NetCDF Header

Model dataset for Morrison et al. (2020) "Comparing growth rates of moist and dry convective thermals" submitted to JAS

netcdf file:///data/4625a1b4-5269-43de-8035-17da13539e54/moist_axi_runs.test42.cm1out.nc-7ee11cba-c32f-446e-9aae-93566265b03c {
  dimensions:
    one = 1;
    time = UNLIMITED;   // (121 currently)
    ni = 500;
    nip1 = 501;
    nj = 1;
    njp1 = 2;
    nk = 424;
    nkp1 = 425;
  variables:
    float ztop(one=1);
      :units = "km";

    float time(time=121);
      :long_name = "time since beginning of simulation";
      :units = "seconds";

    float xh(ni=500);
      :long_name = "west-east location of scalar grid points";
      :units = "km";

    float xf(nip1=501);
      :long_name = "west-east location of staggered u grid points";
      :units = "km";

    float yh(nj=1);
      :long_name = "south-north location of scalar grid points";
      :units = "km";

    float yf(njp1=2);
      :long_name = "south-north location of staggered v grid points";
      :units = "km";

    float z(nk=424);
      :long_name = "nominal height of scalar grid points";
      :units = "km";

    float zf(nkp1=425);
      :long_name = "nominal height of staggered w grid points";
      :units = "km";

    float sps(time=121, nj=1, ni=500);
      :long_name = "min pressure at lowest level";
      :units = "Pa";

    float sus(time=121, nj=1, ni=500);
      :long_name = "max w at 5 km AGL";
      :units = "m/s";

    float shs(time=121, nj=1, ni=500);
      :long_name = "max integrated updraft helicity";
      :units = "m2/s2";

    float cref(time=121, nj=1, ni=500);
      :long_name = "composite reflectivity (dBZ)";
      :units = "dBZ";

    float th(time=121, nk=424, nj=1, ni=500);
      :long_name = "potential temperature";
      :units = "K";

    float prs(time=121, nk=424, nj=1, ni=500);
      :long_name = "pressure";
      :units = "Pa";

    float rho(time=121, nk=424, nj=1, ni=500);
      :long_name = "density of dry air";
      :units = "kg/m^3";

    float pt1(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio of passive tracer";
      :units = "kg/kg";

    float pt2(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio of passive tracer";
      :units = "kg/kg";

    float qv(time=121, nk=424, nj=1, ni=500);
      :long_name = "water vapor mixing ratio";
      :units = "kg/kg";

    float qc(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio";
      :units = "kg/kg";

    float qr(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio";
      :units = "kg/kg";

    float qi(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio";
      :units = "kg/kg";

    float qs(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio";
      :units = "kg/kg";

    float qg(time=121, nk=424, nj=1, ni=500);
      :long_name = "mixing ratio";
      :units = "kg/kg";

    float nci(time=121, nk=424, nj=1, ni=500);
      :long_name = "number concentration";
      :units = "kg^{-1}";

    float ncs(time=121, nk=424, nj=1, ni=500);
      :long_name = "number concentration";
      :units = "kg^{-1}";

    float ncr(time=121, nk=424, nj=1, ni=500);
      :long_name = "number concentration";
      :units = "kg^{-1}";

    float ncg(time=121, nk=424, nj=1, ni=500);
      :long_name = "number concentration";
      :units = "kg^{-1}";

    float dbz(time=121, nk=424, nj=1, ni=500);
      :long_name = "reflectivity";
      :units = "dBZ";

    float buoyancy(time=121, nk=424, nj=1, ni=500);
      :long_name = "buoyancy";
      :units = "m s^-2";

    float uinterp(time=121, nk=424, nj=1, ni=500);
      :long_name = "velocity in x-direction, interpolated to scalar points";
      :units = "m/s";

    float winterp(time=121, nk=424, nj=1, ni=500);
      :long_name = "velocity in z-direction, interpolated to scalar points";
      :units = "m/s";

