Two-dimensional spin liquid - Valence Bond Ground States in a Frustrated Two-Dimensional

We present the measurements of the magnetotransport properties of the spin liquid candidate kappa-(BEDT-TTF)(2)Cu-2(CN)(3). The temperature dependencies of dc resistivity and Hall coefficient RH as well as magnetoresistance at fixed temperatures in magnetic fields up to 5 T suggest that the charge.

Quantum Spin Liquids are candidates for potential use in future information technologies. So far, Quantum Spin Liquids have usually only been found in one or two dimensional magnetic systems only. Now an international team led by HZB scientists has investigated crystals of PbCuTe2O6 with neutron experiments at ISIS, NIST and ILL. They found spin liquid behaviour in 3D, due to a so called hyper.

Two-dimensional (2D) tungsten diselenide (WSe2) nanosheets were transferred onto indium tin oxide (ITO) coated glass slides. Two such 2D WSe2-covered ITO glass slides were placed together to fabricate an electro-optic liquid crystal (LC) cell. A nematic LC inside this WSe2-based device obtains uniform planar-alignment. The coherent overlay of the LC molecules along the armchair direction on.

Detailed neutron scattering, magnetic susceptibility and muon spin relaxation studies indicate the absence of long-range magnetic order in the quantum magnet TbInO3 down to 0.46 K— an observation consistent with quantum spin liquid behaviour.

Candidate Quantum Spin Liquid due to Dimensional Reduction of a Two-Dimensional Honeycomb Lattice Scientific Reports, Sep 2014 Bin Zhang, Yan Zhang, Zheming Wang, Dongwei Wang, Peter J. Baker, Francis L. Pratt, Daoben Zhu.

Quantum mapmakers complete first voyage through spin liquid. The quantum spin liquid state that has been mapped by the team is found in 70 milligrams of tiny black crystals of the rare layered organic material k- (BEDT-TTF) 2 Cu 2 (CN) 3 cooled to just a couple of hundredths of a degree above absolute zero. Despite it being extremely difficult to make the tiny plate-like crystals, the.

So far, Quantum Spin Liquids have usually only been found in one or two dimensional magnetic systems only. Now an international team led by HZB scientists has investigated crystals of PbCuTe 2 O 6 with neutron experiments at ISIS, NIST, and ILL. They found spin liquid behavior in 3D, due to a so-called hyper hyperkagome lattice. The.

The paper Two-dimensional spin liquid behaviour in the triangular-honeycomb antiferromagnet TbInO3 was published in Nature Physics at 16.00 GMT on Monday, 21 January 2019. Home. Search results; Jobs; Press contacts; Contact; About. Website; Science with Neutrons; History; Women in Science. Stories; Women in Neutron Science; News. Scientific highlights; News from the neutron centers; Projects.

Quantum spin liquid detected in a new two-dimensional.

The researchers, including physicists from the University of Cambridge, measured the first signatures of these fractional particles, known as Majorana fermions, in a two-dimensional material with a structure similar to graphene. Their experimental results successfully matched with one of the main theoretical models for a quantum spin liquid, known as a Kitaev model. The.

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Spin-liquid ground state in a two-dimensional nonfrustrated spin model.

A prerequisite for this particular quantum spin liquid state is that the spins of the magnetic ruthenium ions form a frustrated honeycomb network: a layered, two-dimensional hexagonal structure.

Spin liquid ground states are predicted to arise within several distinct scenarios in condensed matter physics. The observation of these disordered magnetic states is particularly pervasive among a class of materials known as frustrated magnets, in which the competition between various magnetic exchange interactions prevents the system from adopting long-range magnetic order at low temperatures.

Any new physics dual but compliant with mainstream physics. Only matter of facts logical discussion is welcomed here.

PhD Project - Two dimensional superfluids and quantum spin liquids at Royal Holloway, University of London, listed on FindAPhD.com.

Quantum Spin Liquids are candidates for potential use in future information technologies. So far, Quantum Spin Liquids have usually only been found in one or two dimensional magnetic systems only.

This quantum liquid arises at a critical Lifshitz point, where a two-dimensional quartic dispersion emerges in the momentum space, and many fundamental properties of two-dimensional bosons are changed in its proximity. Such an ideal simulator of the quantum Lifshitz model allows experimentalists to directly visualize and explore the deconfinement transition of topological excitations, an.

Quantum Frustration in the “Spin Liquid” Phase of Two-Dimensional H3e.

Revealed: 3D Quantum Spin Liquid That Could Power Future.

Quantum spin liquid detected in a new two-dimensional.