Subwavelength Far Field Imaging of Nanoparticles with Parametric Indirect Microscopic Imaging

In this work, we propose a polarization modulation technique that employs a reconstruction method to map the subwavelength scattering field distributions in the form of polarization parameters. The spatial signature of these indirect parameters delivers an extra scattering information that helps us to resolve scattering modes information on the sample under test. We apply this method to single and dimer spherical particles and we successfully resolve their spatial scattering distribution. In particular, we explore the subwavelength scattering modes information provided by the spatial signature of these polarization parameters. The experimental results have been verified by Mie theory and finite difference time domain (FDTD) method.