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Course Queries Syllabus Queries 2 years ago
Posted on 16 Aug 2022, this text provides information on Syllabus Queries related to Course Queries. Please note that while accuracy is prioritized, the data presented might not be entirely correct or up-to-date. This information is offered for general knowledge and informational purposes only, and should not be considered as a substitute for professional advice.
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I'm an Australian high school student (Grade 12). We are currently covering superconductors as a topic for our syllabus. Can someone explain (inasmuch as an advanced 18-year-old physics studentcan understand) why Cooper pairs of electrons (as per the BCS theory) only form in pairs? As I understand it, Cooper pairs form between 2 electrons with opposite spin due to a "phonon exchange", wherein the first electron passing through the metallic lattice induces a distortion of the lattice and hence the creation of a region of higher positive charge density behind it, attracting the second electron with opposite spin (we don't need to know why an opposite spin is required). However, if this second electron also passes through the lattice, and hence creates a region of higher positive charge density behind it, why does it not thence attract another electron and so on? In other words, why do Cooper Pairs form and not Cooper chains? Thanks for your help in advance. *Note: I don't mind what level of understanding your reply requires, I will just try my best to understand more complicated ideas. Thanks
You probably know about the Pauli principle: you cannot occupy a single quantum state by more than one electron. This is in fact related to their spin which is 1/2.
In superconductivity, two electrons team up to build a Cooper pair. The spin of the cooper pair can be 0 or 1. It therefore behaves rather like a boson than like a fermion. This is a key ingredient to superconductivity because now, the Cooper pairs can occupy the same macroscopic quantum state!
If we now think about what happens when a third electron joins the party, the spin of the composite state is half integer again and they are not allowed to team up in a macroscopic quantum state.
So what about four electrons then? Here the spin can be bosonic again. At the moment I cannot think of a reason why - in principle - there could not be a composite state made out of these four.
But already at the level of 2 electrons, the formation of Cooper pairs by the mechanism you present is a delicate business that only works at very low temperatures. The probability of 4 four electrons meeting at just the right spot with just the right momentum will be much smaller for sure. While at the same time, the energy barrier to destroy this team of 4 and break it into 2 pairs of 2 will be very low.
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