Groundbreaking research shows that the limits of nuclear stability change in stellar environments where temperatures reach billions of degrees Celsius | Science & Technology

The nuclear chart is a way to map out different kinds of atomic nuclei based on their number of protons and neutrons, and the “drip lines” can be viewed as the boundaries or edges of this map. Researchers from the University of Surrey and the University of Zagreb have found that these drip lines, which define the maximum number of protons and neutrons within a nucleus, change dynamically with temperature.

The findings challenge the view that drip lines and the number of bound nuclei are not sensitive to the temperature.

Dr Esra Yuksel, co-author of the study from the University of Surrey, argues that the physics community must understand the limits of the nuclear chart. She said:

“Considering that nuclei participating in most of the processes in the universe are hot, understanding how many protons and neutrons bind together in extreme environments is critical. We aim to determine which nuclei can contribute to nuclear reactions and processes, especially in extremely hot stellar environments such as supernovae and neutron star mergers. These extremely hot environments are where most of the chemical elements heavier than iron are produced. Until our study, we didn’t know much about these ‘drip lines’ (limits) at temperatures measured in billions of degrees Celsius.”

The study, published in Nature Communications, found that increasing temperatures significantly alter the limits of the nuclear chart. The discovery shows that more nuclei exist within the drip lines for hot nuclei than for cold nuclei.

The researchers from Surrey and Zagreb used theoretical calculations to predict nuclear properties and drip lines at temperatures up to 20 billion degrees Celsius. They found that at temperatures up to 10 billion Celsius, the drip lines and the number of bound nuclei have already started to change. At…

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