文件名称:Charged-Sphere
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Absorption and Scattering efficiencies of a charged dielectric nanoparticle.
The solution is based on Mie theory - The scattering coefficients are calculated. Then the absorption, scattering and extinction cross-sections are derived. All these parameters are a function of the excessive potential of the nanoparticles.
The solution is based on Mie theory - The scattering coefficients are calculated. Then the absorption, scattering and extinction cross-sections are derived. All these parameters are a function of the excessive potential of the nanoparticles.
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Charged Sphere - DONE
.....................\AngLegen.m
.....................\asymmetry.m
.....................\charge_cross.m
.....................\charge_scat_coef.m
.....................\charge_scat_coef_2.m
.....................\compare_coeff.m
.....................\complex_amp.m
.....................\constants.m
.....................\first_vs_all.m
.....................\force_xs.m
.....................\g.m
.....................\long_scan_xs.m
.....................\mie_charge.m
.....................\n_k_phis_xs_3D.m
.....................\n_k_xs_Qs_3D.m
.....................\phase_3d.m
.....................\phase_func.m
.....................\plasma_res.m
.....................\polar_state.m
.....................\pol_degree.m
.....................\Q_test.m
.....................\rad_force.m
.....................\RB1.m
.....................\RB2.m
.....................\scan_lams.m
.....................\scan_lams_vs_imm.m
.....................\scan_lams_vs_med.m
.....................\scan_lams_vs_rem.m
.....................\scan_ms.m
.....................\scan_phi_xs.m
.....................\scan_xs.m
.....................\scan_xs_order.m
.....................\ScatCoef.m
.....................\scat_coef_dipole.m
.....................\scat_matrix.m
.....................\tempo3d.m
.....................\vis_scan_x_phi.m
.....................\x_sections.m