Abstract
High Temperature Superconductivity, along with more recent developments with other newly discovered superconducting materials, have led to a superconducting ‘renaissance’ over the past 20 years. This Chapter serves as a review of conventional, electron-phonon-driven superconductivity, to serve as a starting point for more exotic and ‘anomalous’ behaviour in other materials. In many ways one can view the description herein as the ‘standard model’ of superconductivity. The story of conventional superconductivity also serves as a template for mechanism hunters in more exotic materials. Theories currently abound for the cuprates, the heavy fermions, etc., and a standard for discriminating one theory from the other is needed. The conventional theory serves as a very good paradigm for just such a purpose. On the other hand, we also hope that our assessment will point to areas that are not so well understood, and as any expanding arena of discovery will ultimately do, stimulate researchers to look at conventional, so-called ‘well-understood’ phenomena with a more critical eye.
A Brief Note on This Revision. The original article has been revised in several areas, mainly concerning the older literature. No attempt has been made to account for all the updates since the first version was written. We have added material related to structure in the bare electronic density of states (EDOS), and concerning anisotropy. In particular the anisotropic aspects of MgB2 have been emphasized.
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Marsiglio, F., Carbotte, J.P. (2008). Electron-Phonon Superconductivity. In: Bennemann, K.H., Ketterson, J.B. (eds) Superconductivity. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-73253-2_3
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