Honeycomb structure
View article: Antiferromagnetism and Kekulé valence bond order in the honeycomb optical Su-Schrieffer-Heeger-Hubbard model
Antiferromagnetism and Kekulé valence bond order in the honeycomb optical Su-Schrieffer-Heeger-Hubbard model Open
The precise role of e-ph coupling in graphene and related materials on a honeycomb lattice is not yet fully understood, despite extensive research on these systems. Here, we perform sign-problem-free determinant quantum Monte Carlo (DQMC) …
View article: Optical deformation measurement for thin-walled honeycomb structure with contacting cell walls under loading based on color image processing
Optical deformation measurement for thin-walled honeycomb structure with contacting cell walls under loading based on color image processing Open
View article: Effects of Build Orientation and Loading Direction on the Compressive Behavior of Additively Manufactured Re-Entrant Auxetic Materials
Effects of Build Orientation and Loading Direction on the Compressive Behavior of Additively Manufactured Re-Entrant Auxetic Materials Open
Additive manufacturing (AM) technologies, particularly Fused Deposition Modeling (FDM) and Digital Light Processing (DLP), offer viable solutions for producing Auxetic materials characterized by their negative Poisson’s ratio. This study i…
View article: Bamboo-derived hierarchical honeycomb structure–driven N-Carbon/Fe/Fe3C hetero-multiphase interfacial architecture
Bamboo-derived hierarchical honeycomb structure–driven N-Carbon/Fe/Fe3C hetero-multiphase interfacial architecture Open
View article: Multi-Objective Optimization of Extrusion Parameters for High-Performance Honeycomb Cordierite Ceramics via Orthogonal Design
Multi-Objective Optimization of Extrusion Parameters for High-Performance Honeycomb Cordierite Ceramics via Orthogonal Design Open
Cordierite diesel particulate filters (DPFs) were prepared using pure cordierit powder with organic binders, sodium silicate aids and pore formers by extrusion technique. The orthogonal test method was adopted to investigate the optimal va…
View article: Tunable Poisson’s ratio design in beetle-inspired honeycomb cores: in-plane compression mechanisms and dual-mode deformation
Tunable Poisson’s ratio design in beetle-inspired honeycomb cores: in-plane compression mechanisms and dual-mode deformation Open
The beetle elytron has been identified as a natural sandwich structure whose core topology can be abstracted as a combination of honeycomb cells and trabeculae. Inspired by this biological architecture, the corresponding inspired structure…
View article: Chiral spin liquid instability of the Kitaev honeycomb model with crystallographic defects
Chiral spin liquid instability of the Kitaev honeycomb model with crystallographic defects Open
We study the spin-1/2 Kitaev honeycomb gapless spin liquid in the presence of Stone-Wales-type local lattice defects with odd-sided plaquettes. While the clean Kitaev model has no finite-temperature phase transitions, we find that introduc…
View article: Layerwise Stratification and Band Reordering in Twisted Multilayer MoTe$_2$
Layerwise Stratification and Band Reordering in Twisted Multilayer MoTe$_2$ Open
We introduce a generalizable, physics informed strategy for generating training data that enables a machine learning force field accurate over a broad range of twist angles and stacking layer numbers in moire systems. Applying this to mult…
View article: Chiral spin liquid instability of the Kitaev honeycomb model with crystallographic defects
Chiral spin liquid instability of the Kitaev honeycomb model with crystallographic defects Open
We study the spin-1/2 Kitaev honeycomb gapless spin liquid in the presence of Stone-Wales-type local lattice defects with odd-sided plaquettes. While the clean Kitaev model has no finite-temperature phase transitions, we find that introduc…
View article: Layerwise Stratification and Band Reordering in Twisted Multilayer MoTe$_2$
Layerwise Stratification and Band Reordering in Twisted Multilayer MoTe$_2$ Open
We introduce a generalizable, physics informed strategy for generating training data that enables a machine learning force field accurate over a broad range of twist angles and stacking layer numbers in moire systems. Applying this to mult…
View article: Study on the Shielding Effectiveness of Airborne Navigation Equipment Enclosures Under High-Intensity Radiated Fields (HIRFs)
Study on the Shielding Effectiveness of Airborne Navigation Equipment Enclosures Under High-Intensity Radiated Fields (HIRFs) Open
High-Intensity Radiated Fields (HIRFs) can cause severe interference to airborne GNSS equipment. This paper builds a CST model based on the real structure and evaluates shielding effectiveness (SE) with respect to frequency, material, pola…
View article: Damage Degradation Behavior of Wave‐Absorbing Efficiency for Honeycomb Sandwich Structure under Large‐Angle Oblique Incidence
Damage Degradation Behavior of Wave‐Absorbing Efficiency for Honeycomb Sandwich Structure under Large‐Angle Oblique Incidence Open
Honeycomb sandwich structure with tunable electromagnetic parameters serves as an important load‐bearing, stealth‐shielding integrated component in the domain of aviation equipment. To cope with the long‐range detection of radar detection …
View article: Bond-dependent interactions and ill-ordered state in the honeycomb cobaltate <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mrow> <mml:msub> <mml:mi>BaCo</mml:mi> <mml:mn>2</mml:mn> </mml:msub> <mml:msub> <mml:mrow> <mml:mo>(</mml:mo> <mml:msub> <mml:mi>AsO</mml:mi> <mml:mn>4</mml:mn> </mml:msub> <mml:mo>)</mml:mo> </mml:mrow> <mml:mn>2</mml:mn> </mml:msub> </mml:mrow> </mml:math>
