Abstract
We study the fundamental limit on the localization precision for a subwavelength scatterer embedded in a strongly scattering environment, using the external degrees of freedom provided by wavefront shaping. For a weakly scattering target, the localization precision improves with the local density of states at the target position. For a strongly scattering target, the localization precision depends on the dressed polarizability that includes the back action of the environment. This numerical study provides new insights for the control of the information content of scattered light by
wavefront shaping, with potential applications in sensing, imaging, and nanoscale engineering.
wavefront shaping, with potential applications in sensing, imaging, and nanoscale engineering.
Original language | English |
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Number of pages | 10 |
Journal | arXiv.org |
Issue number | 1909.02501 |
Publication status | Published - 2019 |