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Visualization 1: Faster and less phototoxic 3D fluorescence microscopy using ...
Supplementary movie 1: reconstruction of fluorescent beads acquired with a LLSM (movie along the y dimension) Originally published in Optics Express on 12 June 2017... -
Media 1: An efficient plate heater with uniform surface temperature engineere...
Originally published in Optics Express on 14 July 2014 (oe-22-14-17006) -
Visualization 4: Monolithic CMOS-compatible zero-index metamaterials
Propagation in the GM direction for positive index frequency Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
r37980778c78--90d77f5751869037d57dc271ee19769a
Effect of randomizing fiber lengths on the weight map. Originally published in Optics Express on 10 July 2017 (oe-25-14-15746) -
r37980778c78--6353c8fc63f7b80a860f81adcb084076
k-space mapping for array of antennas coupled to fibers with randomly varied lengths. Originally published in Optics Express on 10 July 2017 (oe-25-14-15746) -
r37980778c78--7396ca1fe7b05353011169d044931c8f
Propagation in the GM direction showing longitudinal dipole mode Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
r37980778c78--73200c8b650ec76539eec37b04e603a1
Mode at point 4 of Fig. 11, Hz Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 4: Photonic probing of radio waves for k-space tomography
k-space mapping for array of antennas coupled to fibers with lengths increasing linearly from the top to the bottom fiber. Originally published in Optics Express on 10 July 2017... -
Visualization 3: Monolithic CMOS-compatible zero-index metamaterials
Propagation in the GX direction showing longitudinal dipole mode Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 9: Monolithic CMOS-compatible zero-index metamaterials
Mode at point 2 of Fig. 11, Ey Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 7: Monolithic CMOS-compatible zero-index metamaterials
Mode at point 1 of Fig. 11, Ey Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 12: Monolithic CMOS-compatible zero-index metamaterials
Mode at point 3 of Fig. 11, Hz Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
r37980778c78--19bdc674edfc569b84d7f7856578065b
k-space mapping for array of antennas coupled to fibers with identical lengths. Originally published in Optics Express on 10 July 2017 (oe-25-14-15746) -
r37980778c78--8db4c6f9768e39b67b8fd2ffc6912730
Originally published in Optics Express on 14 July 2014 (oe-22-14-17006) -
r37980778c78--5895e545ee89b863a8e214f56bfbd6ed
Mode at point 2 of Fig S7, Hz Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 8: Monolithic CMOS-compatible zero-index metamaterials
Mode at point 1 of Fig. 11, Hz Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 2: Faster and less phototoxic 3D fluorescence microscopy using ...
Supplementary movie 2: reconstruction of mESCs labeled with actin acquired with a LLSM (movie along the y dimension) Originally published in Optics Express on 12 June 2017... -
r37980778c78--59b09aa5ccadb6f25fd4d0bd780fbf0a
Mode at point 3 of Fig. 11, Ey Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 1: Monolithic CMOS-compatible zero-index metamaterials
Propagation in the GX direction for positive index frequency Originally published in Optics Express on 29 May 2017 (oe-25-11-12381) -
Visualization 18: Monolithic CMOS-compatible zero-index metamaterials
Power flow in metamaterial showing Poynting Vector Originally published in Optics Express on 29 May 2017 (oe-25-11-12381)