Evidence for very strong electron-phonon coupling in YBa2Cu3O6

Abstract

From the observed oxygen-isotope shift of the mid-infrared two-magnon absorption peak of YBa2Cu3O6, we evaluate the oxygen-isotope effect on the in-plane antiferromagnetic exchange energy J. The exchange energy J in YBa2Cu3O6 is found to decrease by about 0.9% upon replacing 16O by 18O, which is slightly larger than that (0.6%) in La2CuO4. From the oxygen-isotope effects, we determine the lower limit of the polaron binding energy, which is about 1.7 eV for YBa2Cu3O6 and 1.5 eV for La2CuO4, in quantitative agreement with angle-resolved photoemission data, optical conductivity data, and the parameter-free theoretical estimate. The large polaron binding energies in the insulating parent compounds suggest that electron-phonon coupling should also be strong in doped superconducting cuprates and may play an essential role in high-temperature superconductivity.

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