-
MUSR investigations of a new spin-1/2 kagome antiferromagnet Cu4(OH)6FCl
Recently, barlowite Cu4(OH)6FBr have been attracting much attention as a new kagome system with a Z2 topological order, which may yield spin liquid state at relative high... -
Study of superconductivity in Sc5Ir4Si10, Sc5Rh4Si10 and Sc5Co4Si10 using muo...
Ternary compounds R5T4X10 crystallizing in primitive tetragonal structure (space group P4/mbm) present interesting physical properties. Of particular interests are the... -
muSR study of a pi-electron S = ½ candidate quantum spin-liquid state in an i...
Molecular solids whose cooperative electronic properties are based purely on pi-electrons from carbon atoms offer a fertile ground in the search for exotic states of matter,... -
Muon spin relaxation study of a novel frustrated system: Li7RuO6
Every new triangular lattice (TL) antiferromagnet attracts considerable attention since they usually display rich physics due to the inherent frustration and degenerate ground... -
Understanding the superconductivity in a designer high entropy alloy
Understanding superconductivity has been a goal of condensed matter scientists since its discovery. However, there has been a continual discovery of new materials that challenge... -
Valence bond solid in the charge ordered state of Rb4O6
Open p-shell anionic mixed-valence compounds have been recently proposed as intriguing model systems for disentangling the complex interplay of charge, lattice, orbital, and... -
Studying the Temperature Dependence of The Slower μSR Frequencies in CsN...
We seek to continue our study of CsNiCl3 to determine the nature of the two magnetic transitions.Previous experiments at PSI have shown there are two distinct muons sites, one... -
MuSR study on spin liquid candidate NaYbSe2 with triangular lattice
The quantum spin liquid (QSL) is a long-standing attractive topic in condensed matter physics due to its tight relation to exotic properties such as high temperature... -
Superconducting state arising out of a Topological Crystalline Insulator
A new class of materials called Topological Crystalline Insulator(TCI) has been recently proposedtheoretically and subsequently, SnTe has been discovered to exhibit all the... -
µSR Study of Non-Centrosymmetric Superconductor Re3Ta
We propose to investigate the detailed superconducting properties of the superconducting compound Re3Ta with non-centrosymmetric α-Mn structure. Due to non-centrosymmetric... -
A muon spin rotation/relaxation study of superconductivity in the noncentrosy...
Noncentrosymmetric superconductors have been identified as good candidates for unconventional superconductivity. In particular, there is the possibility of Cooper pairs with... -
Quasi two-dimensional molecular layers separated by magnetic and non-magnetic...
Recent progress in the field of molecular magnetism has shown the clear potential for gaining control over the structural building blocks of molecular materials in order to... -
Broken Time Reversal Symmetry in Superconducting (Pr, Ce)Pt4Ge12 alloys
The unconventional filled skutterudite superconductor, PrPt4Ge12(Tc ~ 7.9 K), was recently discovered, for which zero field muon spin relaxation (ZF-MuSR) experiments reveal... -
μSR measurements on topological superconducting candidates Ti3Ir and Ti3Sb
This dataset has no description
-
µSR Study of the Ternary Silicides MRSi (M=Nb, Ta R=Re, Ru)
We propose to investigate the detailed superconducting properties of the non-centrosymmetric ternary silicides MRSi (where M=Nb, Ta R=Re, Ru). We plan to investigate the vortex... -
Superconducting gap structure of the cage compound Sc5Rh6Sn18: A muon spin re...
Recently we have investigated the superconducting state of the caged type compound R5Rh6Sn18 (R = Lu and Y) by using magnetization, heat capacity, and muon-spin relaxation or... -
Investigation of the magnetism and multiferroic properties in the MOF Cu--gua...
Multiferroic materials which exhibit both ferroelectric and (anti)ferromagnetic ordering are of great technological importance offering the potential for the design of novel... -
Dynamical short-range magnetic phase separation in gamma-CoV2O6
Frustration in magnets could stabilize both order and disorder. Exploring frustrated magnetism is of great importance to understanding the quantum many-body physics and... -
Frustration-stabilized skyrmions in centrosymmetric compounds
Skyrmions are chiral magnetic spin textures that exist in a variety of different magnetic materials. Skyrmions are usually stabilized in noncentrosymmetric chiral materials by... -
The effect of low-level substitutional disorder on Néel-skyrmion systems
The polar magnetic semiconductors GaV4S8 and GaV4Se8 have recently attracted attention as one of only two families of bulk materials hosting Néel-type skyrmions: nano-sized...
