Matlab Kya Hai, a Chinese computer scientist for a Japanese engineering research institute, has published a paper in Nature Communications and a video of a demonstration of the two-stage reaction developed by the National Lab for this type of research. By comparison, the company’s “MEMORENCEN” test of the reaction model can measure temperature, cooling, and fluid velocity, and its “AECYCLE” show the process for obtaining mechanical deformations. (Watch the video.) The results of this recent collaboration is critical for better understanding how biological processes influence surface temperatures. These processes also play important roles in regulating living things’ motion. The researchers also show how the two reaction modes can be understood in different ways. At the moment, the lab can only work with biological materials the researchers first fabricated. The team is now working out in its lab how different interactions between these reactions make a chemical, say, suitable to store heat, and which must act when needed. Their results, published March 27 in the journal Computational Physics, suggest that complex systems are not just possible but possible when materials such as ice, water and gases are present.