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Line 9: The RPA was criticized in the late 1950s for overcounting the degrees of freedom and the call for justification led to intense work among theoretical physicists. In a seminal paper [[Murray Gell-Mann]] and [[Keith Brueckner]] showed that the RPA can be derived from a summation of leading-order chain [[Feynman diagram]]s in a dense electron gas.<ref name="Gell-Mann Brueckner pp. 364–368">{{cite journal \| last1=Gell-Mann \| first1=Murray \| last2=Brueckner \| first2=Keith A. \| title=Correlation Energy of an Electron Gas at High Density \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=106 \| issue=2 \| date=15 April 1957 \| issn=0031-899X \| doi=10.1103/physrev.106.364 \| pages=364–368\| bibcode=1957PhRv..106..364G \| s2cid=120701027 \| url=https://authors.library.caltech.edu/3713/1/GELpr57b.pdf }}</ref> In [[superconductivity]], RPA can be used to ~~calculate~~derive [[Bardeen–Pines interaction]] between [[Phonon\|phonons]] and electrons that leads to [[Cooper pair\|Cooper pairing]].<ref>{{Cite book \|last=Coleman \|first=Piers \|url=https://www.google.fr/books/edition/Introduction_to_Many_Body_Physics/ESB0CwAAQBAJ?hl=en&gbpv=1&dq=bardeen+pines+interaction&pg=PA225&printsec=frontcover \|title=Introduction to Many-Body Physics \|date=2015-11-26 \|publisher=Cambridge University Press \|isbn=978-1-316-43202-0 \|language=en}}</ref> The consistency in these results became an important justification and motivated a very strong growth in [[theoretical physics]] in the late 50s and 60s.

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