Litcius/Paper detail

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

Boya Zhang, Sam Daly, Chengxi Zhu, Martin O. Lenz, Lucien E. Weiss, Lisa-Maria Needham, Ruby Peters, Steven F. Lee, Kevin O’Holleran

2024Optica12 citationsDOIOpen Access PDF

Abstract

3D single-molecule imaging reveals nanoscale structures in cell volumes but is limited by the need for spectrally distinct fluorophores. We address this limitation with vortex light field microscopy (VLFM), a 3D spectral single-molecule localization technique with 25 nm spatial and 3 nm spectral precision over a 4 µm depth of field. By modifying our previous single-molecule light field microscope with an azimuthally oriented prism array, we generated spectral disparity orthogonal to axial disparity, enabling simultaneous spatial and spectral localization on a single detector. We demonstrate VLFM with four-color 3D single-particle tracking and two-color 3D dSTORM imaging in fixed cells, successfully identifying dyes with spectral peaks just 15 nm apart. This shows VLFM’s potential for enhancing spatial biology workflows requiring highly multiplexed imaging.

Topics & Concepts

TwistMicroscopyVortexDark field microscopyPhysicsMaterials scienceOpticsMolecular physicsGeometryMechanicsMathematicsNear-Field Optical MicroscopyCold Atom Physics and Bose-Einstein CondensatesOrbital Angular Momentum in Optics