Rucl3 Spin Liquid

  1. Spin transport in a quantum spin orbital liquid.
  2. Evidence of a Phonon Hall Effect in the Kitaev Spin Liquid.
  3. Gapless Spin Excitations in the Field-Induced Quantum Spin.
  4. Polarization-resolved Raman spectroscopy of \alpha-RuCl3 and... - NIST.
  5. Christopher Ryder - Process Engineer - Intel Corporation - LinkedIn.
  6. Oscillations of the thermal conductivity in the spin-liquid state of α.
  7. Ruthenium(III) chloride - Wikipedia.
  8. Identification of magnetic interactions and high-field.
  9. Quantum spin liquid - Wikipedia.
  10. Finite field regime for a quantum spin liquid in α−RuCl3.
  11. Possible structural transformation and enhanced magnetic fluctuations.
  12. Neutron scattering in the proximate quantum spin liquid α.
  13. Magneto-optical study of metamagnetic transitions in the.

Spin transport in a quantum spin orbital liquid.

维普中文期刊服务平台,是重庆维普资讯有限公司标准化产品之一,本平台以《中文科技期刊数据库》为数据基础,通过对国内出版发行的15000余种科技期刊、7000万篇期刊全文进行内容组织和引文分析,为高校图书馆、情报所、科研机构及企业用户提供一站式文献服务。. Possible Kitaev spin liquid physics and topological transitions in a-RuCl 3. 2 SEN CNLS 2019 Outline I. Kitaev'smodel • Quick reminder of possible relevance to materials • Basics of a-RuCl 3... N 7 K the spin waves disappear throughout the Brillouin zone • Above T N the continuum near the Gpoint persists. 21 SEN CNLS 2019. We study spin-phonon interactions in quantum spin liquid candidate RuCl3 under magnetic fields of up to 6T and mK temperatures with polarization-resolved Raman spectroscopy.

Evidence of a Phonon Hall Effect in the Kitaev Spin Liquid.

Frustrated magnets with strong spin-orbit coupling promise to host topological states of matter, with fractionalized excitations and emergent gauge fields. Kitaev's proposal for a honeycomb-lattice Majorana spin liquid has triggered an intense search for experimental realizations, with bond-dependent Ising interaction being the essential building block. A prime candidate is $α$-RuCl$_3$ whose. OSTI.GOV Conference: Spin-phonon interactions in Quantum Spin Liquid Candidate α-RuCl3..

Gapless Spin Excitations in the Field-Induced Quantum Spin.

May 09, 2021 · Spin-phonon interactions in Quantum Spin Liquid Candidate α-RuCl3... Show authors. Publication Type. Conference Paper. Book Title. Proceedings Conference on Lasers and Electro-Optics (Part of CLEO: 2021) Publication Date. May, 2021. Conference Name. The main aim of this review is to summarize experimental evidence obtained by THz spectroscopy and utilizing heat-capacity experiments, which point to the existence of fractionalized excitations in the spin-liquid state, which in -RuCl3 exists at temperatures just above the onset of magnetic order or at in-plane magnetic fields just beyond the.

Polarization-resolved Raman spectroscopy of \alpha-RuCl3 and... - NIST.

Experimental Detection of a Quantum Spin Liquid Nejc Janša, 2022, doktorsko delo/naloga Ključne besede: quantum spin liquid , Kitaev model , quantum computation , nuclear magnetic resonance , nuclear quadrupole resonance , Kitaev paramagnet , α-RuCl3 , BaCo2(AsO4)2 , Majorana fermion , gauge flux , fractionalization , anyon , spin excitation.

Christopher Ryder - Process Engineer - Intel Corporation - LinkedIn.

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Oscillations of the thermal conductivity in the spin-liquid state of α.

This “Kitaev quantum spin liquid” supports magnetic excitations equivalent to Majorana fermions—particles that are unusual in that they are their own antiparticles. The presence of Majorana fermions is of great interest because. May 13, 2021 The study, Oscillations of the thermal conductivity in the spin-liquid state of -RuCl3, by Peter Czajka, Tong Gao, Max Hirschberger, Paula Lampen-Kelley, Arnab Banerjee, Jiaqiang Yan, David G. Mandrus, Stephen E. Nagler and N. P. Ong, was published in the journal Nature Physics online on May 13, 2021. DOI: 10.1038/s41567-021-01243-x.

