How pressure enhances the critical temperature of superconductivity in YBa ₂ Cu ₃ O _{6+ y}

Abstract: High-temperature superconducting cuprates respond to doping with a dome-like dependence of their critical temperature ( T c ). But the family-specific maximum T c can be surpassed by application of pressure, a compelling observation known for decades. We investigate the phenomenon with high-pressure anvil cell NMR and measure the charge content at planar Cu and O, and with it the doping of the ubiquitous CuO 2 plane… Show more

“…HP-XPCS can also be applied beyond the field of liquids and glasses, as XPCS shows sensibility to the spin and/or charge fluctuations in quantum materials (Shpyrko et al, 2007). As such, an adaptation of HP-XPCS to low temperatures has potential for HT superconductors applications, where HP promotes the Curie temperature owing to a redistribution of the charges (Jurkutat et al, 2023).…”

High-pressure X-ray photon correlation spectroscopy at fourth-generation synchrotron sources

“…HP-XPCS can also be applied beyond the field of liquids and glasses, as XPCS shows sensibility to the spin and/or charge fluctuations in quantum materials (Shpyrko et al, 2007). As such, an adaptation of HP-XPCS to low temperatures has potential for HT superconductors applications, where HP promotes the Curie temperature owing to a redistribution of the charges (Jurkutat et al, 2023).…”

High-pressure X-ray photon correlation spectroscopy at fourth-generation synchrotron sources

Photoinduced quasiparticle dynamics of single CuO2 -layer Bi-based cuprates with out-of-plane disorder

Absence of Fermi surface reconstruction in pressure-driven overdoped YBCO