Add to ORKGHoneycomb iridates are thought to have strongly spin-anisotropic exchange interactions that could lead to an extraordinary state of matter known as the Kitaev quantum spin liquid. The realization of this state requires almost perfectly frustrated interactions between the magnetic Ir$^{4+}$ ions, but small imbalances in energy make other ordered states more favorable. Indeed, the closeness in energy of these ordered states is itself a signature of the intrinsic frustration in the system. In this work, we illustrate that small magnetic fields can be employed to drive the frustrated quantum magnet $\beta-$Li$_2$IrO$_3$,between different broken symmetry states, but without causing a true thermodynamic phase transition. This field-induced broken...
In this doctoral dissertation, we consider the significance of spin-orbit coupling for the phases of...
Honeycomb iridates such as γ-Li2IrO3 are argued to realize Kitaev spin-anisotropic magnetic exchange...
We present a theoretical study of the response of $\beta$-$\text{Li}_2\text{IrO}_3$ under external m...
Honeycomb iridates are thought to have strongly spin-anisotropic exchange interactions that could le...
Magnetic honeycomb iridates are thought to show strongly spin-anisotropic exchange interactions whic...
Iridium oxides with a honeycomb lattice have been identified as platforms for the much anticipated K...
Iridium oxides with a honeycomb lattice have been identified as platforms for the much anticipated K...
The complex antiferromagnetic orders observed in the honeycomb iridates are a double-edged sword in ...
Due to the combination of a substantial spin-orbit coupling and correlation effects, iridium oxides ...
Iridium-based compounds display a rich variety of physical behaviours that stems from the intricate ...
International audienceKitaev magnets are materials with bond-dependent Ising interactions between lo...
The layered honeycomb iridate α-Li2IrO3 displays an incommensurate magnetic structure with counterro...
In this doctoral dissertation, we consider the significance of spin-orbit coupling for the phases of...
Honeycomb iridates such as γ-Li2IrO3 are argued to realize Kitaev spin-anisotropic magnetic exchange...
We present a theoretical study of the response of $\beta$-$\text{Li}_2\text{IrO}_3$ under external m...
Honeycomb iridates are thought to have strongly spin-anisotropic exchange interactions that could le...
Magnetic honeycomb iridates are thought to show strongly spin-anisotropic exchange interactions whic...
Iridium oxides with a honeycomb lattice have been identified as platforms for the much anticipated K...
Iridium oxides with a honeycomb lattice have been identified as platforms for the much anticipated K...
The complex antiferromagnetic orders observed in the honeycomb iridates are a double-edged sword in ...
Due to the combination of a substantial spin-orbit coupling and correlation effects, iridium oxides ...
Iridium-based compounds display a rich variety of physical behaviours that stems from the intricate ...
International audienceKitaev magnets are materials with bond-dependent Ising interactions between lo...
The layered honeycomb iridate α-Li2IrO3 displays an incommensurate magnetic structure with counterro...
In this doctoral dissertation, we consider the significance of spin-orbit coupling for the phases of...
Honeycomb iridates such as γ-Li2IrO3 are argued to realize Kitaev spin-anisotropic magnetic exchange...
We present a theoretical study of the response of $\beta$-$\text{Li}_2\text{IrO}_3$ under external m...