Ganesh Pokharel scite author profile

The physical properties of the spinel LiGaCr 4 S 8 have been studied with neutron diffraction, X-ray diffraction, magnetic susceptibility and heat capacity measurements. The neutron diffraction and synchrotron X-ray diffraction data reveal negative thermal expansion (NTE) below 111(4) K. The magnetic susceptibility deviates from Curie-Weiss behavior with the onset of NTE. At low temperature a broad peak in the magnetic susceptibility at 10.3(3) K is accompanied by the return of normal thermal expansion. First principles calculations find a strong coupling between the lattice and the simulated magnetic ground state. These results indicate strong magnetoelastic coupling in LiGaCr 4 S 8 .arXiv:1802.00158v2 [cond-mat.other]

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Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV6Sn6 (
Peng
¹
,
Han
²
,
Pokharel
³

et al. 2021
Phys. Rev. Lett.
73
4
28
0
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Van Hove singularity in the magnon spectrum of the antiferromagnetic quantum honeycomb lattice

et al. 2021

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In quantum magnets, magnetic moments fluctuate heavily and are strongly entangled with each other, a fundamental distinction from classical magnetism. Here, with inelastic neutron scattering measurements, we probe the spin correlations of the honeycomb lattice quantum magnet YbCl3. A linear spin wave theory with a single Heisenberg interaction on the honeycomb lattice, including both transverse and longitudinal channels of the neutron response, reproduces all of the key features in the spectrum. In particular, we identify a Van Hove singularity, a clearly observable sharp feature within a continuum response. The demonstration of such a Van Hove singularity in a two-magnon continuum is important as a confirmation of broadly held notions of continua in quantum magnetism and additionally because analogous features in two-spinon continua could be used to distinguish quantum spin liquids from merely disordered systems. These results establish YbCl3 as a benchmark material for quantum magnetism on the honeycomb lattice.

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Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr4S8

et al. 2020

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Structural evolution of the kagome superconductors AV3Sb5 (A = K, Rb, and Cs) through charge density wave order

Kautzsch

Ortiz

Mallayya

et al. 2023

Phys. Rev. Materials

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Flat band separation and robust spin Berry curvature in bilayer kagome metals

et al. 2023

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Kagome materials have emerged as a setting for emergent electronic phenomena that encompass different aspects of symmetry and topology. It is debated whether the XV6Sn6 kagome family (where X is a rare-earth element), a recently discovered family of bilayer kagome metals, hosts a topologically non-trivial ground state resulting from the opening of spin–orbit coupling gaps. These states would carry a finite spin Berry curvature, and topological surface states. Here we investigate the spin and electronic structure of the XV6Sn6 kagome family. We obtain evidence for a finite spin Berry curvature contribution at the centre of the Brillouin zone, where the nearly flat band detaches from the dispersing Dirac band because of spin–orbit coupling. In addition, the spin Berry curvature is further investigated in the charge density wave regime of ScV6Sn6 and it is found to be robust against the onset of the temperature-driven ordered phase. Utilizing the sensitivity of angle-resolved photoemission spectroscopy to the spin and orbital angular momentum, our work unveils the spin Berry curvature of topological kagome metals and helps to define its spectroscopic fingerprint.

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Terahertz dielectric analysis and spin-phonon coupling in multiferroic GeV4S8

et al. 2017

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We present an investigation of the multiferroic lacunar spinel compound GeV 4 S 8 using timedomain terahertz spectroscopy. We find three absorptions which either appear or shift at the antiferromagnetic transition temperature, TN = 17 K, as S=1 magnetic moments develop on vanadium tetrahedra. Two of these absorptions are coupled to the magnetic state and one only appears below the Néel temperature, and is interpreted as a magnon. We also observe isosbestic points in the dielectric constant in both the temperature and frequency domains. Further, we perform analysis on the isosbestic features to reveal an interesting collapse into a single curve as a function of both frequency and temperature, behavior which exists throughout the phase transitions. This analysis suggests the importance of spectral changes in the terahertz range which are linear in frequency and temperature.

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Ganesh Pokharel

Electronic properties of the topological kagome metals YV6Sn6 and GdV6Sn6

Negative thermal expansion and magnetoelastic coupling in the breathing pyrochlore lattice material LiGaCr4S8

Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV6Sn6 (
Peng
¹
,
Han
²
,
Pokharel
³

et al. 2021
Phys. Rev. Lett.
73
4
28
0
View full text Add to dashboard Cite

Van Hove singularity in the magnon spectrum of the antiferromagnetic quantum honeycomb lattice

Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr4S8

Structural evolution of the kagome superconductors AV3Sb5 (A = K, Rb, and Cs) through charge density wave order

Flat band separation and robust spin Berry curvature in bilayer kagome metals

Terahertz dielectric analysis and spin-phonon coupling in multiferroic GeV4S8

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Ganesh Pokharel

Electronic properties of the topological kagome metals YV6Sn6 and GdV6Sn6

Negative thermal expansion and magnetoelastic coupling in the breathing pyrochlore lattice material LiGaCr4S8

Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV6Sn6 ( Peng1, Han2, Pokharel3 et al. 2021Phys. Rev. Lett.734280View full textAdd to dashboardCite

Van Hove singularity in the magnon spectrum of the antiferromagnetic quantum honeycomb lattice

Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr4S8

Structural evolution of the kagome superconductors AV3Sb5 (A = K, Rb, and Cs) through charge density wave order

Flat band separation and robust spin Berry curvature in bilayer kagome metals

Terahertz dielectric analysis and spin-phonon coupling in multiferroic GeV4S8

Contact Info

Product

Resources

About

Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV6Sn6 (
Peng
¹
,
Han
²
,
Pokharel
³

et al. 2021
Phys. Rev. Lett.
73
4
28
0
View full text Add to dashboard Cite