8,545 research outputs found
Spinon Confinement in the One-Dimensional Ising-Like Antiferromagnet SrCo2V2O8
For quasi-one dimensional quantum spin systems theory predicts the occurrence
of a confinement of spinon excitation due to interchain couplings. Here we
investigate the system SrCo2V2O8, a realization of the weakly-coupled
Ising-like XXZ antiferromagnetic chains, by terahertz spectroscopy with and
without applied magnetic field. At low temperatures a series of excitations is
observed, which split in a Zeeman-like fashion in an applied magnetic field.
These magnetic excitations are identified as the theoretically predicted
spinon-pair excitations. Using a one dimensional Schr\"odinger equation with a
linear confinement potential imposed by weak interchain couplings, the
hierarchy of the confined spinons can be fully described.Comment: 4 pages, 3 figure
Field Induced Magnetic Ordering and Single-ion Anisotropy in the Quasi-1D Haldane Chain Compound SrNi2V2O8: A Single Crystal investigation
Field-induced magnetic ordering in the Haldane chain compound
SrNiVO and effect of anisotropy have been investigated using
single crystals. Static susceptibility, inelastic neutron scattering,
high-field magnetization, and low temperature heat-capacity studies confirm a
non-magnetic spin-singlet ground state and a gap between the singlet ground
state and triplet excited states. The intra-chain exchange interaction is
estimated to be 0.1 meV. Splitting of the dispersions into two
modes with minimum energies 1.57 and 2.58 meV confirms the existence of
single-ion anisotropy . The value of {\it D} is estimated to be
meV and the easy axis is found to be along the
crystallographic {\it c}-axis. Field-induced magnetic ordering has been found
with two critical fields [0.2 T and
0.5 T at 4.2 K]. Field-induced
three-dimensional magnetic ordering above the critical fields is evident from
the heat-capacity, susceptibility, and high-field magnetization study. The
Phase diagram in the {\it H-T} plane has been obtained from the high-field
magnetization. The observed results are discussed in the light of theoretical
predictions as well as earlier experimental reports on Haldane chain compounds
Evolution of antiferromagnetic domains in the all-in-all-out ordered pyrochlore NdZrO
We report the observation of magnetic domains in the exotic,
antiferromagnetically ordered all-in-all-out state of NdZrO,
induced by spin canting. The all-in-all-out state can be realized by Ising-like
spins on a pyrochlore lattice and is established in NdZrO below
0.31 K for external magnetic fields up to 0.14 T. Two different spin
arrangements can fulfill this configuration which leads to the possibility of
magnetic domains. The all-in-all-out domain structure can be controlled by an
external magnetic field applied parallel to the [111] direction. This is a
result of different spin canting mechanism for the two all-in-all-out
configurations for such a direction of the magnetic field. The change of the
domain structure is observed through a hysteresis in the magnetic
susceptibility. No hysteresis occurs, however, in case the external magnetic
field is applied along [100].Comment: Accepted for publication in Phys. Rev. B, 6 pages, 6 figure
An Improved Slant Path Attenuation Prediction Method in Tropical Climates
An improved method for predicting slant path attenuation in tropical climates is presented in this paper. The proposed approach is based on rain intensity data R_0.01 (mm/h) from 37 tropical and equatorial stations; and is validated by using the measurement data from a few localities in tropical climates. The new method seems to accurately predict the slant path attenuation in tropical localities, and the comparative tests seem to show significant improvement in terms of the RMS of the relative error variable compared to the RMS obtained with the SAM, Crane, and ITU-R prediction models
Magnetic soft modes in the locally distorted triangular antiferromagnet alpha-CaCr2O4
In this paper we explore the phase diagram and excitations of a distorted
triangular lattice antiferromagnet. The unique two-dimensional distortion
considered here is very different from the 'isosceles'-type distortion that has
been extensively investigated. We show that it is able to stabilize a 120{\deg}
spin structure for a large range of exchange interaction values, while new
structures are found for extreme distortions. A physical realization of this
model is \alpha-CaCr2O4 which has 120{\deg} structure but lies very close to
the phase boundary. This is verified by inelastic neutron scattering which
reveals unusual roton-like minima at reciprocal space points different from
those corresponding to the magnetic order.Comment: 5 pages, 3 figures and lots of spin-wave
Consequences of critical interchain couplings and anisotropy on a Haldane chain
Effects of interchain couplings and anisotropy on a Haldane chain have been
investigated by single crystal inelastic neutron scattering and density
functional theory (DFT) calculations on the model compound SrNiVO.
