Add to ORKGThe electrical resistivity of the heavy-electron superconductor UBe13 was investigated over temperatures ranging from 1 to 300 K and at high pressures from 12 to 152 kbar. The temperature, Tmax, at which attains a maximum increases linearly with pressure at two limiting rates: 0.25 K/kbar below 30 kbar and 0.65 K/kbar above 30 kbar. At low temperatures, the -versus-T data can be described by the expression =0+AT2 over a temperature interval of 1 K at 12 kbar to more than 16 K at 152 kbar. The coefficient A can be related to the Fermi-liquid energy scale T* by A-1/2 T*. The pressure dependence of A-1/2 also increases linearly with pressure at two limiting rates, with a crossover at about 50 kbar. The similarity in the pressure dependences of...
We have determined the effect of hydrostatic pressure on the susceptibility, on the T2 temperature d...
Measurements are reported on the electrical resistivity ρ(B, T) in a wide range of parameters for th...
The understanding of new emerging unconventional ground states is a great challenge for experimental...
The electrical resistivity of the heavy-electron superconductor UBe13 was investigated over temperat...
The electrical resistivity of the heavy-electron superconductor UBe13 has been measured at temperatu...
We have investigated the effects of pressure on the magnetoresistance and the upper critical magneti...
The pressure dependence of the static magnetic susceptibility χ(T) of the heavy-electron superconduc...
We report magnetoresistance measurements of the heavy electron compound UBe13 above the superconduct...
We report magnetoresistance measurements of the heavy electron compound UBe/sub 13/ above the superc...
We have measured the temperature dependence of the electrical resistivity of UBe13 for magnetic fiel...
Measurements of the electrical resistivity of U1-xThxBe13 compounds as a function of pressure provid...
We studied the pressure dependence of the Néel temperature and the superconducting critical temperat...
The electrical resistivity and the thermopower of UBe13 have been measured between 1.2 and 300 K at ...
We report electrical resistivity measurements of the heavy fermion compound YbCu4.5 for pressures up...
Measurements of the resistivity, thermoelectric power and thermal conductivity of the heavy fermion ...
We have determined the effect of hydrostatic pressure on the susceptibility, on the T2 temperature d...
Measurements are reported on the electrical resistivity ρ(B, T) in a wide range of parameters for th...
The understanding of new emerging unconventional ground states is a great challenge for experimental...
The electrical resistivity of the heavy-electron superconductor UBe13 was investigated over temperat...
The electrical resistivity of the heavy-electron superconductor UBe13 has been measured at temperatu...
We have investigated the effects of pressure on the magnetoresistance and the upper critical magneti...
The pressure dependence of the static magnetic susceptibility χ(T) of the heavy-electron superconduc...
We report magnetoresistance measurements of the heavy electron compound UBe13 above the superconduct...
We report magnetoresistance measurements of the heavy electron compound UBe/sub 13/ above the superc...
We have measured the temperature dependence of the electrical resistivity of UBe13 for magnetic fiel...
Measurements of the electrical resistivity of U1-xThxBe13 compounds as a function of pressure provid...
We studied the pressure dependence of the Néel temperature and the superconducting critical temperat...
The electrical resistivity and the thermopower of UBe13 have been measured between 1.2 and 300 K at ...
We report electrical resistivity measurements of the heavy fermion compound YbCu4.5 for pressures up...
Measurements of the resistivity, thermoelectric power and thermal conductivity of the heavy fermion ...
We have determined the effect of hydrostatic pressure on the susceptibility, on the T2 temperature d...
Measurements are reported on the electrical resistivity ρ(B, T) in a wide range of parameters for th...
The understanding of new emerging unconventional ground states is a great challenge for experimental...