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Neutron scattering and muSR studies of magnetic phenomena in YFe2Al10: case s...
In strongly correlated electron systems, the proximity to magnetic ordering has been of special interest. Magnetism in this class of systems is often suppressed by the Kondo... -
Tunable algebraic correlations and Kasteleyn transition in kagome ice
We propose to continue our search for the Kasteleyn transition in the kagome ice phase of the spin ice Ho2Ti2O7. The experiment requires the applied magnetic field to be... -
Probing Spin Dynamics in S=1/2 spin liquid candidate Metal-Organic Framework ...
Spin liquids are magnetic materials with no long range ordering. We would like to explore the magnetic ground state of a Copper based Metal-Organic Framework(MOF) with suspected... -
muSR investigation of spin-orbit coupling driven magnetism of Ba3Zn1-xNixIr2O...
Strong spin-orbit coupling (SOC) in 5d transition metal oxides very often leads to unexpectedelectronic and magnetic ground state. While a nonmagnetic J=0 ground state can be... -
muSR studies of AF/SC/normal phase interplays in La2-xSrxCuO4 and Ba(Fe,Ni)2As2
We propose muSR studies on superfluid density in the overdoped La2-xSrxCuO4 (LSCO). The Hayden group (Bristol) has been growing high-quality LSCO single crystals, and performed... -
A muSR Investigation of the Magnetic Ground State and Spin Dynamics in the Tr...
In a typical magnetic material the interactions between neighbouring magnetic moments will tend to lead to their ordered alignment throughout the entire structure as it is... -
MuSR studies of the electronic properties of hyperexpanded fullerides close t...
The fcc polymorph of the hyperexpanded fulleride Cs3C60 can be driven to a bulk suprconducting state without symmetry change by the application of pressure. Its Tc passes... -
Magnetically frustrated coordination polymers as Quantum Spin Liquid candidates
Magnetic coordination polymers have emerged as potential candidates to behave as Quantum Spin Liquids (QSLs). The QSL is a state of matter proposed by Anderson in 1973, where,... -
Muon spin relaxation study of non-Fermi-liquid behaviour at the border magnet...
The understanding of mechanisms responsible for the formation of Non-Fermi Liquid state (NFL) and its relation to unconventional superconductivity is among the largest... -
Understanding the superconductivity in YbSb2
The number of Type I binary of ternary alloys is small. Recently, YbSb2 is reported to be a type I superconductor. However, it has an unusual phase diagram, which might show a... -
Doping effects in a S = 1/2 spin ladder system near quantum criticality
Spin ladders are excellent model systems for studying quantum phase transitions, as they exhibit a quantum critical point between non-magnetic spin singlet dimers to Néel... -
µSR Sudy on Ternary Silicides LaNiSi and LaPtSi
In this proposal we wish to investigate the detailed superconducting properties of two non-centrosymmetric ternary silicides, LaNiSi and LaPtSi. We plan to investigate the time... -
Set up HELIOC Fly-Path
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La(hfac)3 T=0.1 F=0
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µSR Study of Topological Superconductor PbTaSe2
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A μSR study of non-centrosymmetric superconductor Zr3Ir
We propose to investigate the effects of the electron- phonon interaction on the time reversal symmetry breaking phenomenon of non-cetrosymmetric superconductors. μSR is... -
Muon study of a Tb polyoxometallate single ion magnet with 5-fold symmetry
The magnetic properties of a Terbium single ion magnetic system will be studied using implanted muons. The system is based on a polyoxometallate ion that provides good isolation... -
µSR studies of the superconducting and magnetic properties of FeSe1-xSx
FeSe1-xSx is an important model system for investigating the relationship between superconductivity and nematicity. The nematicity can be suppressed systematically by the... -
Muon spin relaxation study on cobalt arsenides ACo2As2 (A = Ca, Sr and Ba)
Recent investigations of physical properties of ACo2As2 (A = Ca, Sr, Ba) indicate that Co-based arsenides could be a potential parent compound like the parent AFe2As2. While... -
The role of spin-orbit coupling for the superconducting state in TrIrSi (Tr =...
Spinorbit coupling (SOC) is a fundamental interaction in solids that can induce unusual physical properties, from topologically non-trivial insulating states to unconventional...
