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Twisted stacking lets 2D conductor keep single-layer performance in bulk form
Twisted stacking lets 2D conductor keep single-layer performance in bulk form Lisa Lock Scientific Editor Robert Egan Associate Editor Two-dimensional (2D) materials, which are significantly thinner than a single sheet of paper, have long drawn attention for their exceptional performance. However, they have faced a critical limitation: Their performance degrades significantly when multiple layers are stacked. A research team led by Professor Sarah S. Park from the Department of Chemistry at...
N PLUS INFINITY TIMES TWO threatens to revitalize 2D platforming in 2027
N PLUS INFINITY TIMES TWO threatens to revitalize 2D platforming in 2027 Metanet is bringing minimalism and precise mechanics to consoles and PC next year. Metanet co-founders Mare Sheppard and Raigan Burns present themselves as two humble Canadians who simply want to blow your mind with platforming innovations. This is what they're known for, as the creators of the genre-defining 2D platforming series N, which debuted in 2004 and continued to ignite during the indie explosion of the 2010s.
New HD-2D Final Fantasy announced for consoles and PC
New HD-2D Final Fantasy announced for consoles and PC Final Fantasy Resonance is the first game in the series to employ the popular modern-retro art style. Square Enix has spent the last few years giving all sorts of games the lavish HD-2D treatment, from classic titles reimagined to brand new franchises. But for whatever reason it's only now getting round to Final Fantasy.
CamFlow+: Hybrid Motion Bases for 2D Camera Motion Estimation with Stabilization Applications
Announce Type: new Abstract: Estimating 2D camera motion is fundamental to computer vision and computational photography. Existing homography-based methods work well for planar scenes or pure rotation, but struggle with camera translation, depth variation, and local parallax; local homography and mesh-based models improve flexibility but still rely on piecewise planar assumptions. We introduce CamFlow+, a hybrid-basis framework that represents 2D camera motion directly in dense-flow space.
Dimensionality of a strongly interacting 2D-3D Fermi-Fermi mixture from the perspective of superfluid instability and excitation properties
Announce Type: cross Abstract: We theoretically investigate strong-coupling properties of an attractively interacting Fermi atomic gas, where the Cooper-pair formation occurs between atoms belonging to different dimensional bands. Including pairing fluctuations within the framework of the self-consistent $T$-matrix approximation (SCTMA), we examine how the BCS-type superfluid phase transition temperature $T_\mathrm{c}$ varies as one moves from the 3D-3D to the 2D-3D system, in the wide...
Multi-planar 2D-U-Net Segmentation of 3D-CT Abdominal Organs augmented by Spatial Occurrence Maps
arXiv:2606.07717v1 Announce Type: cross Abstract: This work proposes a lightweight 2D-U-Net-based framework for segmenting five abdominal organs in large field-of-view 3D CT scans. The method combines coarse-to-fine segmentation, predictions from multiple anatomical planes, and additional fuzzy 3D spatial maps that provide anatomical location cues to improve segmentation accuracy.
Strain creates moiré 2D materials without twisting or stacking, opening more scalable route
Strain creates moiré 2D materials without twisting or stacking, opening more scalable route Lisa Lock Scientific Editor Robert Egan Associate Editor Cornell researchers have developed a new way to create moiré patterns—atomic-scale structures that can give materials unusual quantum behaviors—without relying on the traditionally used difficult-to-control twisting and stacking methods. The study is published in the Proceedings of the National Academy of Sciences. Why moiré materials matter...
Photoexcitation flips 2D moiré devices from metals to insulators in ultrafast test
June 4, 2026 feature Photoexcitation flips 2D moiré devices from metals to insulators in ultrafast test Ingrid Fadelli Author Sadie Harley Scientific Editor Robert Egan Associate Editor Quantum materials, materials with properties that are governed by the laws of quantum mechanics describing many-body interactions, have proved promising for the development of various advanced technologies. Many of these materials undergo so-called phase transitions, switching between different physical...
Steering Selective Formation and 2D Crystallization of [4]Radialenes on Au(111) via [1+1+1+1] Cycloaddition of Isocyanides and Enantioselective Molecular Recognition
arXiv:2606.08111v1 Announce Type: cross Abstract: Conjugated carbon rings are fundamental skeletons of organic functional materials, and their selective formation is of paramount importance in molecular materials engineering. However, steering the formation and 2D crystallization of conjugated carbon rings on the surface with high chemo- and stereoselectivities remains a great challenge.
Exact solution of the two-dimensional (2D) Ising model at an external magnetic field
arXiv:2512.16935v4 Announce Type: replace Abstract: The exact solution of the two-dimensional (2D) Ising model at an external magnetic field is derived by a modified Clifford algebraic approach. At first, the transfer matrices are analyzed in three representations, i.e., Clifford algebraic representation, transfer tensor representation and schematic representation, to inspect nonlocal effects in this many-body interacting system. It is ensured that nontrivial topological structures exist in...