Microstrain in CoMoO4 thin films suppresses the β→α structural transition, stabilizing the β-phase and producing blue-shifted optical transitions via enhanced crystal field.
Toby and Robert B
7 Pith papers cite this work. Polarity classification is still indexing.
citation-role summary
citation-polarity summary
fields
cond-mat.mtrl-sci 7years
2026 7representative citing papers
Magnetization, transport, and muon spin relaxation measurements provide evidence for altermagnetic order in Fe0.85Cr0.15Sb2 below ~3.5 K with time-reversal symmetry breaking but no net magnetization.
Heavy rare-earth R2Co6Al20-δ single crystals adopt orthorhombic Imma structure with Al deficiency δ ~0.7-0.9 and exhibit AFM ordering (TN 1.8-11.8 K) with two transitions in Gd/Tb and clear deviation from de Gennes scaling.
RADAR-PD introduces a modality-aware ML system that generates phase hypotheses from elemental constraints and performs recursive multiphase analysis with physics-constrained verification on experimental diffraction data.
Hybrid two-stage optimization framework uses AI for peak/density tasks and physics constraints for robust PXRD crystal structure solving on complex or low-quality cases.
UB4-UBC composites achieve higher uranium density than monolithic UB4 and exhibit oxidation resistance comparable to other candidate accident-tolerant fuels.
Both (CePr)O2-δ and (CePrLa)O2-δ retain cubic fluorite structure to 30 GPa with a 9-16 GPa anomaly from local distortions and bond bending, while the La-containing compound amorphizes above 22 GPa.
citing papers explorer
-
Strain-induced suppression of thermochromism in divalent cobalt molybdate thin films
Microstrain in CoMoO4 thin films suppresses the β→α structural transition, stabilizing the β-phase and producing blue-shifted optical transitions via enhanced crystal field.
-
Evidence for altermagnetic order in Cr-doped FeSb2
Magnetization, transport, and muon spin relaxation measurements provide evidence for altermagnetic order in Fe0.85Cr0.15Sb2 below ~3.5 K with time-reversal symmetry breaking but no net magnetization.
-
Physical properties of R$_2$Co$_6$Al$_{20-\delta}$ (R = Gd-Tm, Y) single crystals
Heavy rare-earth R2Co6Al20-δ single crystals adopt orthorhombic Imma structure with Al deficiency δ ~0.7-0.9 and exhibit AFM ordering (TN 1.8-11.8 K) with two transitions in Gd/Tb and clear deviation from de Gennes scaling.
-
Automated multiphase identification and refinement in powder diffraction using mismatch-tolerant machine learning
RADAR-PD introduces a modality-aware ML system that generates phase hypotheses from elemental constraints and performs recursive multiphase analysis with physics-constrained verification on experimental diffraction data.
-
Ab-initio Crystal Structure Determination from Powder X-Ray Diffraction
Hybrid two-stage optimization framework uses AI for peak/density tasks and physics constraints for robust PXRD crystal structure solving on complex or low-quality cases.
-
Design rules for industrial-scale sintering of UB4-UBC composites with high uranium density
UB4-UBC composites achieve higher uranium density than monolithic UB4 and exhibit oxidation resistance comparable to other candidate accident-tolerant fuels.
-
Comparative high-pressure study on rare-earth entropy fluorite-type oxides
Both (CePr)O2-δ and (CePrLa)O2-δ retain cubic fluorite structure to 30 GPa with a 9-16 GPa anomaly from local distortions and bond bending, while the La-containing compound amorphizes above 22 GPa.