function nf2ff = ReadNF2FF(nf2ff) % function nf2ff = ReadNF2FF(nf2ff) % % internal function to read calculated nf2ff data, use CalcNF2FF to read % existing nf2ff data % % See also: CalcNF2FF, CreateNF2FFBox % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig, 2012 file = nf2ff.hdf5; hdf_mesh = ReadHDF5Mesh(file); nf2ff.r = double(hdf_mesh.lines{1}); nf2ff.theta = double(hdf_mesh.lines{2}); nf2ff.phi = double(hdf_mesh.lines{3}); % read attributes nf2ff.freq = ReadHDF5Attribute(file,'/nf2ff','Frequency'); nf2ff.Prad = ReadHDF5Attribute(file,'/nf2ff','Prad'); nf2ff.Dmax = ReadHDF5Attribute(file,'/nf2ff','Dmax'); if isOctave hdf = load( '-hdf5', file ); for n=1:numel(nf2ff.freq) nf2ff.E_theta{n} = double(hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_imag']) ); nf2ff.E_phi{n} = double(hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_imag']) ); nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2)); nf2ff.P_rad{n} = double(hdf.nf2ff.P_rad.FD.(['f' int2str(n-1)])); end else % matlab compatibility to older versions if verLessThan('matlab','7.12') % read data for n=1:numel(nf2ff.freq) nf2ff.E_theta{n} = double(hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag'])); nf2ff.E_phi{n} = double(hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag'])); nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2)); nf2ff.P_rad{n} = double(hdf5read(file,['/nf2ff/P_rad/FD/f' int2str(n-1)])); end else % read data for n=1:numel(nf2ff.freq) nf2ff.E_theta{n} = double(h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag'])); nf2ff.E_phi{n} = double(h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag'])); nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2)); nf2ff.P_rad{n} = double(h5read(file,['/nf2ff/P_rad/FD/f' int2str(n-1)])); end end end % Calculation of right- and left-handed circular polarization % adopted from % 2012, Tim Pegg % cleanup (if exist) nf2ff.E_cprh = []; nf2ff.E_cplh = []; % Setup vectors for converting to LHCP and RHCP polarization senses cosphi = cos(nf2ff.phi)'; sinphi = sin(nf2ff.phi)'; for f=1:numel(nf2ff.freq) for n = 1:numel(nf2ff.theta) nf2ff.E_cprh{f}(n,:) = (cosphi+1i*sinphi) .* (nf2ff.E_theta{f}(n,:)+1i*nf2ff.E_phi{f}(n,:))/sqrt(2); nf2ff.E_cplh{f}(n,:) = (cosphi-1i*sinphi) .* (nf2ff.E_theta{f}(n,:)-1i*nf2ff.E_phi{f}(n,:))/sqrt(2); end end