Add to ORKGThe Feshbach shape resonances in the interband pairing in superconducting superlattices of quantum wells or quantum stripes is shown to provide the mechanism for high Tc superconductivity. This mechanism provides the Tc amplification driven by the architecture of material: superlattices of quantum wells (intercalated graphite or diborides) and superlattices of quantum stripes (doped high Tc cuprate perovskites) where the chemical potential is tuned to a Van Hove-Lifshitz singularity (vHs) in the electronic energy spectrum of the superlattice associated with the change of the Fermi surface dimensionality in one of the subbands
The amplification of the superconducting critical temperature T-c from the low temperature range in ...
We discuss the shape resonance in the superconducting gaps of a two-band superconductor by tuning th...
We discuss the possibility of superconductivity in the "clean limit" in superconductors made of a do...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
We show that electron doped MgB$_{2}$, made of a superlattice of boron honeycomb layers, is a multib...
We show that electron doped MgB$_{2}$, made of a superlattice of boron honeycomb layers, is a multib...
The superconducting gap for 2D electron gas in a superlattice of quantum stripes with a finite 1D pe...
The superconducting gap for 2D electron gas in a superlattice of quantum stripes with a finite 1D pe...
The shape resonance of the superconducting gap for a 2D electron gas in a superlattice of quantum st...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature T-c from the low temperature range in ...
We discuss the shape resonance in the superconducting gaps of a two-band superconductor by tuning th...
We discuss the possibility of superconductivity in the "clean limit" in superconductors made of a do...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
The Feshbach shape resonance in the interband pairing is shown to provide the mechanism for evading ...
We show that electron doped MgB$_{2}$, made of a superlattice of boron honeycomb layers, is a multib...
We show that electron doped MgB$_{2}$, made of a superlattice of boron honeycomb layers, is a multib...
The superconducting gap for 2D electron gas in a superlattice of quantum stripes with a finite 1D pe...
The superconducting gap for 2D electron gas in a superlattice of quantum stripes with a finite 1D pe...
The shape resonance of the superconducting gap for a 2D electron gas in a superlattice of quantum st...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature Tc from the low temperature range in h...
The amplification of the superconducting critical temperature T-c from the low temperature range in ...
We discuss the shape resonance in the superconducting gaps of a two-band superconductor by tuning th...
We discuss the possibility of superconductivity in the "clean limit" in superconductors made of a do...