1 | ! (c) British Crown Copyright 2008, the Met Office. |
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2 | ! All rights reserved. |
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3 | ! |
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4 | ! Redistribution and use in source and binary forms, with or without modification, are permitted |
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5 | ! provided that the following conditions are met: |
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6 | ! |
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7 | ! * Redistributions of source code must retain the above copyright notice, this list |
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8 | ! of conditions and the following disclaimer. |
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9 | ! * Redistributions in binary form must reproduce the above copyright notice, this list |
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10 | ! of conditions and the following disclaimer in the documentation and/or other materials |
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11 | ! provided with the distribution. |
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12 | ! * Neither the name of the Met Office nor the names of its contributors may be used |
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13 | ! to endorse or promote products derived from this software without specific prior written |
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14 | ! permission. |
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15 | ! |
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16 | ! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR |
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17 | ! IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND |
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18 | ! FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR |
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19 | ! CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
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20 | ! DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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21 | ! DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER |
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22 | ! IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT |
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23 | ! OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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24 | |
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25 | MODULE MOD_COSP_RADAR |
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26 | USE MOD_COSP_CONSTANTS |
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27 | USE MOD_COSP_TYPES |
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28 | use radar_simulator_types |
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29 | use array_lib |
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30 | use atmos_lib |
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31 | use format_input |
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32 | IMPLICIT NONE |
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33 | |
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34 | INTERFACE |
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35 | subroutine radar_simulator(freq,k2,do_ray,use_gas_abs,use_mie_table,mt, & |
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36 | nhclass,hp,nprof,ngate,nsizes,D,hgt_matrix,hm_matrix,re_matrix,p_matrix,t_matrix, & |
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37 | rh_matrix,Ze_non,Ze_ray,h_atten_to_vol,g_atten_to_vol,dBZe, & |
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38 | g_to_vol_in,g_to_vol_out) |
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39 | |
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40 | use m_mrgrnk |
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41 | use array_lib |
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42 | use math_lib |
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43 | use optics_lib |
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44 | use radar_simulator_types |
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45 | implicit none |
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46 | ! ----- INPUTS ----- |
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47 | type(mie), intent(in) :: mt |
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48 | type(class_param) :: hp |
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49 | real*8, intent(in) :: freq,k2 |
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50 | integer, intent(in) :: do_ray,use_gas_abs,use_mie_table, & |
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51 | nhclass,nprof,ngate,nsizes |
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52 | real*8, dimension(nsizes), intent(in) :: D |
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53 | real*8, dimension(nprof,ngate), intent(in) :: hgt_matrix, p_matrix, & |
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54 | t_matrix,rh_matrix |
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55 | real*8, dimension(nhclass,nprof,ngate), intent(in) :: hm_matrix |
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56 | real*8, dimension(nhclass,nprof,ngate), intent(inout) :: re_matrix |
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57 | ! ----- OUTPUTS ----- |
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58 | real*8, dimension(nprof,ngate), intent(out) :: Ze_non,Ze_ray, & |
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59 | g_atten_to_vol,dBZe,h_atten_to_vol |
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60 | ! ----- OPTIONAL ----- |
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61 | real*8, optional, dimension(ngate,nprof) :: & |
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62 | g_to_vol_in,g_to_vol_out |
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63 | end subroutine radar_simulator |
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64 | END INTERFACE |
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65 | |
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66 | CONTAINS |
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67 | |
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68 | !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
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69 | !------------------- SUBROUTINE COSP_RADAR ------------------------ |
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70 | !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