  // global attributes:
  :x_units = "km";
  :x_label = "x";
  :y_units = "km";
  :y_label = "y";
  :z_units = "km";
  :z_label = "z";
  :nx = 500; // int
  :ny = 1; // int
  :nz = 424; // int
  :imoist = 1; // int
  :iturb = 3; // int
  :tconfig = 2; // int
  :bcturbs = 1; // int
  :ptype = 5; // int
  :wbc = 3; // int
  :ebc = 3; // int
  :sbc = 1; // int
  :nbc = 1; // int
  :bbc = 1; // int
  :tbc = 1; // int
  :iorigin = 1; // int
  :axisymm = 1; // int
  :iptra = 1; // int
  :npt = 2; // int
  :fcor = 0.0f; // float
  :radopt = 0; // int
  :dtrad = 300.0f; // float
  :ctrlat = 36.68f; // float
  :ctrlon = -98.35f; // float
  :year = 2009; // int
  :month = 5; // int
  :day = 15; // int
  :hour = 21; // int
  :minute = 38; // int
  :second = 0; // int
  :sfcmodel = 0; // int
  :oceanmodel = 0; // int
  :ipbl = 0; // int
  :iice = 1; // int
  :idm = 1; // int
  :idmplus = 0; // int
  :numq = 10; // int
  :nql1 = 2; // int
  :nql2 = 3; // int
  :nqs1 = 4; // int
  :nqs2 = 6; // int
  :nnc1 = 7; // int
  :nnc2 = 10; // int
  :nzl1 = 1; // int
  :nzl2 = 1; // int
  :nvl1 = 1; // int
  :nvl2 = 1; // int
  :c_m = 0.1f; // float
  :c_e1 = 0.20000169f; // float
  :c_e2 = 0.7869588f; // float
  :c_s = 0.17841241f; // float
  :cgs1 = 1.875f; // float
  :cgs2 = -1.25f; // float
  :cgs3 = 0.375f; // float
  :dgs1 = -2.0f; // float
  :dgs2 = 3.0f; // float
  :dgs3 = -1.0f; // float
  :cgt1 = 1.875f; // float
  :cgt2 = -1.25f; // float
  :cgt3 = 0.375f; // float
  :dgt1 = 2.0f; // float
  :dgt2 = -3.0f; // float
  :dgt3 = 1.0f; // float
  :history = "Sun May 24 20:33:32 2020: ncrcat cm1out_000001.nc cm1out_000002.nc cm1out_000003.nc cm1out_000004.nc cm1out_000005.nc cm1out_000006.nc cm1out_000007.nc cm1out_000008.nc cm1out_000009.nc cm1out_000010.nc cm1out_000011.nc cm1out_000012.nc cm1out_000013.nc cm1out_000014.nc cm1out_000015.nc cm1out_000016.nc cm1out_000017.nc cm1out_000018.nc cm1out_000019.nc cm1out_000020.nc cm1out_000021.nc cm1out_000022.nc cm1out_000023.nc cm1out_000024.nc cm1out_000025.nc cm1out_000026.nc cm1out_000027.nc cm1out_000028.nc cm1out_000029.nc cm1out_000030.nc cm1out_000031.nc cm1out_000032.nc cm1out_000033.nc cm1out_000034.nc cm1out_000035.nc cm1out_000036.nc cm1out_000037.nc cm1out_000038.nc cm1out_000039.nc cm1out_000040.nc cm1out_000041.nc cm1out_000042.nc cm1out_000043.nc cm1out_000044.nc cm1out_000045.nc cm1out_000046.nc cm1out_000047.nc cm1out_000048.nc cm1out_000049.nc cm1out_000050.nc cm1out_000051.nc cm1out_000052.nc cm1out_000053.nc cm1out_000054.nc cm1out_000055.nc cm1out_000056.nc cm1out_000057.nc cm1out_000058.nc cm1out_000059.nc cm1out_000060.nc cm1out_000061.nc cm1out_000062.nc cm1out_000063.nc cm1out_000064.nc cm1out_000065.nc cm1out_000066.nc cm1out_000067.nc cm1out_000068.nc cm1out_000069.nc cm1out_000070.nc cm1out_000071.nc cm1out_000072.nc cm1out_000073.nc cm1out_000074.nc cm1out_000075.nc cm1out_000076.nc cm1out_000077.nc cm1out_000078.nc cm1out_000079.nc cm1out_000080.nc cm1out_000081.nc cm1out_000082.nc cm1out_000083.nc cm1out_000084.nc cm1out_000085.nc cm1out_000086.nc cm1out_000087.nc cm1out_000088.nc cm1out_000089.nc cm1out_000090.nc cm1out_000091.nc cm1out_000092.nc cm1out_000093.nc cm1out_000094.nc cm1out_000095.nc cm1out_000096.nc cm1out_000097.nc cm1out_000098.nc cm1out_000099.nc cm1out_000100.nc cm1out_000101.nc cm1out_000102.nc cm1out_000103.nc cm1out_000104.nc cm1out_000105.nc cm1out_000106.nc cm1out_000107.nc cm1out_000108.nc cm1out_000109.nc cm1out_000110.nc cm1out_000111.nc cm1out_000112.nc cm1out_000113.nc cm1out_000114.nc cm1out_000115.nc cm1out_000116.nc cm1out_000117.nc cm1out_000118.nc cm1out_000119.nc cm1out_000120.nc cm1out_000121.nc moist_axi_runs.test42.cm1out.nc";
  :NCO = "netCDF Operators version 4.7.9 (Homepage = http://nco.sf.net, Code = http://github.com/nco/nco)";
}