Neutron small-angle diffraction has been used to investigate the flux-line lattice structure within single crystals of the high-temperature superconductor Bi2.15Sr1.95CaCu2O8+x. The diffracted intensity goes rapidly to zero as the magnetic field or the temperature is increased. Melting at low fields as a function of temperature coincides with the appearence of finite resistance within the superconducting state. At low temperatures the diffracted intensity disappears in fields greater than similar to 70 mT, probably due to the decomposition of the flux-line lattice into randomly pinned 2d ''pancake'' vortices
This article reviews the use of neutron small-angle scattering to determine the spatial distribution...
It has long been known that a type-ll superconductor (a class which includes high-T_c materials) all...
Flux lattice melting in Bi2Sr2CaCu2O8+x (Bi-2212) single crystals has recently been studied by vario...
Neutron small-angle diffraction has been used to investigate the flux-line lattice structure within ...
The flux line lattice inside a single crystal of Bi2.15Sr1.95CaCu2O8+x has been observed using small...
The flux line lattice inside a single crystal of Bi2.15Sr 1.95CaCu2O8+x has been observed using smal...
A flux-line lattice (FLL) was observed in a single crystal of Bi 2.15Sr1.95CaCu2O8+x (BSCCO) using s...
We have used neutron scattering to provide direct information about flux structures in the bulk of c...
We have used neutron scattering to provide direct information about flux structures in the bulk of c...
We report small angle neutron scattering measurements of the flux lines lattice (FLL) in Bi2Sr2CaCu2...
We describe the recent uses of the technique of small-angle neutron diffraction to investigate flux-...
We describe the recent uses of the technique of small-angle neutron diffraction to investigate flux-...
This article reviews the use of neutron small-angle scattering to determine the spatial distribution...
Neutron scattering has been used to observe diffraction from the flux-line lattice in high temperatu...
Neutron scattering has been used to observe diffraction from the flux-line lattice in high temperatu...
This article reviews the use of neutron small-angle scattering to determine the spatial distribution...
It has long been known that a type-ll superconductor (a class which includes high-T_c materials) all...
Flux lattice melting in Bi2Sr2CaCu2O8+x (Bi-2212) single crystals has recently been studied by vario...
Neutron small-angle diffraction has been used to investigate the flux-line lattice structure within ...
The flux line lattice inside a single crystal of Bi2.15Sr1.95CaCu2O8+x has been observed using small...
The flux line lattice inside a single crystal of Bi2.15Sr 1.95CaCu2O8+x has been observed using smal...
A flux-line lattice (FLL) was observed in a single crystal of Bi 2.15Sr1.95CaCu2O8+x (BSCCO) using s...
We have used neutron scattering to provide direct information about flux structures in the bulk of c...
We have used neutron scattering to provide direct information about flux structures in the bulk of c...
We report small angle neutron scattering measurements of the flux lines lattice (FLL) in Bi2Sr2CaCu2...
We describe the recent uses of the technique of small-angle neutron diffraction to investigate flux-...
We describe the recent uses of the technique of small-angle neutron diffraction to investigate flux-...
This article reviews the use of neutron small-angle scattering to determine the spatial distribution...
Neutron scattering has been used to observe diffraction from the flux-line lattice in high temperatu...
Neutron scattering has been used to observe diffraction from the flux-line lattice in high temperatu...
This article reviews the use of neutron small-angle scattering to determine the spatial distribution...
It has long been known that a type-ll superconductor (a class which includes high-T_c materials) all...
Flux lattice melting in Bi2Sr2CaCu2O8+x (Bi-2212) single crystals has recently been studied by vario...
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