Prof Radu Coldea

Anisotropy of the zigzag order in the Kitaev honeycomb magnet $\alpha$-RuBr$_3$

(2024)

Authors:

John S Pearce, David AS Kaib, Zeyu Ma, Danrui Ni, RJ Cava, Roser Valenti, Radu Coldea, Amalia I Coldea

Compass-model physics on the hyperhoneycomb lattice in the extreme spin-orbit regime: Data archive

University of Oxford (2024)

Authors:

Ryutaro Okuma, Kylie MacFarquharson, Roger D Johnson, David Voneshen, Pascal Manuel, Radu Coldea

Abstract:

This dataset contains plain text files containing the data presented in the corresponding manuscript.

Selective synthesis and crystal chemistry of candidate rare earth Kitaev materials honeycomb and hyperhoneycomb Na2PrO3: Data archive

University of Oxford (2024)

Authors:

Ryutaro Okuma, Kylie MacFarquharson, Radu Coldea

Abstract:

This dataset contains plain text files containing the data presented in Figures 1, 4, 6, 7 and 8 of the corresponding manuscript published in Inorganic Chemistry.

Excitations of quantum Ising chain CoNb2O6 in low transverse field: quantitative description of bound states stabilized by off-diagonal exchange and applied field

(2023)

Authors:

Leonie Woodland, Izabella Lovas, M Telling, D Prabhakaran, Leon Balents, Radu Coldea

Excitations of quantum Ising chain CoNb2O6 in low transverse field: Quantitative description of bound states stabilized by off-diagonal exchange and applied field

Physical Review B American Physical Society (APS) 108:18 (2023) 184417

Authors:

Leonie Woodland, Izabella Lovas, M Telling, D Prabhakaran, Leon Balents, Radu Coldea

Abstract:

We present experimental and theoretical evidence of novel bound state formation in the low transverse field ordered phase of the quasi-one-dimensional Ising-like material CoNb2O6. High-resolution single-crystal inelastic neutron scattering measurements observe that small transverse fields lead to a breakup of the spectrum into three parts, each evolving very differently upon increasing field. This can be naturally understood starting from the excitations of the ordered phase of the transverse field Ising model, domain wall quasiparticles (solitons). Here, the transverse field and a staggered off-diagonal exchange create one-soliton hopping terms with opposite signs. We show that this leads to a rich spectrum and a special field, when the strengths of the off-diagonal exchange and transverse field match, at which solitons become localized; the highest field investigated is very close to this special regime. We solve this case analytically and find three two-soliton continua, along with three novel bound states. Perturbing away from this novel localized limit, we find very good qualitative agreement with the experimental data. We also present calculations using exact diagonalization of a recently refined Hamiltonian model for CoNb2O6 and using diagonalization of the two-soliton subspace, both of which provide a quantitative agreement with the observed spectrum. The theoretical models qualitatively and quantitatively capture a variety of nontrivial features in the observed spectrum, providing insight into the underlying physics of bound state formation.