Extraction of normal and pairing self-energies and Eliashberg functions of high temperature superconductor Bi2212 from Laser-based ARPES experiment
ORAL
Abstract
The angle-resolved photoemission (ARPES) measurements provide momentum and frequency dependence of the electronic structure that enables quantitative analysis using single particle Green's function. This is particularly important for studying the cuprate superconductors that are known to have anisotropic electronic structure and anisotropic d-wave superconducting gap. Here we report the extraction of the normal and pairing self-energies from high resolution Laser-based ARPES data of the underdoped and overdoped Bi2212. We also obtain the Eliashberg functions, ${\cal E}_{\mathrm{N}}$ and ${\cal E}_{\mathrm{P}}$, by inverting Eliashberg equations using maximum entropy method. Implications of these results for understanding the superconductivity mechanism will be discussed.
*NSFC (Grant No. 11190022) and the MOST of China (Program No: 2011CB921703 and 2011CB605903)
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