Significant effects on low energy excitation spectra are found where the
Haldane gap (; where is the intrachain exchange
interaction) is replaced by three energy minima at different antiferromagnetic
zone centers due to the complex interchain couplings. Further, the triplet
states are split into two branches by single-ion anisotropy. Quantitative
information on the intrachain and interchain interactions as well as on the
single-ion anisotropy are obtained from the analyses of the neutron scattering
spectra by the random phase approximation (RPA) method. The presence of
multiple competing interchain interactions is found from the analysis of the
experimental spectra and is also confirmed by the DFT calculations. The
interchain interactions are two orders of magnitude weaker than the
nearest-neighbour intrachain interaction = 8.7~meV. The DFT calculations
reveal that the dominant intrachain nearest-neighbor interaction occurs via
nontrivial extended superexchange pathways Ni--O--V--O--Ni involving the empty
orbital of V ions. The present single crystal study also allows us to
correctly position SrNiVO in the theoretical - phase
diagram [T. Sakai and M. Takahashi, Phys. Rev. B 42, 4537 (1990)] showing where
it lies within the spin-liquid phase.Comment: 12 pages, 12 figures, 3 tables PRB (accepted). in Phys. Rev. B (2015
Softened magnetic excitations in the s = 3/2 distorted triangular antiferromagnet alpha-CaCr2O4
The spin dynamics and magnetic excitations of the slightly distorted
triangular s = 3/2 system alpha-CaCr2O4 are investigated by means of Raman
spectroscopy and electron spin resonance (ESR) to elucidate its peculiar
magnetic properties. Two-magnon excitations in circular RL symmetry show a
multi-maximum structure with a dominant spectral weight at low energies. The
temperature dependence of the ESR linewidth is described by a critical
broadening DeltaHpp(T) ~ (T - T_N)^{-p} with the exponent p = 0.30(3) - 0.38(5)
for temperatures above T_N = 42.6 K. The exponent is much smaller than that of
other s = 3/2 triangular lattices. This is ascribed to soft roton-like modes,
indicative of the instability of a helical 120{\deg} phase. As an origin we
discuss a complex spin topology formed by four inequivalent nearest neighbor
and sizable next-nearest neighbor interactions.Comment: 7 pages, 4 figure
Macroscopic quantum tunneling and phase diffusion in a LaSrCuO intrinsic Josephson junction stack
We performed measurements of switching current distribution in a submicron
LaSrCuO (LSCO) intrinsic Josephson junction (IJJ) stack in a
wide temperature range. The escape rate saturates below approximately 2\,K,
indicating that the escape event is dominated by a macroscopic quantum
tunneling (MQT) process with a crossover temperature K. We
applied the theory of MQT for IJJ stacks, taking into account dissipation and
the phase re-trapping effect in the LSCO IJJ stack. The theory is in good
agreement with the experiment both in the MQT and in the thermal activation
regimes.Comment: 9 pages, 7 figure
Exciton-magnon transitions in the frustrated chromium antiferromagnets CuCrO2, alpha-CaCr2O4, CdCr2O4, and ZnCr2O4
We report on optical transmission spectroscopy of the Cr-based frustrated
triangular antiferromagnets CuCrO2 and alpha-CaCr2O4, and the spinels CdCr2O4
and ZnCr2O4 in the near-infrared to visible-light frequency range. We explore
the possibility to search for spin correlations far above the magnetic ordering
temperature and for anomalies in the magnon lifetime in the magnetically
ordered state by probing exciton-magnon sidebands of the spin-forbidden
crystal-field transitions of the Cr3+ ions (spin S = 3/2). In CuCrO2 and
alpha-CaCr2O4 the appearance of fine structures below T_N is assigned to magnon
sidebands by comparison with neutron scattering results. The temperature
dependence of the line width of the most intense sidebands in both compounds
can be described by an Arrhenius law. For CuCrO2 the sideband associated with
the 4A2 -> 2T2 transition can be observed even above T_N. Its line width does
not show a kink at the magnetic ordering temperature and can alternatively be
described by a Z2 vortex scenario proposed previously for similar materials.
The exciton-magnon features in alpha-CaCr2O4 are more complex due to the
orthorhombic distortion. While for CdCr2O4 magnon sidebands are identified
below T_N and one sideband excitation is found to persist across the magnetic
ordering transition, only a weak fine structure related to magnetic ordering
has been observed in ZnCr2O4.Comment: 14 pages, 10 figures, all comments are welcome and appreciated,
accepted for publication in PR
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