In the experiment, the device used by the researchers was composed of two mirrors, which constituted a laser pointer optical microcavity. When the mirrors are spaced differently, the light will be confined to different spectra. Subsequently, the researchers in the microcavity An atom-thick molybdenum diselenide semiconductor is embedded in it. Here, the interaction between the semiconductor in different placement modes and the restricted light causes particles on the semiconductor to combine with photons to form a polaron.
In this regard, the associate professor of quantum optics and quantum physics explained that the creation of a polaron by the fusion of particles and photons, a particle with a negative mass, is still a puzzling phenomenon, but you are trying to exert force on it. It turns out that it is a negative mass substance. At present, although many research groups are trying to build such experimental equipment, the equipment built by the research team is the first device that can produce such particles.
Regarding the industrialization of this experimental equipment, although it is still in the experimental stage, the laboratory is continuing to explore. In the future, this structure will be used to build brand-new laser pointers. By then, the energy generated by the brand-new system will be more than that of the existing laser. Traditional lasers are much lower. Previously, scientists at the University of Washington in the United States created liquids with negative mass, further deepening human understanding of the universe.