The main subjects are as follows: (1) Investigation of optical properties of single nanostructures through the development of high-resolution optical microscope, (2) Development of nanoparticle assemblies with new optical functionalities, and (3) Ultrafast optical spectroscopy of excited states in ...
Ultrafast optical circuit switching for data centers using integrated soliton microcombs Article Open access 15 October 2021 Synchronous subnanosecond clock and data recovery for optically switched data centres using clock phase caching Article 22 June 2020 Ultra-low-power consumption silicon electro-...
Ultrafast Photonics Research at Newport Corporation with Desktop SEM Newport Corporation specializes in the production of three-dimensional microfabrication using two-photon polymerization (TPP). TPP is a printing technique that allows for true three-dimensional writing of polymeric microstructures with feature...
Holographic polymer dispersed liquid crystals (H-PDLCs), which is one of promising material for LC display, when doped with nanoscale silver (nano Ag) exhibit a unique electro-optical response to frequency modulation. We established an equivalent circuit model for H-PDLC doped nano Ag gratings ac...
SSC provides support for scientific ground instruments at the Esrange facility. A special observation site, KEOPS (Kiruna Esrange Optical Platform Site), located on a hill on the Esrange premises, is an ideal location to place scientific ground instruments. We also use several SSC-owned instrumen...
nS7. Biophotonics and Optical Biomedicine nS8. Data Center Optical Interconnects and Networks nS9. Silicon Photonics nS10. Computational Imaging 特别分会 nT1. Emerging Technologies for Wide Bandgap Semiconductors and Information Displays nT2. Topological Photonics ...
We thank Sumithra Kannan for her help with the purification at the early stage of this project. We acknowledge financial support by the Max Planck Society and the Hamburg Centre for Ultrafast Imaging (CUI) within the German Excellence Initiative supported by the Deutsche Forschungsgemeinschaft. H-...
range. At present, through the use of several different types of centers andhost lattices, the entire region between 0.8μm and 4.0μm can be covered. Tunable coherent radiation over this wavelength region is important for studies inoptical communication, ultrafast processes in semiconductors, and ...
Finally, the photon shot-noise limited sensitivity was 0.73 nT/Hz1/2 for all-fiber magnetometer and 0.59 nT/Hz1/2 for spatial optical confocal magnetometer. Figure 5. ODMR spectrum with 20 Gauss magnetic field. Although, the all-fiber NV center magnetometer had higher fluorescence intensity. ...
Optical PCR tubes and caps are a good choice for low-throughput qPCR experiments as the features of frosted sides and optically clear caps help boost the fluorescence signal as described above for white qPCR plates. 3. Which...