YbCuSe2 realizes a quantum spin liquid ground state with dynamical phase separation below 0.7 K and roton-like excitations between 4.5 K and 1.8 K inferred from muon spin relaxation.
Canonical reference
Shannon, Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides, Acta Cryst A 32 (1976) 751-767
Canonical reference. 100% of citing Pith papers cite this work as background.
citation-role summary
citation-polarity summary
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2026 8roles
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background 5representative citing papers
Uranus and Neptune are reinterpreted as magma-ocean giants with hydrogen-rich interiors rather than traditional ice giants, consistent with observations via three fit parameters each.
Multi-fidelity bandits screen 529 ZnO co-dopants with 81% fewer DFT calls, identify Y2Cu2 co-doped ZnO (1.84 eV) as optimal for visible-light band gaps, and release all 583 calculations plus code.
Layered ordering of Br and I anions in CsPbBrxI3-x perovskites induces strongly anisotropic defect diffusion, with ready migration along layers and strongly suppressed diffusion across layers due to strain, octahedral tilting, and local bonding preferences.
Wet infiltration co-dopes 3YSZ with Sc, Mg, and Y, producing samples with varying tetragonal and cubic phases plus altered hardness and translucency compared to standard 3YSZ and 5YSZ.
DFT study of novel K2SnGeX6 and Rb2SnGeX6 (X=Cl,Br,I) predicts cubic stability, direct bandgaps 0.64-1.44 eV, ductility, and ZT up to 2.4 at 1000 K for K2SnGeI6.
Host cation identity in BaF2 versus CaF2 governs the balance between Yb2+ and Yb3+ stabilization and defect-driven optical responses at low doping levels.
Models coupling hydrogen-silicate-iron miscibility with atmospheric escape reproduce the observed mass-radius occurrence density of sub-Neptunes and super-Earths.
citing papers explorer
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Quantum spin liquid ground state with the evidence of roton-like excitations at elevated temperatures in the triangular-lattice delafossite YbCuSe$_2$
YbCuSe2 realizes a quantum spin liquid ground state with dynamical phase separation below 0.7 K and roton-like excitations between 4.5 K and 1.8 K inferred from muon spin relaxation.
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Ice Giants Revisited: Uranus and Neptune as Magma Ocean Worlds
Uranus and Neptune are reinterpreted as magma-ocean giants with hydrogen-rich interiors rather than traditional ice giants, consistent with observations via three fit parameters each.
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Accelerated Dopant Screening in Oxide Semiconductors via Multi-Fidelity Contextual Bandits and a Three-Tier DFT Validation Funnel
Multi-fidelity bandits screen 529 ZnO co-dopants with 81% fewer DFT calls, identify Y2Cu2 co-doped ZnO (1.84 eV) as optimal for visible-light band gaps, and release all 583 calculations plus code.
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Anisotropic Defect Diffusion in Layered CsPbBr$_\mathrm{x}$I$_\mathrm{3-x}$ Perovskites
Layered ordering of Br and I anions in CsPbBrxI3-x perovskites induces strongly anisotropic defect diffusion, with ready migration along layers and strongly suppressed diffusion across layers due to strain, octahedral tilting, and local bonding preferences.
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Structural effects of liquid infiltration of 3Y-Zirconia with Sc, Mg and Y
Wet infiltration co-dopes 3YSZ with Sc, Mg, and Y, producing samples with varying tetragonal and cubic phases plus altered hardness and translucency compared to standard 3YSZ and 5YSZ.
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First-Principles Study of Novel Lead-Free Double Perovskite \b{eta}2SnGeX6 (\b{eta} = K, Rb; X = Cl, Br, I) for thermomechanical, optoelectronic and outstanding thermoelectric applications
DFT study of novel K2SnGeX6 and Rb2SnGeX6 (X=Cl,Br,I) predicts cubic stability, direct bandgaps 0.64-1.44 eV, ductility, and ZT up to 2.4 at 1000 K for K2SnGeI6.
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Ytterbium charge state and stabilization in the Ba(Ca)F$_2$ host by electron paramagnetic resonance and infrared photoluminescence
Host cation identity in BaF2 versus CaF2 governs the balance between Yb2+ and Yb3+ stabilization and defect-driven optical responses at low doping levels.
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The Influences of Hydrogen-Silicate-Iron Miscibility on the Demographics of Sub-Neptunes and Super-Earths
Models coupling hydrogen-silicate-iron miscibility with atmospheric escape reproduce the observed mass-radius occurrence density of sub-Neptunes and super-Earths.