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71 | SUBROUTINE COSP_RADAR(gbx,sgx,sghydro,z) |
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72 | IMPLICIT NONE |
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73 | |
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74 | ! Arguments |
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75 | type(cosp_gridbox),intent(in) :: gbx ! Gridbox info |
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76 | type(cosp_subgrid),intent(in) :: sgx ! Subgrid info |
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77 | type(cosp_sghydro),intent(in) :: sghydro ! Subgrid info for hydrometeors |
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78 | type(cosp_sgradar),intent(inout) :: z ! Output from simulator, subgrid |
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79 | |
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80 | ! Local variables |
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81 | integer :: & |
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82 | nsizes ! num of discrete drop sizes |
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83 | |
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84 | real*8 :: & |
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85 | freq, & ! radar frequency (GHz) |
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86 | k2 ! |K|^2, -1=use frequency dependent default |
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87 | |
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88 | real*8, dimension(:,:), allocatable :: & |
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89 | g_to_vol ! integrated atten due to gases, r>v (dB) |
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90 | |
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91 | real*8, dimension(:,:), allocatable :: & |
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92 | Ze_non, & ! radar reflectivity withOUT attenuation (dBZ) |
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93 | Ze_ray, & ! Rayleigh reflectivity (dBZ) |
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94 | h_atten_to_vol, & ! attenuation by hydromets, radar to vol (dB) |
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95 | g_atten_to_vol, & ! gaseous atteunation, radar to vol (dB) |
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96 | dBZe, & ! effective radar reflectivity factor (dBZ) |
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97 | hgt_matrix, & ! height of hydrometeors (km) |
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98 | t_matrix, & !temperature (k) |
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99 | p_matrix, & !pressure (hPa) |
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100 | rh_matrix !relative humidity (%) |
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101 | |
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102 | real*8, dimension(:,:,:), allocatable :: & |
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103 | hm_matrix, & ! hydrometeor mixing ratio (g kg^-1) |
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104 | re_matrix |
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105 | |
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106 | integer, parameter :: one = 1 |
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107 | logical :: hgt_reversed |
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108 | integer :: pr,i,j,k,unt |
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109 | |
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110 | ! ----- main program settings ------ |
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111 | |
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112 | freq = gbx%radar_freq |
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113 | k2 = gbx%k2 |
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114 | |
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115 | ! |
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116 | ! note: intitialization section that was here has been relocated to SUBROUTINE CONSTRUCT_COSP_GRIDBOX by roj, Feb 2008 |
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117 | ! |
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118 | mt_ttl=gbx%mt_ttl ! these variables really should be moved into the mt structure rather than kept as global arrays. |
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119 | mt_tti=gbx%mt_tti |
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120 | |
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121 | ! Inputs to Quickbeam |
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122 | allocate(hgt_matrix(gbx%Npoints,gbx%Nlevels),p_matrix(gbx%Npoints,gbx%Nlevels), & |
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123 | t_matrix(gbx%Npoints,gbx%Nlevels),rh_matrix(gbx%Npoints,gbx%Nlevels)) |
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124 | allocate(hm_matrix(gbx%Nhydro,gbx%Npoints,gbx%Nlevels)) |
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125 | allocate(re_matrix(gbx%Nhydro,gbx%Npoints,gbx%Nlevels)) |
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126 | |
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127 | ! Outputs from Quickbeam |
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128 | allocate(Ze_non(gbx%Npoints,gbx%Nlevels)) |
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129 | allocate(Ze_ray(gbx%Npoints,gbx%Nlevels)) |
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130 | allocate(h_atten_to_vol(gbx%Npoints,gbx%Nlevels)) |
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131 | allocate(g_atten_to_vol(gbx%Npoints,gbx%Nlevels)) |
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132 | allocate(dBZe(gbx%Npoints,gbx%Nlevels)) |
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133 | |
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134 | ! Optional argument. It is computed and returned in the first call to |
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135 | ! radar_simulator, and passed as input in the rest |
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136 | allocate(g_to_vol(gbx%Nlevels,gbx%Npoints)) |
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137 | |
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138 | p_matrix = gbx%p/100.0 ! From Pa to hPa |
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139 | hgt_matrix = gbx%zlev/1000.0 ! From m to km |
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140 | t_matrix = gbx%T-273.15 ! From K to C |
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141 | rh_matrix = gbx%q |
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142 | re_matrix = 0.0 |
