Magnetic field and pressure effects on charge density wave, superconducting, and magnetic states in Lu5Ir4Si10 and Er5Ir4Si10
Abstract
We have studied the charge-density-wave (CDW) state for the superconducting Lu5Ir4Si10 and the antiferromagnetic Er5Ir4Si10 as variables of temperature, magnetic field, and hydrostatic pressure. For Lu5Ir4Si10, the application of pressure strongly suppresses the CDW phase but weakly enhances the superconducting phase. For Er5Ir4Si10, the incommensurate CDW state is pressure independent and the commensurate CDW state strongly depends on the pressure, whereas the antiferromagnetic ordering is slightly depressed by applying pressure. In addition, Er5Ir4Si10 shows negative magnetoresistance at low temperatures, compared with the positive magnetoresistance of Lu5Ir4Si10.
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