The energy of efimov states increase with bigger or smaller states?
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There are some sites like this answer of this site: About Efimov States and Halo-Nuclei
That says that the bigger the states the bigger its energy by a scaling factor of squared 22.7
That say that the energy is smaller if the states are bigger by the same factor of 22.7 (squared)
I don't understand, they contradict each other! What happens then?
What are the highest and the lowest limits of energies of these states? Since there are infinite number of them, they don't have upper energy limit?
And for what could we use these "efimov molecules"? Could we make engines of batteries or other things with them
That says that the bigger the states the bigger its energy by a scaling factor of squared 22.7
That say that the energy is smaller if the states are bigger by the same factor of 22.7 (squared)
I don't understand, they contradict each other! What happens then?
What are the highest and the lowest limits of energies of these states? Since there are infinite number of them, they don't have upper energy limit?
And for what could we use these "efimov molecules"? Could we make engines of batteries or other things with them
Answered by
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is due the quantum fluctuations of the kinetic energy. (also known as ... bound state, further increasing the interaction reduces ... states in which the particles are on average at larger.
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