%***************************************************************************************************************** % RADIATE format v 2.0 % % This file contains ray-tracing results. % % Created by: Armin Hofmeister, Technische Universität Wien % % Created with RADIATE program developed by Armin Hofmeister % Version: 2.0_Fortran % Subversion: global_limit % % File created on: % 2018-07-23 | 00:37:01.349 % % Data content: % Ray-tracing results for session: % 84JUN20XU##### % Total number of observations: % 10 % % Chosen ray-tracing options: % Assignment of observations to the epochs of the numerical weather model: % one_epoch_per_obs % Method of vertical interpolation (horizontal treatment): % profilewise % Method of numerical weather model usage: % Full grid information used % Ray-tracing approach: % pwl % Station coordinate catalogue-file: % vlbi.ell % % Numerical weather model used: % Epoch 1: 1984062012 | Grib-file resolution: res_lat= 1.000 deg, res_lon= 1.000 deg % % Origin and use of the observational data: % Observational data (scan number, observation time, station, azimuth, elevation, source) % as well as temperature-, pressure- and water vapour pressure-values provided in this file % originate from the AzEl-file created by VieVS. % The reported temperature-, pressure- and water vapour pressure-values from the numerical % weather model at the station positions have been determined from the numerical weather % model by interpolation within the ray-tracing application. % Ray-tracing used temperature-, pressure- and water vapour-values only from the numerical % weather model. % % % Data columns: % 1 .... scannumber % 2 .... mjd % 3 .... year % 4 .... day of year % 5 .... hour % 6 .... min % 7 .... sec % 8 .... station % 9 .... azimuth in [rad] % 10 .... outgoing elevation angle (calculated, theoretical) in [rad] % 11 .... source % 12 .... temperature at station in [°C] % 13 .... pressure at station in [hPa] % 14 .... water vapour pressure at station in [hPa] % 15 .... zenith total delay in [m] % 16 .... zenith hydrostatic delay in [m] % 17 .... zenith wet delay in [m] % 18 .... slant total delay including geometric bending effect in [m] % 19 .... slant hydrostatic delay including geometric bending effect in [m] % 20 .... slant wet delay in [m] % 21 .... elevation angle at station in [rad] % 22 .... outgoing elevation angle from ray-tracing in [rad] % 23 .... geometric bending effect in [m] % 24 .... total mapping factor (includes treatment of geometric bending effect) [total_delay_along_the_path / total_zenith_delay] % 25 .... hydrostatic mapping factor (includes treatment of geometric bending effect) [hydrostatic_delay_along_the_path / hydrostatic_zenith_delay] % 26 .... wet mapping factor [wet_delay_along_the_path / wet_zenith_delay] % 27 .... temperature at the station position interpolated from the numerical weather model in [°C] % 28 .... pressure at the station position interpolated from the numerical weather model in [hPa] % 29 .... water vapour pressure at the station position interpolated from the numerical weather model in [hPa] %***************************************************************************************************************** % % % 1| 2| 3| 4| 5| 6| 7| 8| 9| 10| 11| 12| 13| 14| 15| 16| 17| 18| 19| 20| 21| 22| 23| 24| 25| 26| 27| 28| 29 % scan| mjd|year|doy| h| m| sec| station| azimuth [rad]| calc. elev. [rad]| source|T [°C]|p [hPa]|w[hPa]| ztd [m]| zhd [m]| zwd [m]| std [m]| shd [m]| swd [m]|e at st[rad]|e rtrd [rad]|bend. [m]| total mf| hydr. mf| wet mf|T [°C]|p [hPa]|w[hPa] % 1 45871.53148 1984 172 12 45 20.00 WESTFORD 1.840926641698019 0.620392719994416 0528+134 19.71 1005.24 4.12 2.3855 2.2864 0.0991 4.0936 3.9234 0.1702 0.6208487 0.6203927 0.0006 1.71603 1.71596 1.71771 17.48 1003.02 13.36 1 45871.53148 1984 172 12 45 20.00 WETTZELL 3.942602324674928 0.809872574252372 0528+134 23.57 952.51 12.97 2.2601 2.1609 0.0992 3.1165 2.9805 0.1360 0.8101530 0.8098726 0.0002 1.37893 1.37932 1.37058 22.68 948.61 10.81 2 45871.54120 1984 172 12 59 20.00 WESTFORD 2.717193555526050 1.309397256558422 0234+285 19.72 1005.24 4.11 2.3855 2.2864 0.0991 2.4692 2.3667 0.1025 1.3094846 1.3093973 0.0000 1.03509 1.03510 1.03489 17.48 1003.02 13.36 2 45871.54120 1984 172 12 59 20.00 WETTZELL 4.908257347851849 0.510626285365882 0234+285 23.61 952.46 13.04 2.2601 2.1609 0.0992 4.6054 4.4041 0.2013 0.5111504 0.5106262 0.0011 2.03771 2.03811 2.02903 22.68 948.61 10.81 3 45871.54745 1984 172 13 8 20.00 WESTFORD 6.278227329713708 1.027357383782860 0212+735 19.73 1005.24 4.11 2.3855 2.2864 0.0991 2.7857 2.6699 0.1158 1.0275546 1.0273574 0.0001 1.16773 1.16769 1.16874 17.48 1003.02 13.36 3 45871.54745 1984 172 13 8 20.00 WETTZELL 5.854058111083281 0.836691832755581 0212+735 23.63 952.43 13.08 2.2601 2.1609 0.0992 3.0414 2.9075 0.1339 0.8369576 0.8366918 0.0002 1.34571 1.34552 1.34982 22.68 948.61 10.81 4 45871.55301 1984 172 13 16 20.00 WESTFORD 1.325708900277754 0.896210763887509 0552+398 19.73 1005.24 4.11 2.3855 2.2864 0.0991 3.0521 2.9252 0.1268 0.8964718 0.8962108 0.0002 1.27942 1.27938 1.28022 17.48 1003.02 13.36 4 45871.55301 1984 172 13 16 20.00 WETTZELL 4.538093642418126 1.140927534081032 0552+398 23.65 952.40 13.11 2.2601 2.1609 0.0992 2.4854 2.3765 0.1088 1.1410627 1.1409275 0.0000 1.09967 1.09979 1.09706 22.68 948.61 10.81 5 45871.55926 1984 172 13 25 20.00 WESTFORD 1.995121002232821 0.741471206435916 0528+134 19.74 1005.24 4.11 2.3855 2.2864 0.0991 3.5271 3.3805 0.1465 0.7418274 0.7414712 0.0003 1.47853 1.47851 1.47908 17.48 1003.02 13.36 5 45871.55926 1984 172 13 25 20.00 WETTZELL 4.143352029908124 0.720072143772861 0528+134 23.68 952.38 13.14 2.2601 2.1609 0.0992 3.4208 3.2717 0.1491 0.7204077 0.7200721 0.0003 1.51356 1.51403 1.50319 22.68 948.61 10.81