ALL IMAGES 968,218
Adv. Opt. Photon. (2,852)
Applied Optics (345,669)
Biomed. Opt. Express (18,141)
J. Opt. Commun. Netw. (12,419)
JOSA (54,227)
JOSA A (73,399)
JOSA B (80,996)
Optica (3,864)
Opt. Mater. Express (13,070)
Optics Express (242,292)
Optics Letters (118,763)
Photonics Research (2,526)
DATE RANGE 968,218
Click to choose OCIS CODES
1 (a) Schematic of chalcogenide–silica all-solid bandgap fiber. Red: chalcogenide strands. (b) Scanning electron micrograph of endface of a chalcogenide–silica bandgap fiber (core diameter                                                                         7.6                                                       μm                                                               , pitch                                                                         3.8                                                       μm                                                               , hole diameter                                                                         1.45                                                       μm                                                               ) polished by focused-ion-beam milling.
2 Normalized linear Stokes vector components demonstrate polarization synthesis.
3 The orthorectified aerial image and 5m DEM of Chiu-Shui River.
4 Effect of EOT on spatial information. The central figure shows the input probe beam generated with the DLP before the FWM. The top row shows the entangled images generated by the FWM process before the plasmonic structures, while the lower row shows the entangled images after transduction through the plasmonic structures.
5 Calculation result of prospective THz-wave intensity via BNA-DFG under the consideration of perfect phase matching and absorption effect.
6 (a) Schematic of a four-taper-segment micropillar cavity. (b) and (c) Electric field density profile of the first- and second-order modes, respectively. (d) Electric field density profile of the third-order mode of the ten-taper-segment micropillar cavity. (e) Mode diagram as a function of taper segment number.
7 Example of 2D array of color-coded dots.
8 Schematic setup of the thin disk laser resonator and the pump module.
9 Co-registered image of the change in blood flow image (Fig. 3A) with the projection view image of the blood vessel network obtained by the OMAG method after the injury (Fig. 4B). The color map is the same as in Fig. 3A. The grayscale of the OMAG image was inverted such that the blood vessels appear dark for better contrast.
11 Experimental results of the signal and reference speckled beams with triangular aperture and cross-correlations between them in the first, second, and third columns, respectively.
12 Isointensity plot of an oblique spatiotemporal Bessel–Airy wave packet.