# Electronic structure and magnetic properties of the strong-rung spin-1   ladder compound Rb$_3$Ni$_2$(NO$_3$)$_7$

**Authors:** Z. V. Pchelkina, V. V. Mazurenko, O. S. Volkova, E. B. Deeva, I. V., Morozov, S. I. Troyanov, J. Werner, C. Koo, R. Klingeler, and A. N. Vasiliev

arXiv: 1702.00979 · 2018-05-02

## TL;DR

This study investigates the electronic and magnetic properties of Rb$_3$Ni$_2$(NO$_3$)$_7$, revealing a spin liquid ground state in a novel spin-1 ladder compound through experimental and computational methods.

## Contribution

The paper provides the first detailed characterization of a new spin-1 ladder compound, including structural, magnetic, and quantum properties, with quantitative estimates of coupling parameters.

## Key findings

- Absence of long-range magnetic order at T ≥ 2 K.
- Quantitative estimates of J1, J2, and anisotropy A.
- Evidence supporting a spin liquid quantum ground state.

## Abstract

Small single crystals of Rb$_3$Ni$_2$(NO$_3$)$_7$ were obtained by crystallization from anhydrous nitric acid solution of rubidium nitrate and nickel nitrate hexahydrate. The basic elements of the crystal structure of this new compound are isolated spin-1 two-leg ladders of Ni$^{2+}$-ions connected by (NO$_3$)$^-$ groups. The experimental data show the absence of long range magnetic order at T $\geq 2$~K. LDA+U calculations and the detailed analysis of the experimental data, i.e. of the magnetic susceptibility, the specific heat in magnetic fields up to 9~T, the magnetization, and of the high-frequency electron spin resonance data, enable quantitative estimates of the relevant parameters of the $S=1$ ladders in Rb$_3$Ni$_2$(NO$_3$)$_7$ . The rung-coupling $J_1 = 10.5$~K, the leg-coupling $J_2=1.6$~K, and the uniaxial anisotropy $|A| = 179$~GHz are obtained. The scenario of spin liquid quantum ground state is further corroborated by quantum Monte Carlo simulations of the magnetic susceptibility.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1702.00979/full.md

## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1702.00979/full.md

## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1702.00979/full.md

---
Source: https://tomesphere.com/paper/1702.00979