%*****************************************************************************************************************
% 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:
%    2018-07-24 | 14:40:12.863
%
% Data content:
%    Ray-tracing results for session:
%        88JUL25XU#####
%    Total number of observations:
%        8
%
% 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: 1988072518 | 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 47367.74229 1988 207 17 48 54.00 WESTFORD    2.520188919539555    0.755259120218499 1055+018  22.70 1002.00  22.69    2.4858    2.2835    0.2023    3.6213    3.3270    0.2942    0.7556247    0.7552591    0.0003    1.45677    1.45701    1.45406  21.71 1001.97  18.89
     1 47367.74229 1988 207 17 48 54.00 WETTZELL    4.308146881979326    0.363478378934169 1055+018  20.85  951.70  12.16    2.2878    2.1650    0.1228    6.3851    6.0386    0.3464    0.3642741    0.3634783    0.0033    2.79093    2.78926    2.82047  19.88  950.15  12.40
     2 47367.74632 1988 207 17 54 42.00 WESTFORD    5.945022280563698    0.632095531770176 0212+735  22.70 1002.00  22.69    2.4858    2.2835    0.2023    4.1982    3.8550    0.3432    0.6325651    0.6320955    0.0007    1.68889    1.68823    1.69626  21.71 1001.97  18.89
     2 47367.74632 1988 207 17 54 42.00 WETTZELL    0.064342796860327    0.578558861132881 0212+735  20.84  951.70  12.17    2.2878    2.1650    0.1228    4.1713    3.9470    0.2243    0.5790250    0.5785588    0.0007    1.82331    1.82316    1.82608  19.88  950.15  12.40
     3 47367.75025 1988 207 18  0 22.00 WESTFORD    0.193028644179140    0.609617266851687 1803+784  22.70 1002.00  22.69    2.4858    2.2835    0.2023    4.3310    3.9772    0.3538    0.6101095    0.6096173    0.0008    1.74231    1.74174    1.74872  21.71 1001.97  18.89
     3 47367.75025 1988 207 18  0 22.00 WETTZELL    0.254358931407566    0.989163364023105 1803+784  20.84  951.70  12.17    2.2878    2.1650    0.1228    2.7363    2.5894    0.1469    0.9893641    0.9891634    0.0001    1.19606    1.19607    1.19601  19.88  950.15  12.40
     4 47367.75428 1988 207 18  6 10.00 WESTFORD    1.415376222145636    0.602034711977295 OQ208     22.70 1002.00  22.69    2.4858    2.2835    0.2023    4.3778    4.0216    0.3563    0.6025350    0.6020347    0.0008    1.76113    1.76117    1.76067  21.71 1001.97  18.89
     4 47367.75428 1988 207 18  6 10.00 WETTZELL    3.794979788954349    1.148855412228534 OQ208     20.83  951.70  12.17    2.2878    2.1650    0.1228    2.5073    2.3726    0.1347    1.1489925    1.1488554    0.0000    1.09595    1.09590    1.09682  19.88  950.15  12.40