Physics – Condensed Matter – Superconductivity
Scientific paper
2006-12-04
Physics
Condensed Matter
Superconductivity
12 pages double-spaced
Scientific paper
Our goals are to assist a non-practitioner understand likely resolution of the controversy about the boson that couples Cooper pairs in Cu oxides and to consider if high temperature superconductivity (HTS) in solid oxides might be related to predicted HTS in liquid metallic hydrogen (LMH) near 0 K. High temperatures (T~Tc~!D~100 K, where Tc is superconducting critical temperature and !D is the Debye temperature) induce phonon-phonon scattering in ordered materials, which is sensitive to impurities and disorder. Experimental results suggest the boson that couples Cooper pairs in Bi2SrCa2Cu2O8 is incoherent ion vibration caused by disorder, which is observed from ~100 K down to 4 K. Phonons are not well-defined in BSSCO and its coherence length is comparable to the dimension of its unit cell (~1 nm), as for other oxides. Sr2CuO3+d (Tc=95 K) has a crystal structure that enables experimental demonstration that disorder of apical oxygen atoms has a strong affect on Tc. Disorder in sold oxides on an atomic scale and the temperature dependence of phonons at high temperatures (T~!D) probably must be taken into account to understand HTS. There are several reasons to believe that LMH will be a high temperature superconductor and no known reason why LMH cannot be one.
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