TY - JOUR AU1 - Leitner, Raimund AU2 - Kenda, Andreas AU3 - Tortschanoff, Andreas AB - A light field camera acquires the intensity and direction of rays from a scene providing a 4D representation L(x,y,u,v) called the light field. The acquired light field allows to virtually change view point and selectively re-focus regions algorithmically, an important feature for many applications in imaging and microscopy. The combination with hyperspectral imaging provides the additional advantage that small objects (beads, cells, nuclei) can be categorised using their spectroscopic signatures. Using an inverse fluorescence microscope, a LCTF tuneable filter and a light field setup as a test-bed, fluorescence-marked beads have been imaged and reconstructed into a 4D hyper-spectral image cube LHSI(x,y,z,λ). The results demonstrate the advantages of the approach for fluorescence microscopy providing extended depth of focus (DoF) and the fidelity of hyper-spectral imaging. TI - Hyperspectral light field imaging JF - Proceedings of SPIE DO - 10.1117/12.2179463 DA - 2015-05-05 UR - https://www.deepdyve.com/lp/spie/hyperspectral-light-field-imaging-rgwReOzT3e SP - 950605 EP - 950605-8 VL - 9506 IS - DP - DeepDyve ER -