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NEW
Verification of Magnetic Structure Observation at the Atomic Scale
2026-6-2
Magnetic neutron scattering holography (MNH) were performed on a Fe0.08Co0.92 single crystal. The resulting holograms provided the first experimental evidence that MNH is sensitive to magnetic signals.
Atomic and molecular physics
Cross-disciplinary physics and related areas of science and technology
Nuclear physics
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PICKUP
Magnetic-Field Driven Switching of Multipolar Order in an f-Electron System
2026-5-22
This study investigates high-rank multipole physics in f-electron systems, providing the first clear experimental evidence for field-induced switching of ferro-quadrupole order in a non-Kramer ion system, along with a new conceptual framework
Magnetic properties in condensed matter
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Refining Primordial Black Hole Formation with Peak Theory and a Physical Collapse Criterion
2026-5-18
This study introduces a refined framework for primordial black hole formation, replacing older approximations with peak theory and physical collapse criterion, resulting in revised predictions for their mass and abundance.
Theoretical Astrophysics and Cosmology
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New Crosscap States: Modular Bootstrap on Unorientable Manifolds
2026-5-11
We derive a generalized modular bootstrap equation for conformal field theories on unorientable manifolds in the presence of symmetry defects and identify new crosscap states labeled by noninvertible symmetries.
Theoretical Particle Physics
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Role of the Diffusion Layer in Energy Devices
2026-5-1
In many energy devices, electron transfer occurs between ions dissolved in the electrolyte and the electrodes. For keep current flowing, new ions must be supplied continuously to the electrode surface from the bulk region. The diffusion layer’s role in diffusive mass transfer was clarified using the rotating disk electrode method.
Cross-disciplinary physics and related areas of science and technology
Structure and mechanical and thermal properties in condensed matter
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Enhancing Accuracy and Reliability Bayesian Framework for Analysis of AR-HAXPES of Hard X-ray Photoelectron Spectroscopy
2026-4-28
We present a Bayesian framework for angle-resolved hard X-ray photoelectron spectroscopy (AR-HAXPES), combining Replica Exchange Monte Carlo with hierarchical integration to objectively and precisely estimate thin-film thickness.
Dielectric, optical, and other properties in condensed matter
Electronic structure and electrical properties of surfaces and nanostructures
Measurement, instrumentation, and techniques
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What Shapes Electron Distributions in Nonequilibrium Nanowires?
2026-4-20
A theoretical framework was developed to describe nonequilibrium electron distributions across the ballistic, diffusive, and local equilibrium transport regimes in voltage-biased nanowires in a unified manner.
Electronic transport in condensed matter
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Unveiling the Nodal Topology of the Spin-Triplet Superconductor Candidate UTe2
2026-4-13
Using high-quality UTe2 (Tc = 2.1 K), we identify its nodal gap structure. Field-angle‑resolved specific‑heat reveals a b-axis singularity, supporting spin-triplet superconductivity with nodes along the b axis.
Structure and mechanical and thermal properties in condensed matter
Superconductivity
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Toward Clarification of Physical Properties of Quasicrystals: Noncollinear Magnetic Orders in Icosahedral Approximants
2026-4-6
An effective model based on magnetic anisotropy arising from a crystalline electric field is constructed for icosahedral approximants, which not only explains measured ferromagnets and antiferromagnets but also reveals new types of noncollinear magnetic orders.
Cross-disciplinary physics and related areas of science and technology
Electronic transport in condensed matter
Magnetic properties in condensed matter
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Definitive Momentum and Spin Imaging Resolves 20-Year Debate on Gold Surface Spin
2026-4-1
Researchers at the Institute for Molecular Science (IMS) have utilized a cutting-edge Photoelectron Momentum Microscope (PMM) at the UVSOR Synchrotron Facility to settle a two-decade-long controversy concerning the direction of electron spin on the Au(111) surface. This study provides a definitive, full-map, comprehensive reference for quantum imaging that is essential for advancing spintronics technology.
Electronic structure and electrical properties of surfaces and nanostructures
Magnetic properties in condensed matter
