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Article
MdCKS1 Expression Involved in Fruit Size in Apple Cultivar ‘Fuji’ and ‘Ralls’
CKS (cyclin-dependent kinase subunit) is one of cell cycle genes, and cell cycle in apple (Malus × domestic Borkh.) fruit controlled cell number and fruit size. In order to explore CKS expression during the devel...
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Article
Open AccessSpin-valley locking and bulk quantum Hall effect in a noncentrosymmetric Dirac semimetal BaMnSb2
Spin-valley locking in monolayer transition metal dichalcogenides has attracted enormous interest, since it offers potential for valleytronic and optoelectronic applications. Such an exotic electronic state ha...
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Article
Open AccessNano-imaging of strain-tuned stripe textures in a Mott crystal
The 4d transition metal perovskites Can+1RunO3n+1 have attracted interest for their strongly interacting electronic phases showing pronounced sensitivity to controllable stimuli like strain, temperature, and even...
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Article
Ultrasound evidence for a two-component superconducting order parameter in Sr2RuO4
The quasi-two-dimensional metal Sr2RuO4 is one of the best characterized unconventional superconductors, yet the nature of its superconducting order parameter is still under debate1–3. This information is crucial...
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Article
Publisher Correction: Ultrasound evidence for a two-component superconducting order parameter in Sr2RuO4
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
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Article
Electronic correlations in nodal-line semimetals
Dirac fermions with highly dispersive linear bands1–3 are usually considered weakly correlated due to the relatively large bandwidths (W) compared to Coulomb interactions (U). With the discovery of nodal-line sem...
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Article
Directional massless Dirac fermions in a layered van der Waals material with one-dimensional long-range order
One or a few layers of van der Waals (vdW) materials are promising for applications in nanoscale electronics. Established properties include high mobility in graphene, a large direct gap in monolayer MoS2, the qu...
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Article
Electron mass enhancement and magnetic phase separation near the Mott transition in double-layer ruthenates
We present a detailed investigation of the specific heat of Ca3(Ru1-xMx)2O7 (M = Ti, Fe, Mn) single crystals. Depending on the dopant and do** level, three distinct regions are present: a quasitwo-dimensional m...
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Article
Open AccessTemperature- and field-driven spin reorientations in triple-layer ruthenate Sr4Ru3O10
Sr4Ru3O10, the n = 3 member of the Ruddlesden-Popper type ruthenate Srn+1Ru n O3n+1, is known to exhibit a peculiar metamagnetic transition in an in-plane magnetic field. However...
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Article
Open AccessUnusual interlayer quantum transport behavior caused by the zeroth Landau level in YbMnBi2
Relativistic fermions in topological quantum materials are characterized by linear energy–momentum dispersion near band crossing points. Under magnetic fields, relativistic fermions acquire Berry phase of π in cy...
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Article
A magnetic topological semimetal Sr1−yMn1−zSb2 (y, z < 0.1)
Weyl (WSMs) evolve from Dirac semimetals in the presence of broken time-reversal symmetry (TRS) or space-inversion symmetry. The WSM phases in TaAs-class materials and photonic crystals are due to the loss of ...
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Article
Open AccessStrong lattice correlation of non-equilibrium quasiparticles in a pseudospin-1/2 Mott insulator Sr2IrO4
In correlated oxides the coupling of quasiparticles to other degrees of freedom such as spin and lattice plays critical roles in the emergence of symmetry-breaking quantum ordered states such as high temperatu...
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Article
Open AccessMagnetic phase separation in double layer ruthenates Ca3(Ru1−xTix)2O7
A phase transition from metallic AFM-b antiferromagnetic state to Mott insulating G-type antiferromagnetic (G-AFM) state was found in Ca3(Ru1−xTix)2O7 at about x = 0.03 in our previous work. In the present, we fo...
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Article
Open Accessπ Berry phase and Zeeman splitting of Weyl semimetal TaP
The recent breakthrough in the discovery of Weyl fermions in monopnictide semimetals provides opportunities to explore the exotic properties of relativistic fermions in condensed matter. The chiral anomaly-ind...
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Article
Open AccessObservation of universal strong orbital-dependent correlation effects in iron chalcogenides
Establishing the appropriate theoretical framework for unconventional superconductivity in the iron-based materials requires correct understanding of both the electron correlation strength and the role of Ferm...
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Article
Enhanced electron coherence in atomically thin Nb3SiTe6
The effect of electron–phonon interactions on transport properties of 2D materials is unclear. Transport measurements on atomically thin Nb3SiTe6 crystals now show that reduced dimensionality results in the suppr...
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Article
Enhanced spin-triplet superconductivity near dislocations in Sr2RuO4
Superconductors with a chiral p-wave pairing are of great interest because they could support Majorana modes that could enable the development of topological quantum computing technologies that are robust against...
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Article
Open AccessCompetition Between Antiferromagnetism and Ferromagnetism in Sr2RuO4 Probed by Mn and Co Do**
Spin-triplet superconductivity in Sr2RuO4 has attracted enormous interest. Like other unconventional superconductors, superconductivity in Sr2RuO4 is in close proximity to magnetic instability. Undoped Sr2RuO4 ex...
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Article
From (π,0) magnetic order to superconductivity with (π,π) magnetic resonance in Fe1.02Te1−xSex
The simplest iron-based superconductor is the chalcogenide Fe1+yTe1−xSex. Previous work suggested a different magnetic origin of superconductivity owing to differences in its electronic states of this material an...
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Chapter and Conference Paper
Solar-Hydrogen Energy System Design
Solar energy is a kind of unstable energy source as its time and the geographical distribution. Thus storage and transportation of solar energy is necessary. An ideal way of doing this is to storage electricit...