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143 | |
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144 | ! Quickbeam assumes the first row is closest to the radar |
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145 | call order_data(hgt_matrix,hm_matrix,p_matrix,t_matrix, & |
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146 | rh_matrix,gbx%surface_radar,hgt_reversed) |
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147 | |
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148 | ! ----- loop over subcolumns ----- |
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149 | do pr=1,sgx%Ncolumns |
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150 | ! atmospheric profiles are the same within the same gridbox |
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151 | ! only hydrometeor profiles will be different |
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152 | if (hgt_reversed) then |
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153 | do i=1,gbx%Nhydro |
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154 | hm_matrix(i,:,:) = sghydro%mr_hydro(:,pr,gbx%Nlevels:1:-1,i)*1000.0 ! Units from kg/kg to g/kg |
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155 | if (gbx%use_reff) then |
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156 | re_matrix(i,:,:) = sghydro%Reff(:,pr,gbx%Nlevels:1:-1,i)*1.e6 ! Units from m to micron |
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157 | endif |
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158 | enddo |
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159 | else |
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160 | do i=1,gbx%Nhydro |
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161 | hm_matrix(i,:,:) = sghydro%mr_hydro(:,pr,:,i)*1000.0 ! Units from kg/kg to g/kg |
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162 | if (gbx%use_reff) then |
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163 | re_matrix(i,:,:) = sghydro%Reff(:,pr,:,i)*1.e6 ! Units from m to micron |
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164 | endif |
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165 | enddo |
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166 | endif |
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167 | |
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168 | ! ----- call radar simulator ----- |
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169 | if (pr == 1) then ! Compute gaseous attenuation for all profiles |
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170 | j=0 |
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171 | if (gbx%Npoints == 53) then |
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172 | unt=10 |
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173 | j=1 |
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174 | endif |
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175 | if (gbx%Npoints == 153) then |
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176 | unt=11 |
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177 | j=101 |
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178 | endif |
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179 | call radar_simulator(freq,k2,gbx%do_ray,gbx%use_gas_abs,gbx%use_mie_tables,gbx%mt, & ! v0.2: mt changed to gbx%mt, roj |
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180 | gbx%Nhydro,gbx%hp,gbx%Npoints,gbx%Nlevels,gbx%nsizes,gbx%D, & ! v0.2: hp->gbx%hp, D->gbx%d, nsizes->gbx%nsizes, roj |
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181 | hgt_matrix,hm_matrix,re_matrix,p_matrix,t_matrix,rh_matrix, & |
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182 | Ze_non,Ze_ray,h_atten_to_vol,g_atten_to_vol,dBZe,g_to_vol_out=g_to_vol) |
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183 | else ! Use gaseous atteunuation for pr = 1 |
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184 | call radar_simulator(freq,k2,gbx%do_ray,gbx%use_gas_abs,gbx%use_mie_tables,gbx%mt, & |
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185 | gbx%Nhydro,gbx%hp,gbx%Npoints,gbx%Nlevels,gbx%nsizes,gbx%D, & |
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186 | hgt_matrix,hm_matrix,re_matrix,p_matrix,t_matrix,rh_matrix, & |
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187 | Ze_non,Ze_ray,h_atten_to_vol,g_atten_to_vol,dBZe,g_to_vol_in=g_to_vol) |
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188 | endif |
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189 | ! ----- BEGIN output section ----- |
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190 | ! spaceborne radar : from TOA to SURFACE |
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191 | if (gbx%surface_radar == 1) then |
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192 | z%Ze_tot(:,pr,:)=dBZe(:,:) |
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193 | else if (gbx%surface_radar == 0) then ! Spaceborne |
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194 | z%Ze_tot(:,pr,:)=dBZe(:,gbx%Nlevels:1:-1) |
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195 | endif |
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196 | |
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197 | enddo !pr |
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198 | |
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199 | ! Change undefined value to one defined in COSP |
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200 | where (z%Ze_tot == -999.0) z%Ze_tot = R_UNDEF |
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201 | |
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202 | deallocate(hgt_matrix,p_matrix,t_matrix,rh_matrix) |
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203 | deallocate(hm_matrix,re_matrix, & |
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204 | Ze_non,Ze_ray,h_atten_to_vol,g_atten_to_vol,dBZe) |
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205 | deallocate(g_to_vol) |
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206 | |
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207 | ! deallocate(mt_ttl,mt_tti) !v0.2: roj feb 2008 can not be done here, |
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208 | !these variables now part of gbx structure and dealocated later |
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209 | |
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210 | END SUBROUTINE COSP_RADAR |
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211 | |
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212 | END MODULE MOD_COSP_RADAR |
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