What exactly is Tungsten Selenide
Selenide tungsten(WSe2), type 2 d material graphene is composed of the top layer of selenium/tungsten atom connection. The application possibilities for tungsten selenide are vast in areas such as photoelectricity, biosensors and supercapacitors.
Photonics Research Significance
Photonics refers to the science of studying information carrier with photon. This has broad applications in photodetector, optical communication device and new materials. For the advancement of photonic technology, and for future research into the process of creating photonic devices, it is vital to understand and investigate the photonic generator process.
Photonic Technology: Research Results on Tungsten Selenide
Researchers discovered that the tungsten selenide was composed of many “co-oscillations” which are sensitive and responsive to photon absorption. One of WSe2’s oscillations was chosen by the team, which was called D excitons and another pulse (1, 2) was applied. This resulted in one pulse (1) being switched to anA exciton while the other pulse (1+ 2) was changed to an A exciton. Their sum frequency (1+2) was then converted to A D exiton with an A signal that was 20 times greater than the single resonant. SFG produces photons with a higher intensity than SHG.
These are just a few of the many benefits that advanced photonic devices have. Not only does the double resonance SFG technique provide new scientific methods for microscopic, nonlinear spectral, and optical analysis but it also allows for new nonlinear optics techniques and nonlinear optometry using two-dimensional semiconductors. These researches have the potential of bringing photonics up to a higher level, such that medical care can be provided with more advanced optical imaging equipment and less expensive diagnostic methods.
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