A zoo of presaturation phases in novel quantum ferro-antiferromagnets.
Invited
Abstract
The standard paradigm of magnetic-saturation-by-BEC-of-magnons breaks down close to a classical ferro-antiferromagnetic transition [1]. Upon decreasing the external magnetic field the fully polarized state collapses before the single magnon instability is reached. New quantum presaturation phases with unusual long range orders may emerge, including spin density waves, nematics and chiral states.
Strong frustration of FM and AFM interactions is uncommon in materials. Among the most interesting candidates are the layered vanady phosphates ABVO(PO4)2 (proximate J1-J2 square lattices) and linear-chain molybdates (Rb, Cs)2Cu2Mo3O12 (J1-J2 spin chains). Both families are known for quite some time, but their investigation were hampered by a lack of single crystals. In recent breakthoughs, large crystals of BaCdVO(PO4)2 , Pb2VO(PO4)2 , SrZnVO(PO4)2 were synthesized. The spin Hamiltonians was determined in neutron spectroscopy experiments [2] and the behavior in applied fields was studied in detail [3-5]. Indeed, novel presaturation phases were found in each of these materials, but seem to vary considerably between species.
Smaller single crystals of the molybdates are now also available [6,7]. The Cs system shows an entire cascade of field-induced transitions with a very distinctive presaturation phase [7]. The Rb material has a presaturation phase as well. It is more subtle and is only revealed in highly sensitive dielectric experiments.
It is a good moment in time for theorists to step in and help classify the animals in the zoo of new quantum presaturation phases in these compounds.
[1] H. T. Ueda and T. Momoi, Phys. Rev. B 87, 144417 (2013).
[2] Bettler et al., Phys. Rev. B 99, 184437(2019).
[3] Povarov et al., Phys. Rev. B 99 024413 (2019).
[4] Bhartiya et al., Phys. Rev. Research 1, 033078 (2019).
[5] Landolt et al., Phys. Rev. B 102, 094414 (2020).
[6] Hayashida et al., Phys. Rev. B 100, 134427 (2019).
[7] Flavian et al., Phys. Rev. B 101, 224408 (2020).
Strong frustration of FM and AFM interactions is uncommon in materials. Among the most interesting candidates are the layered vanady phosphates ABVO(PO4)2 (proximate J1-J2 square lattices) and linear-chain molybdates (Rb, Cs)2Cu2Mo3O12 (J1-J2 spin chains). Both families are known for quite some time, but their investigation were hampered by a lack of single crystals. In recent breakthoughs, large crystals of BaCdVO(PO4)2 , Pb2VO(PO4)2 , SrZnVO(PO4)2 were synthesized. The spin Hamiltonians was determined in neutron spectroscopy experiments [2] and the behavior in applied fields was studied in detail [3-5]. Indeed, novel presaturation phases were found in each of these materials, but seem to vary considerably between species.
Smaller single crystals of the molybdates are now also available [6,7]. The Cs system shows an entire cascade of field-induced transitions with a very distinctive presaturation phase [7]. The Rb material has a presaturation phase as well. It is more subtle and is only revealed in highly sensitive dielectric experiments.
It is a good moment in time for theorists to step in and help classify the animals in the zoo of new quantum presaturation phases in these compounds.
[1] H. T. Ueda and T. Momoi, Phys. Rev. B 87, 144417 (2013).
[2] Bettler et al., Phys. Rev. B 99, 184437(2019).
[3] Povarov et al., Phys. Rev. B 99 024413 (2019).
[4] Bhartiya et al., Phys. Rev. Research 1, 033078 (2019).
[5] Landolt et al., Phys. Rev. B 102, 094414 (2020).
[6] Hayashida et al., Phys. Rev. B 100, 134427 (2019).
[7] Flavian et al., Phys. Rev. B 101, 224408 (2020).
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Presenters
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Andrey Zheludev
ETH Zurich, Laboratory for Solid State Physics, ETH Zurich
Authors
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Andrey Zheludev
ETH Zurich, Laboratory for Solid State Physics, ETH Zurich
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Simon L. Bettler
ETH Zurich, Department of Physics and Materials Research Laboratory, University of Illinois
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Vivek Kumar Bhartiya
ETH Zurich
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Daniel Flavian Blasco
ETH Zurich
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Shohei Hayashida
ETH Zurich, ISSP, The Univ. of Tokyo
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Florian Landolt
ETH Zurich
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Kirill Povarov
ETH Zurich, Laboratory for Solid State Physics, ETH Zurich
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Zewu Yan
ETH Zurich