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Literature DB >> 23003185

Chemical pressure effects on pyrochlore spin ice.

H D Zhou¹, J G Cheng, A M Hallas, C R Wiebe, G Li, L Balicas, J S Zhou, J B Goodenough, J S Gardner, E S Choi.

Abstract

A comparison among the two sets of studied pyrochlore spin ices, Ho2Sn2O7, Ho2Ti2O7, and Ho2Ge2O7 with Ho3+ spins and Dy2Sn2O7, Dy2Ti2O7, and Dy2Ge2O7 with Dy3+ spins, shows that the application of chemical pressure through each set drives the system toward the antiferromagnetic phase boundary from the spin ice region, which agrees with the prediction of the "dipolar spin ice" model of den Hertog and Gingras. Among all the studied pyrochlore spin ices, Dy2Ge2O7 has the smallest ratio of Jnn/Dnn=-0.73.

Entities: Chemical

Year: 2012 PMID： 23003185 DOI： 10.1103/PhysRevLett.108.207206

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

3 in total

Chemical pressure effects on pyrochlore spin ice.

1. Magnetic phase transitions and monopole excitations in spin ice under uniaxial pressure: A Monte Carlo simulation.

2. Magnetic-charge ordering and phase transitions in monopole-conserved square spin ice.

3. A comparative study of high-pressure behaviors of the two polymorphs of Ho₂Ge₂O₇.

Chemical pressure effects on pyrochlore spin ice.

1. Magnetic phase transitions and monopole excitations in spin ice under uniaxial pressure: A Monte Carlo simulation.

2. Magnetic-charge ordering and phase transitions in monopole-conserved square spin ice.

3. A comparative study of high-pressure behaviors of the two polymorphs of Ho2Ge2O7.

3. A comparative study of high-pressure behaviors of the two polymorphs of Ho₂Ge₂O₇.