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Probing Magnetic Interactions in LnOH(CO3) Paramagnetic Magnetocalorics
Local magnetic interactions in lanthanide compounds have recently been shown to tune their entropically driven magnetocaloric effect (MCE), useful for magnetic coolants. In this... -
A muSR study of a new isotropic molecule-based spin ladder
Progress in the investigation of emergent ground states and novel excitations in condensed matter systems relies on the existence of materials that are well described by simple... -
Probing the interplay between charge density wave and superconductivity in st...
We propose to study PdxIrTe2, which evolves from a charge-orbital density wave state to a superconducting state with doping. It has a similar structural motif, doping-dependent... -
Investigation of superconducting ground state of the first Fe-based silicide ...
HTSC in the iron-based superconductors (Fe-SC) is one of the most active and challenging topics. Very recently some of us (F. Bernardini et al.) have reported SC in novel... -
Probing the superconducting ground state of the centrosymmetric superconducto...
This proposal plans to investigate the superconducting ground state of LaNiGa2 which is a centrosymmetric superconductor with a superconducting transition of ~2K. Heat capacity... -
Check for TRS breaking superconductivity in TaOsSi
This dataset has no description
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Understanding the role of spin orbit coupling on superconductivity in ScMX (M...
It is a great interest of research to explore the superconductivity in 111-family superconductor with strong spin orbit-interaction. In this proposal we wish to investigate role... -
Muon spin relaxation study of Halden like spin chains in Layered Li3Cu2SbO6
A large variety of exotic magnetic structure and relevant magnetic properties is observed in honeycomb layered oxides. Recently Koo et al. have observed two magnetic... -
Searching for magnetic ordering and spin-gapped behavior in the first S = 1 ¿...
We propose to explore the spin dynamics in LiNiVO4, a system which we believe is a previously unobserved realization of a random distribution of 1D antiferromagnetic Heisenberg... -
Fluctuating stripes in an insulating hole-doped antiferromagnet
In a recent letter to Nature, Boothroyd and coworkers have shown that the well known hour-glass spectrum, previously observed in some cuprate materials, occurs in a hole doped... -
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... -
Spin fluctuations in heavy fermion system
A study of the ground state of the Ce5Rh4Sn10 is proposed. Compound belongs to the heavy fermion system with two magnetic phase transitions at 1.4 K and 4.3 K. While the... -
Hydrogen bonds as synthons in novel molecular magnets
Many strategies have emerged in recent years in the quest to design and synthesize functional materials which show cooperative properties. A particularly successful route to new... -
Geometrical frustration induced magnetism in single crystal of CeIrSn: A Muon...
The quasi-kagome Kondo lattice CeRhSn exhibits quantum criticality induced by geometrical frustration. Divergent Grüneisen ratios provide evidence for a zero-field QCP. The... -
Muon spin relaxation study of Co-dopedCeCu2Ge2
In recent times, Ce based HF compounds have become a promising and active research field in condensed matter physics as one can drive the system towards quantum critical point... -
Nano-Sized Effect on Magnetic Properties of La2CuO4
Nano-sized effect of ferromagnetic and antiferromagnetic materials has much attention in the recent years due to their unique properties. In the last beam time, we got 3 days to... -
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,... -
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... -
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...
