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Developing QLCR spectroscopy as a muSR tool
Quadrupolar level crossing resonance (QLCR) in muSR of solid state systems with diamagnetic muon states in proximity to quadrupolar nuclei was discovered many years ago, however... -
Exploring the low energy excitations of the S=1 quasi-1D molecular system Mo3...
The molecular magnetic system Mo3S7(dmit)3 is a semiconductor with a charge gap of around 100 K and no magnetic transition or spin freezing down to 2 K. In the crystal structure... -
Studies of the new S=1/2 triangular lattice spin liquid kappa-ET2Ag2(CN)3 (MUSR)
A new member of the class of S=1/2 triangular lattice quantum spin liquids will be studied with muons. It is obtained by replacing Cu with Ag in the original compound... -
Broken time reversal symmetry in the superconducting state in Lu5M6Sn18 (M = ...
High quality single crystals Lu5M6Sn18 (M = Co, Rh, and Ir) have been successfully growth by flux method. These caged type compound reveal superconductivity below Tc = 1.5 K, 4... -
muSR characterisation of the first fully-organic triangular-lattice quantum s...
The most successful recipe to date for making a quantum spin liquid (QSL) is a triangular lattice of molecular-dimer radicals tuned to behave as a weak Mott insulator. Two... -
Hydrogen trapped sites in aluminum alloys studied by muon spin relaxation method
Hydrogen can be a main energy resource in near future. Al-Mg-Si-Cu alloys have been used as an inner materials for a high-pressure hydrogen container. There are plenty of... -
Studies of the new S=1/2 triangular lattice spin liquid kappa-ET2Ag2(CN)3 (MUSR)
A new member of the class of S=1/2 triangular lattice quantum spin liquids will be studied with muons. It is obtained by replacing Cu with Ag in the original compound...
