6 UNIT = 'DEG' DATA_TYPE = 'FLOAT' START_BYTE = 25 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Instantaneous phase angle with respect to the sun of the wave instrument dipole axis for the 100 Hz channel. The antenna dipole is 267.5 degrees behind the sun-sensor (i.e., the spacecraft must rotate through 267.5 degrees after the sun pulse time for the dipole axis to be aligned with the sun). The phase angle is corrected for differences between the record time tag and the actual sample time within a data frame." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E730 PH' COLUMN_NUMBER = 7 UNIT = 'DEG' DATA_TYPE = 'FLOAT' START_BYTE = 29 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Instantaneous phase angle with respect to the sun of the wave instrument dipole axis for the 730 Hz channel. The antenna dipole is 267.5 degrees behind the sun-sensor (i.e., the spacecraft must rotate through 267.5 degrees after the sun pulse time for the dipole axis to be aligned with the sun). The phase angle is corrected for differences between the record time tag and the actual sample time within a data frame." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E5.4K PH' COLUMN_NUMBER = 8 UNIT = 'DEG' DATA_TYPE = 'FLOAT' START_BYTE = 33 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Instantaneous phase angle with respect to the sun of the wave instrument dipole axis for the 5.4 kHz channel. The antenna dipole is 267.5 degrees behind the sun-sensor (i.e., the spacecraft must rotate through 267.5 degrees after the sun pulse time for the dipole axis to be aligned with the sun). The phase angle is corrected for differences between the record time tag and the actual sample time within a data frame." END_OBJECT = COLUMN OBJECT = COLUMN NAME = 'E30K PH' COLUMN_NUMBER = 9 UNIT = 'DEG' DATA_TYPE = 'FLOAT' START_BYTE = 37 BYTES = 4 MISSING = 1.000000E+32 DESCRIPTION = "Instantaneous phase angle with respect to the sun of the wave instrument dipole axis for the 30 kHz channel. The antenna dipole is 267.5 degrees behind the sun-sensor (i.e., the spacecraft must rotate through 267.5 degrees after the sun pulse time for the dipole axis to be aligned with the sun). The phase angle is corrected for differences between the record time tag and the actual sample time within a data frame." END_OBJECT = COLUMN