:File information *********************************** :Data_List: ARMAS_dirIP_Report_07006_20191006235840_L1L4.txt :Number_of_data_records: 4 :Number_of_data_columns: 47 :Run_Date_Time: 25-May-2020 23:16:59.00 :Updated_by: write_L2_data :Data_time_zone: UT :Data_Source: ARMAS FM7006 30-L LANSCE ACA2610F6B88 :version: v10.10 :Missing_data_flag: -1 :Invalid_data_flag: 999 :Data_start_time: 20191006235910 :Data_end_time: 20191007000240 :Data_duration: 0.049999997 hours :Data_source_details: ARMAS SET_SWD_FM7006x 900020000007006 FM7006 (Tail number: LANSCE) : :Environment **************************************** :Flight_cruise: Cruise altitude (m) for this flight is 1911.4831 and is defined as 0.900000 of the maximum altitude :Flight_median: Flight median altitude (m) near the cruise altitude is 1911.4831 :Flight_st_dev: Flight altitude standard deviation of the median altitude (m) near the cruise altitude is 0.00000 :Flight_median_Rc: Flight median cutoff rigidity is 12.7247 :Flight_SEP: SEP for this flight is 0 :Flight_D: Average D-index for this flight at cruise altitude is 0 :Flight_Kp: Average Kp for this flight at cruise altitude is 3 :Flight_Ap: Average Ap for this flight at cruise altitude is 12 :Flight_G: Average NOAA G level for this flight is G0 :Flight_SpWx: Space weather event possibility during this flight is Low : :Dosimetric parameters ****************************** :C1_Flight_conversion_to_dose_equivalent_[H*(10): 1.00 :C2_Flight_dose_equivalent_in_tissue_normalization_factor_to_phantom_body_ambient_dose_equivalent_H*(10): 2.00 :C3_conversion_between_dose_Si_to_dose_Ti_(Liulin/ARMAS_and_TEPC): 1.12 :C4_NAIRAS_v1_derived_conversion_to_effective_dose: 0.56 :Wt_sum_is_the_tissue_weighting_factors_across_all_tissue: 1.00 :Fr_is_the_secondary_species_fraction_binned_by_Gv_0-17_(alphas/heavies,neutrons,protons,photons,electrons,muons): calculated :Wr_is_the_radiation_weighting_factor_(heavies,alphas,neutrons,protons,photons,electrons,pions/muons): 20 20 5 5 1 1 1 :L3 dose equivalent conversion using RADX as the calibration source with the C3 conversion factor :NAIRAS_Silicon_Source: SiDose_G0.txt :NAIRAS_Ambient_Source: AmbDoseEq_G0.txt :NAIRAS_Effective_Source: EffDose_G0.txt :NAIRAS_version: v1 : :Dosimetric data ************************************ :THE DATA IN THIS FLIGHT IS CONSIDERED AN ENGINEERING QUALITY DATASET :L1_Flight_total_measured_absorbed_dose_D(Si) (may include data spikes or EMI - see comments): 0.14 micro_Gy :L1_Flight_total_derived_absorbed_dose_D(Ti) (may include data spikes or EMI - see comments): 0.19 micro_Gy :L2_Median_flight_derived_absorbed_dose_rate_dD(Si)/dt (may include data spikes or EMI - see comments): 0.84 micro_Gy/h at cruise altitude (0.900000 x maximum altitude) :L2_Standard_deviation_flight_derived_absorbed_dose_rate_dD(Si)/dt (may include data spikes or EMI - see comments): 0.00 1-sigma micro_Gy/h at cruise altitude (0.900000 x maximum altitude) :L2_Maximum_flight_derived_absorbed_dose_rate_dD(Si)/dt (may include data spikes or EMI - see comments): 0.84 micro_Gy/h :L2_Median_flight_derived_absorbed_dose_rate_dD(Ti)/dt (may include data spikes or EMI - see comments): 0.94 micro_Gy/h at cruise altitude (0.900000 x maximum altitude) :L2_Standard_deviation_flight_derived_absorbed_dose_rate_dD(Ti)/dt (may include data spikes or EMI - see comments): 0.00 1-sigma micro_Gy/h at cruise altitude (0.900000 x maximum altitude) :L2_Maximum_flight_derived_absorbed_dose_rate_dD(Ti)/dt (may include data spikes or EMI - see comments): 