Mon, 28 Jan 2019 11:31:29 +0100
added About the effects of polarising optics_4b_1L_corr.pdf
volker@28 | 1 | From folder C:\Users\volker\Documents\atmospheric_lidar_ghk |
volker@28 | 2 | Running prog lidar_correction_ghk_0.9.8d_Py3.7.py |
volker@28 | 3 | Version 0.9.8d |
volker@28 | 4 | Reading input file optic_input_example_lidar.py |
volker@28 | 5 | for Lidar system: xx , example lidar |
volker@28 | 6 | --- Input parameters: value ±error / ±steps ---------------------- |
volker@28 | 7 | Laser: DOLP = 0.9950± 0.0050/ 1; Rotation alpha = 0.0000± 2.0000/ 1 |
volker@28 | 8 | Diatt., Tunpol, Retard., Rotation (deg) |
volker@28 | 9 | Emitter 0.0000± 0.1000/ 0, 1.0000, 0±180/ 0, 0.0000± 1.0000/ 0 |
volker@28 | 10 | Receiver 0.0000± 0.2000/ 1, 1.0000, 0±180/ 0, 0.0000± 0.1000/ 0 |
volker@28 | 11 | Calibrator 0.9998± 0.0002/ 1, 0.4000, 0±180/ 3, 0.0000± 0.1000/ 0 |
volker@28 | 12 | --- Pol.-filter --- |
volker@28 | 13 | ERT, RotT : 0.0010± 0.0010/ 0, 0.0000± 1.0000/ 0 |
volker@28 | 14 | ERR, RotR : 0.0010± 0.0010/ 1, 90.0000± 1.0000/ 1 |
volker@28 | 15 | --- PBS --- |
volker@28 | 16 | TP,TS : 0.9500± 0.0100/ 1, 0.0050± 0.0010/ 1 |
volker@28 | 17 | RP,RS : 0.0500± 0.0000/ 0, 0.9950± 0.0000/ 0 |
volker@28 | 18 | DT,TT,DR,TR,Y : 0.9895, 0.4775, -0.9043, 0.5225, 1 |
volker@28 | 19 | --- Combined PBS + Pol.-filter --- |
volker@28 | 20 | DT,TT,DR,TR : 1.0000, 0.4750, -0.9999, 0.4975 |
volker@28 | 21 | LDRCal during calibration in calibration range: 0.200± 0.150/ 1 |
volker@28 | 22 | --- Additional ND filter attenuation (transmission) during the calibration --- |
volker@28 | 23 | TCalT,TCalR : 1.0000± 0.0100/ 0, 0.1000± 0.0010/ 1 |
volker@28 | 24 | |
volker@28 | 25 | Rotation Error Epsilon For Normal Measurements = False |
volker@28 | 26 | linear polarizer before receiver |
volker@28 | 27 | Parallel signal detected in transmitted channel |
volker@28 | 28 | RS_RP_depend_on_TS_TP = True |
volker@28 | 29 | |
volker@28 | 30 | IoutTp, IoutTm, IoutRp, IoutRm, It , Ir , dIoutTp, dIoutTm, dIoutRp, dIoutRm, dIt, dIr |
volker@28 | 31 | =========================================================================================================== |
volker@28 | 32 | GR , GT , HR , HT , K(0.004), K(0.02), K(0.1) , K(0.2) , K(0.3) , K(0.45) |
volker@28 | 33 | 1.00000, 1.00000,-0.99490, 0.99499, 0.96129, 0.96248, 0.96796, 0.97382, 0.97880, 0.98502 |
volker@28 | 34 | =========================================================================================================== |
volker@28 | 35 | |
volker@28 | 36 | Errors from neglecting GHK corrections and/or calibration: |
volker@28 | 37 | LDRtrue, LDRunCorr,1/LDRunCorr, LDRsimx, 1/LDRsimx, LDRCorr |
volker@28 | 38 | 0.00400, 0.00673, 148.53471, 0.00687, 145.62357, 0.00400 |
volker@28 | 39 | 0.02000, 0.02316, 43.17641, 0.02362, 42.33019, 0.02000 |
volker@28 | 40 | 0.10000, 0.10528, 9.49823, 0.10739, 9.31207, 0.10000 |
volker@28 | 41 | 0.30000, 0.31044, 3.22120, 0.31665, 3.15806, 0.30000 |
volker@28 | 42 | 0.45000, 0.46418, 2.15434, 0.47346, 2.11212, 0.45000 |
volker@28 | 43 | LDRsimx = LDR of the nominal system directly from measured signals without calibration and GHK-corrections |
volker@28 | 44 | LDRunCorr = LDR of the nominal system directly from measured signals with calibration but without GHK-corrections; electronic amplifications = 1 assumed |
volker@28 | 45 | LDRCorr = LDR calibrated and GHK-corrected |
volker@28 | 46 | |
volker@28 | 47 | Errors from signal noise: |
volker@28 | 48 | Signal counts: NCalT, NCalR, NILfac, nNCal, nNI = 50000, 50000, 2, 0, 0 |