Erwin Schr Dinger (1887-1961) was one of the greatest theoretical physicists of the 20th century, and his contributions were not limited to the field of quantum mechanics but also extended to biology. Through his deep understanding of quantum mechanics, Schr Dinger developed many far-reaching concepts that opened new doors to explore the mysteries of life.
In 1944, Schr Dinger published a seminal book, What is Life? The book caused a sensation not only in the field of physics, but also in the field of biology. In this book, Schr Dinger makes the bold assumption that the basis of life is the transmission of information through the structure and function of matter, and that this transmission of information may involve the principles of quantum mechanics.
Schr Dinger also came up with the famous "Schr Dinger."'s paradox", i.e., the molecular structure in living organisms is relatively stable, but there is a high degree of dynamics at the molecular level. He suggested that this dynamicity could involve the existence of quantum effects, a view that challenged conventional wisdom in biology at the time.
The research direction of quantum biology was openedSchr Dinger's work laid the groundwork for the origins of the field of quantum biology and led many scientists to explore the quantum mechanical principles behind the phenomena of life.
The hypothesis of quantum information transfer is proposedSchr Dinger's hypothesis that "life is based on the transmission of information through the structure and function of matter" inspired scientists to study the mechanism of information transmission in living organisms.
It promotes the development of interdisciplinary researchSchr. Dinger's theories promote interdisciplinary collaboration between physics and biology and provide important ideological guidance for exploring new areas of life sciences.
Although Schr. Dinger's theory was highly controversial at the time, as science and technology continued to advance, there was growing evidence that quantum effects may play an important role in biology. As a result, researchers are working to explore new areas of quantum biology to uncover deeper mysteries of life. As Schr Dinger says in his book, "The mystery of life lies in its quantum mechanical nature." ”