C. Stingl scite author profile

We have prepared high-quality epitaxial thin films of CaRuO 3 with residual resistivity ratios up to 55. Shubnikov-de Haas oscillations in the magnetoresistance and a T 2 temperature dependence in the electrical resistivity only below 1.5 K, whose coefficient is substantially suppressed in large magnetic fields, establish CaRuO 3 as a Fermi liquid (FL) with anomalously low coherence scale. Non-Fermi liquid (NFL) T 3/2 dependence is found between 2 and 25 K. The high sample quality allows access to the intrinsic electronic properties via THz spectroscopy. For frequencies below 0.6 THz, the conductivity is Drude-like and can be modeled by FL concepts, while for higher frequencies non-Drude behavior, inconsistent with FL predictions, is found. This establishes CaRuO 3 as a prime example of optical NFL behavior in the THz range.PACS numbers:

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Persistent Detwinning of Iron-PnictideEuFe2As2Crystals by Small External Magnetic Fields

Zapf

Stingl

Post

et al. 2014

Phys. Rev. Lett.

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Our comprehensive study on EuFe_{2}As_{2} reveals a dramatic reduction of magnetic detwinning fields compared to other AFe_{2}As_{2} (A=Ba, Sr, Ca) iron pnictides by indirect magnetoelastic coupling of the Eu^{2+} ions. We find that only ∼0.1 T are sufficient for persistent detwinning below the local Eu^{2+} ordering; above T_{Eu}=19 K, higher fields are necessary. Even after the field is switched off, a significant imbalance of twin domains remains constant up to the structural and electronic phase transition (190 K). This persistent detwinning provides the unique possibility to study the low temperature electronic in-plane anisotropy of iron pnictides without applying any symmetry-breaking external force.

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Symmetry-Breaking Lattice Distortion inSr3Ru2O7

et al. 2011

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The electronic nematic phase of Sr₃Ru₂O₇ is investigated by high-resolution in-plane thermal expansion measurements in magnetic fields close to 8 T applied at various angles Θ off the c axis. At Θ < 10° we observe a very small (10⁻⁷) lattice distortion which breaks the fourfold in-plane symmetry, resulting in nematic domains with interchanged a and b axis. At Θ ≳ 10° the domains are almost fully aligned and thermal expansion indicates an area-preserving lattice distortion of order 2 × 10⁻⁶ which is likely related to orbital ordering. Since the system is located in the immediate vicinity of a metamagnetic quantum critical end point, the results represent the first observation of a structural relaxation driven by quantum criticality.

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C. Stingl

Characteristic signatures of quantum criticality driven by geometrical frustration

Low-Energy Electronic Properties of CleanCaRuO3: Elusive Landau Quasiparticles

Persistent Detwinning of Iron-PnictideEuFe2As2Crystals by Small External Magnetic Fields

Symmetry-Breaking Lattice Distortion inSr3Ru2O7

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