1.12 micro_Gy/h :L2_Maximum_NAIRAS_v1_modeled_absorbed_dose_rate_dD(Si)/dt: 0.11 micro_Gy/h :L3_Flight_derived_total_dose_equivalent_H: 0.28 micro_Sv :L3_Median_flight_derived_dose_equivalent_rate_dH/dt (may include data spikes or EMI - see comments): 1.70 micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L3_Standard_deviation_flight_derived_dose_equivalent_rate_dH/dt (may include data spikes or EMI - see comments): 0.00 1-sigma micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L3_Maximum_flight_derived_dose_equivalent_rate_dH/dt: 1.70 micro_Sv/h :L3_NAIRAS_estimated_total_dose_equivalent_H: 0.41 micro_Sv using same scaling factors as ARMAS :L3_Maximum_NAIRAS_estimated_dose_equivalent_rate_dH/dt: 2.47 micro_Sv/h using same scaling factors as ARMAS :L3_Flight_derived_total_ambient_dose_equivalent_H*(10): 0.46 micro_Sv :L3_Median_flight_derived_ambient_dose_equivalent_rate_dH10/dt (may include data spikes or EMI - see comments): 2.75 micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L3_Standard_deviation_flight_derived_ambient_dose_equivalent_rate_dH10/dt (may include data spikes or EMI - see comments): 0.00 1-sigma micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L3_Maximum_flight_derived_ambient_dose_equivalent_rate_dH10/dt: 2.75 micro_Sv/h :L3_NAIRAS_estimated_total_ambient_dose_equivalent_H*(10): 0.41 micro_Sv using same scaling factors as ARMAS :L3_Maximum_NAIRAS_estimated_ambient_dose_equivalent_rate_dH10/dt: 2.47 micro_Sv/h using same scaling factors as ARMAS :L3_Maximum_NAIRAS_v1_modeled_ambient_dose_equivalent_rate_dH10/dt: 0.74 micro_Sv/h :L4_Flight_mean_total_effective_dose_E: 0.13 micro_Sv (ENGINEERING DATASET) :L4_NAIRAS_v1_modeled_flight_mean_total_effective_dose_E: 0.02 micro_Sv :L4_Median_flight_derived_effective_dose_rate_dE/dt (may include data spikes or EMI - see comments): 2.69 micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L4_Standard_deviation_flight_derived_effective_dose_rate_dE/dt (may include data spikes or EMI - see comments): 0.00 1-sigma micro_Sv/h at cruise altitude (0.900000 x maximum altitude) :L4_Maximum_flight_derived_effective_dose_rate_dE/dt: 2.69 micro_Sv/h :L4_Maximum_NAIRAS_v1_modeled_effective_dose_rate_dE/dt: 0.70 micro_Sv/h :L4_to_NAIRAS_mean_ratio_for_flight: 3.85 :Flight_estimated_mean_cutoff_rigidity (Rc in units of GV): 2.39 :Flight_estimated_mean_Quality_factor_for_range_of_cutoff_rigidities (Q_SET): 2.03 :Flight_estimated_median_Quality_factor_for_range_of_cutoff_rigidities (median Q_SET): 2.18 at cruise altitude (0.900000 x maximum altitude) :Flight_estimated_standard_deviation_Quality_factor_for_range_of_cutoff_rigidities (1-sigma Q_SET): 0.00 at cruise altitude (0.900000 x maximum altitude) :NAIRAS_ARMAS_Pearson_correlation_coefficient: 0.00000 :ARMAS_NAIRAS_flight_ratio: 3.8519744 :ARMAS_NAIRAS_cruise_ratio: 3.8519744 :ARMAS_NAIRAS_ratio_magnitude: 3.8519744 :ARMAS_NAIRAS_ratio_magnitude_change: Inf : :Uncertainty in components ************************** :L0_RMS_Tel_a1: Mazur et al., 2011 Teledyne published RMS 1-sigma uncertainty is +/- 20% :L1_RMS_ARMAS1: Measured median RMS 1-sigma L1 total absorbed dose (Si) uncertainty using paired instruments on same flights = +/- 2% :L2_RMS_ARMAS2: Measured median RMS 1-sigma L2 absorbed dose rate (Si) uncertainty using paired instruments on same flights = +/- 1% :L2_RMS_S-T_a1: Estimated RMS 1-sigma conversion between Si-Ti uncertainty is +/- 0% :L2_RMS_DRt_a2: Estimated RMS 1-sigma dose rate calculation uncertainty is +/- 5% :L3_RMS_KRc_a3: