Vortex light field microscopy: 3D spectral single-molecule imaging with a twist

Abstract

We introduce vortex light field microscopy (VLFM), a novel method for snapshot 3D spectral single-molecule localization microscopy. Inspired by the azimuthal phase profile of optical vortices, we place an azimuthally oriented prism array immediately after the microlens array in a Fourier light field microscope (FLFM). This innovative arrangement causes the axial position and spectral peak for a point emitter to be encoded in the radial and azimuthal displacement of point-spread-function (PSF) respectively. This enables simultaneous detection of 3D position and emission peak of individual fluorophores with 25 nm spatial precision and 3 nm spectral precision over a 4μm depth of field (DOF). We illustrate the spectral scalability of our method by performing four-color 3D single particle tracking of freely diffusing fluorescent beads, and two-color 3D dSTORM imaging of microtubules and mitochondria in fixed COS-7 cells, without the need for spectrally distinct fluorophores.