- Principle: Using 5-10 mW laser energy, through the optical detection module, the laser energy oscillates at a high speed on the sample in a fixed area, so as to obtain the purpose of measuring the sample without destroying the sample, and the maximum can scan 800*800um Regional samples
- Purpose: Optical analysis of two-dimensional materials, growing two-dimensional materials, or components made of two-dimensional materials, so as to obtain the energy system of the material, the distribution of defects, and the number of layers of the material.
- Advantages: Non-destructive measurement of materials, location of defects, 20 times faster planar spectral mapping and simplified data analysis, and expansion modules: Transient Fluorescence Spectroscopy (TRPL) and Transient Fluorescence Imaging (FLIM); Super Resolution Module , Photon angular momentum module, frequency doubling module.
- Application: 2D materials (MoS2, WS2, Graphene), nanowires/pillars
Southport Co. was established in August 2014. The founding team gathered talents from cross fields such as optics, materials, physics, and information, introducing novel optical design concepts in optical engineering.Based on the two core technologies of 5D microscopy and digital optics, Southport has introduced brand-new optics concepts and technologies into four key application areas: advanced material analysis, biomedical imaging, microstructure and transparent material inspection, and digital optics. Southport is committed to focusing on solving critical problems for R&D, relieving the pains in practices for facilitating innovation. Through integrating the knowledge of light, mechanics, electronics, and software, incorporated with modular and digital design genes, and further combined with our knowledge and experiences, Southport is ready to provide the cutting-edge optical tools needed by academia and industry.