Estimated RMS 1-sigma uncertainty for Rc model with Kp is +/- 10% :L3_RMS_Bur_a4: Estimated RMS 1-sigma Burda polar to equatorial uncertainty is +/- 4% :L3_RMS_Pol_a5: Estimated RMS 1-sigma SET polynomial fit to Burda uncertainty is +/- 5% :L3_RMS_H10_a6: Estimated RMS 1-sigma conversion to normalized ambient dose equivalent uncertainty is +/- 10% :L3_RMS_RDX_a7: Estimated RMS 1-sigma RaD-X conversion between Liulin and TEPC uncertainty is +/- 2% : #Uncertainty in derived dosimetric values *********** :Q_SET_RMS_tot: Estimated RMS 1-sigma Q_SET uncertainty is +/- 12% :L2RMS_Si: Estimated total RMS 1-sigma uncertainty in dD(Si)/dt L2 is +/- 21% :L2RMS_Ti: Estimated total RMS 1-sigma uncertainty in dD(Ti)/dt L2 is +/- 21% :L3RMS_dH: Estimated total RMS 1-sigma uncertainty in dH/dt L3 is +/- 24% :L3RMS_10: Estimated total RMS 1-sigma uncertainty in dH*(10)/dt L3 is +/- 26% :L4RMS_dE: Estimated total RMS 1-sigma uncertainty in dE/dt L4 is +/- 26% :NARS_RMS: Estimated flight RMS 1-sigma Rc-dependent NAIRAS v1 uncertainty is +/- 10% # #Program information ******************************** #ARMAS_manufacturer: Space Environment Technologies #Manufacturer_Contact: spacenvironment@spacenvironment.net #ARMAS_owner: Space Environment Technologies #Instrument_info: ARMAS absorbed dose in silicon detector #Data_distribution: The ARMAS data in this file is distributed by Space Environment Technologies #Data_use: These ARMAS data are available for public use with acknowledgement of SET/ARMAS as the source # #Header information ********************************* #year_mo_dy_hr_mn_sc: year month day hour minute second #LCT: local clock time without daylight savings time, with solar obliquity angle, and with equation of time applied #MLT: Magnetic Local Time from AACGMv2 #Julian_date: Julian date #latitude: latitude (degrees N) #longitude: longitude (degrees E) #altitude: ADSB altitude (meters) [NOTE: GNSS is GPS altitude from ARMAS FM; ADSB is uncorrected barometeric pressure altitude from FlightAware ADS-B postflight reports.] #AL1DsSi: Level 1 ARMAS accumulated absorbed dose, D(Si) (micro_Gy) #AL1DsTi: Level 1 ARMAS accumulated absorbed dose, D(Ti) (micro_Gy) #AL2DrSi: Level 2 ARMAS measured absorbed dose rate, dD(Si)/dt (micro_Gy/h) #NL2DrSi: Level 2 NAIRAS v1 modeled absorbed dose rate, dD(Si)/dt (micro_Gy/h) #AL2DrTi: Level 2 ARMAS derived absorbed dose rate, dD(Ti)/dt (micro_Gy/h) #AL3dHdt: Level 3 ARMAS derived dose equivalent rate, dH/dt (micro_Sv/h) (dD/dt x Q_SET(Rc) x C1) #NL3dHdt: Level 3 NAIRAS estimated dose equivalent rate, dH/dt (micro_Sv/h) (dD/dt x Q_NAIRAS x C1) using same scaling factors as ARMAS #AL3dH10: Level 3 ARMAS derived ambient dose equivalent rate, dH*(10)/dt (micro_Sv/h) (dD/dt x Q_SET(Rc) x C2) #NL3dH1e: Level 3 NAIRAS estimated ambient dose equivalent rate, dH*(10)/dt (micro_Sv/h) (dD/dt x Q_NAIRAS x C2) using same scaling factors as ARMAS #NL3dH1m: Level 3 NAIRAS v1 modeled ambient dose equivalent rate, dH*(10)/dt (micro_Sv/h) (dD/dt x Q_NAIRAS x C2) #AL4dEdt: Level 4 ARMAS derived effective dose rate, dE/dt (micro_Sv/h) (dH*(10)/dt x Wt_sum x Fr x Wr(z,Gv,species)) [Note: dEdt calculated in 1 km steps starting at 1 km] #NL4dEdt: Level 4 NAIRAS v1 modeled effective dose rate, dE/dt (micro_Sv/h) #L4LdEdtA: Level 4 ARMAS historical statistical effective dose rate, dE/dt, as a function of L-shell 1.5-10, altitude >8 km, and NOAA G-scale 0-3 (micro_Sv/h) #L4LdEdtN: Level 4 NAIRAS modeled climatological effective dose rate, dE/dt, as a function