Ruthenium(III) chloride - Wikipedia.

Apr 01, 2022 · The material α−RuCl3 has been the subject of intense scrutiny as a potential Kitaev quantum spin liquid, predicted to display Majorana fermions as low-energy excitations. In practice, α−RuCl3 undergoes a transition to a state with antiferromagnetic order below a temperature TN≈7 K, but this order can be suppressed by applying an. The layered honeycomb lattice material α-RuCl 3 has emerged as a prime candidate for displaying the Kitaev quantum spin liquid state, and as such has attracted much research interest. Here a new layered honeycomb lattice polymorph of RuI 3, a material that is strongly chemically and structurally related to α-RuCl 3 is described. The material is synthesized at moderately elevated pressures..

Identification of magnetic interactions and high-field.

A quantum spin liquid is an exotic quantum state of matter that does not exhibit any classical magnetic ordered ground state. The realization of such a state in actual materials is of significant importance as it would provide a path to protected states for quantum information applications and also to Majorana fermions - both areas of vigorous current activity and interest in condensed matter.

Quantum spin liquid - Wikipedia.

May 01, 2021 · The layered insulator α-RuCl3 orders as a zigzag antiferromagnet at low temperature in zero magnetic field4. The zigzag order is destroyed when a magnetic field is applied parallel to the zigzag axis. At moderate magnetic field strength, there is growing evidence that a quantum spin-liquid state exists. Jun 08, 2017 · The Kitaev quantum spin liquid (KQSL) is an exotic emergent state of matter exhibiting Majorana fermion and gauge flux excitations. The magnetic insulator α-RuCl3 is thought to realize a proximate KQSL. We used neutron scattering on single crystals of α-RuCl3 to reconstruct dynamical correlations in energy-momentum space.

Finite field regime for a quantum spin liquid in α−RuCl3.

These we report here for a ruthenium-based material, α-RuCl3, continuing a major search (so far concentrated on iridium materials) for realizations of the celebrated Kitaev honeycomb topological QSL. Our measurements confirm the requisite strong spin-orbit coupling and low-temperature magnetic order matching predictions proximate to the QSL.

Possible structural transformation and enhanced magnetic fluctuations.

Theoretical concepts of spin-liquid phases are numer-ous and in most cases rather complex. However, from an experimental point of view, the identification of strong frustration effects in magnetic systems is straightforward and a much easier task. Systems with localized magnetic moments with spin S coupled by finite effective exchange. REPORT QUANTUM MAGNETISM Neutron scattering in the proximate quantum spin liquid a-RuCl 3 Arnab Banerjee,1* Jiaqiang Yan,2 Johannes Knolle,3 Craig A. Bridges,4 Matthew B. Stone, 1Mark D. Lumsden, David G. Mandrus,2,5 David A. Tennant,6 Roderich Moessner,7 Stephen E. Nagler1* The Kitaev quantum spin liquid (KQSL) is an exotic emergent state of matter exhibiting.

Neutron scattering in the proximate quantum spin liquid α.

Manuscript Generator Sentences Filter. Translation. English-简体中文.. Aug 27, 2021 · The ground state in frustrated spin systems either can be a spin liquid or a dynamically disordered quantum state. However, as experimentally observed in the vast majority of cases, the ground state represents some non-generic magnetic order, driven by residual non-leading magnetic interactions.

Magneto-optical study of metamagnetic transitions in the.

May 13, 2021 · The ORNL team has extensively studied the quantum spin liquid properties of ruthenium chloride. In a series of experiments extending over nearly three years, Czajka and Gao detected the temperature oscillations consistent with spinons with increasingly higher resolution, providing evidence that the electron is composed of two particles. A prominent case is the Kitaev spin liquid, host of remarkable properties such as protection of quantum information and the emergence of Majorana fermions.... Plumb, K. W. et al. α-RuCl3: A spin. Α-RuCl 3, a layered candidate material to host the Kitaev quantum spin liquid, is exfoliated down to single- and few-layer flakes.. Raman spectroscopy is performed to study the evolution of structure with thickness and temperature. • A symmetry-forbidden mode appears in only the thinnest flakes at low temperature, evidencing a possible structural transformation.


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