of L-shell 1.5-10, altitude >8 km, and NOAA G-scale 0-3 (micro_Sv/h) #L4dEdtvN: Level 4 ARMAS modeled derived effective dose rate ratio to NAIRAS modeled effective dose rate (AL4dEdt/NL4dEdt) #E/H: Effective dose (E) ratioed with dose equivalent (H) #RMS: RMS error between ARMAS and NAIRAS for Effective dose rate #PE: prediction efficiency between ARMAS and NAIRAS for Effective dose rate #Rc: cutoff rigidity (GV) at location [courtesy of SSSRC] #Q: (unitless) estimated quality factor at location #gvx1: (unitless) estimated fraction of heavy ions at location #gvx2: (unitless) estimated fraction of alphas at location #gvx3: (unitless) estimated fraction of neutrons at location #gvx4: (unitless) estimated fraction of protons at location #gvx5: (unitless) estimated fraction of photons at location #gvx6: (unitless) estimated fraction of electrons at location #gvx7: (unitless) estimated fraction of pions/muons at location #mag_lat: geomagnetic latitude at location (degrees N) (2015) #mlat_AC: surface geomagnetic latitude at location (degrees N) (AACGMv2) #mag_lon: geomagnetic longitude at location (degrees E) (2015) #mlon_AC: surface geomagnetic longitude at location (degrees E) (AACGMv2) #Lshell: L (unitless) at location #P01: GOES >1 Mev protons (Protons/cm2-s-sr) at location #E06: GOES >0.6 Mev electrons (Electrons/cm2-s-sr) at location #Dst: disturbance storm time index (nT) hourly interpolated #D: D-index of effective dose rate (total: GCR, solar, TP, TGF) [Meier and Matthia, J. Space Weather Space Clim. 4 (2014) A13, 2014] #fl: quality flags (unitless) for each parameter (0 = verified data; 1 = unreliable dose rate; 2 = Rc undetermined; 3 = Q undetermined) #comments: ancillary comments including FM unit number, aircraft identifier, vehicle Tail#, Bluetooth UUID number, probable EMI identification # #year_mo_dy_hr_mn_sc LCT MLT Julian_date latitude longitude altitude AL1DsSi AL1DsTi AL2DrSi NL2DrSi AL2DrTi AL3dHdt NL3dHdt AL3dH10 NL3dH1e NL3dH1m AL4dEdt NL4dEdt L4LdEdtA L4LdEdtN L4dEdtvN E/H*(10) RMS PE Rc Q gvx1 gvx2 gvx3 gvx4 gvx5 gvx6 gvx7 mag_lat mlat_AC mag_lon mlon_AC Lshell P01 E06 Dst D fl Asset VehID TailID other comments #end_metadata 2019 10 6 23 59 10 0-18: 0.000 2458763.4994213 -99.90 -999.90 0.00 0.000 0.000 0.840 0.000 0.937 1.697 2.471 2.749 2.471 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.00 2.2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 -71.06 -0.00 -14.06 -0.00 9.49 2.69E+00 2.46E+04 -10.00 0 0 FM7006 30-L LANSCE ACA2610F6B88 valid_data 2019 10 7 0 0 10 16:42 0.000 2458763.5001157 35.87 -106.26 2123.87 0.000 0.000 0.840 0.114 0.937 1.697 2.471 2.749 2.471 0.738 2.692 0.699 0.000 0.000 3.852 0.979 1.151 1.000 3.19 2.0 0.0000 0.0000 0.3760 0.2561 0.0855 0.0711 0.2112 43.65 0.00 -38.37 -0.00 1.91 2.65E+00 2.46E+04 -10.00 0 0 FM7006 30-L LANSCE ACA2610F6B88 valid_data 2019 10 7 0 1 10 16:43 0.000 2458763.5008102 35.87 -106.26 2123.87 0.093 0.125 0.840 0.114 0.937 1.697 2.471 2.749 2.471 0.738 2.692 0.699 0.000 0.000 3.852 0.979 1.151 -999.000 3.19 2.0 0.0000 0.0000 0.3760 0.2561 0.0855 0.0711 0.2112 43.65 0.00 -38.37 -0.00 1.91 2.61E+00 2.46E+04 -10.00 0 0 FM7006 30-L LANSCE ACA2610F6B88 valid_data 2019 10 7 0 2 10 16:44 0.000 2458763.5015046 35.87 -106.26 2123.87 0.140 0.187 0.840 0.114 0.937 1.697 2.471 2.749 2.471 0.738 2.692 0.699 0.000 0.000 3.852 0.979 1.151 -999.000 3.19 2.0 0.0000 0.0000 0.3760 0.2561 0.0855 0.0711 0.2112 43.65 0.00 -38.37 -0.00 1.91 2.56E+00 2.46E+04 -10.00 0 0 FM7006 30-L LANSCE ACA2610F6B88 valid_data