Bond-dependent interactions and ill-ordered state in the honeycomb cobaltate Open
The ground state and Hamiltonian of the honeycomb lattice material BaCo 2 ( AsO 4 )
View article: Lightweight Photonic Cooler with Multi-Layered Thin Film IR Filters and Anti-Dust Properties for PV Applications in Desert Environments
Lightweight Photonic Cooler with Multi-Layered Thin Film IR Filters and Anti-Dust Properties for PV Applications in Desert Environments Open
The present research is dedicated to the design and fabrication of advanced multi-stacked thin-film structures composed of alternating metal-oxide and metallic layers. These engineered coatings are conceived as multifunctional photonic coo…
View article: Order-by-disorder from Schwinger bosons in a frustrated honeycomb ferromagnet
Order-by-disorder from Schwinger bosons in a frustrated honeycomb ferromagnet Open
The cobalt-based honeycomb magnet BaCo$_2$(AsO$_4$)$_2$ (BCAO) has recently emerged as a promising platform for studying frustrated magnetism beyond conventional paradigms. Neutron-scattering experiments and first-principles calculations h…
View article: Order-by-disorder from Schwinger bosons in a frustrated honeycomb ferromagnet
Order-by-disorder from Schwinger bosons in a frustrated honeycomb ferromagnet Open
The cobalt-based honeycomb magnet BaCo$_2$(AsO$_4$)$_2$ (BCAO) has recently emerged as a promising platform for studying frustrated magnetism beyond conventional paradigms. Neutron-scattering experiments and first-principles calculations h…
View article: Enhanced Low-Energy Impact Localization for Carbon-Fiber Honeycomb Sandwich Panels Using LightGBM
Enhanced Low-Energy Impact Localization for Carbon-Fiber Honeycomb Sandwich Panels Using LightGBM Open
Low-energy impacts have been demonstrated to cause damage and failure in aircraft structures, thereby affecting the structural load-bearing performance and creating safety hazards. In this study, an innovative damage-monitoring method base…
View article: Finite-temperature topological magnons in honeycomb ferromagnets with sublattice asymmetries
Finite-temperature topological magnons in honeycomb ferromagnets with sublattice asymmetries Open
The Comment [Y.-M. Li, B. Wei, and K. Chang, Phys. Rev. Lett. 132, 219601 (2024)] pointed out that it is incorrect to predict the temperature-driven topological phase transition of Dirac magnons in honeycomb ferromagnets with Dzyaloshinski…
View article: Pseudo-magnetic Fields and Effective Dynamics in Strained Honeycomb Structures
Pseudo-magnetic Fields and Effective Dynamics in Strained Honeycomb Structures Open
Strain offers a straightforward and effective method for generating pseudo-magnetic fields in optical and acoustic materials, thereby enabling precise manipulation of wave propagation. In this article, we investigate and justify wave packe…
View article: Dynamic Compressive Mechanical Behavior of a Novel Three-Dimensional Re-Entrant Honeycomb (3D-RH) Structure
Dynamic Compressive Mechanical Behavior of a Novel Three-Dimensional Re-Entrant Honeycomb (3D-RH) Structure Open
Negative Poisson’s ratio structural materials have unique deformation characteristics and excellent mechanical properties, and are widely used in multiple key fields, such as aerospace, nuclear safety, rail transit, and so on. However, mos…
View article: Pseudo-magnetic Fields and Effective Dynamics in Strained Honeycomb Structures
Pseudo-magnetic Fields and Effective Dynamics in Strained Honeycomb Structures Open
Strain offers a straightforward and effective method for generating pseudo-magnetic fields in optical and acoustic materials, thereby enabling precise manipulation of wave propagation. In this article, we investigate and justify wave packe…
View article: Influence of Fused Filament Fabrication Strategy on Polyamide Properties
Influence of Fused Filament Fabrication Strategy on Polyamide Properties Open
This study investigates the influence of Fused Filament Fabrication (FFF) parameters on the properties of polyamide (PA, Nylon™) parts, which are valued for their excellent mechanical properties in additive manufacturing. The parameters ex…
View article: Dynamics of entanglement asymmetry for space-inversion symmetry of free fermions on honeycomb lattices
Dynamics of entanglement asymmetry for space-inversion symmetry of free fermions on honeycomb lattices Open
We study the entanglement asymmetry for the space-inversion symmetry of free fermions on a two-dimensional honeycomb lattice with an on-site energy imbalance between the two sublattices. We show that the entanglement asymmetry of a local s…
View article: Glass fiber-based phenolic aerogel confined by honeycomb structure for excellent noise reduction
Glass fiber-based phenolic aerogel confined by honeycomb structure for excellent noise reduction Open
View article: Topological transition induced by selective random defects on a honeycomb lattice
Topological transition induced by selective random defects on a honeycomb lattice Open
We investigate how the spectral and topological properties of electron systems evolve on a lattice that interpolates between the honeycomb and its 1/6-depleted structures through the introduction of selective random defects. We find that i…
View article: Finite Element Analysis of Material and Structural Design for Tri-Camera Imaging Stability
Finite Element Analysis of Material and Structural Design for Tri-Camera Imaging Stability Open
Stereo vision is critical for environmental perception in autonomous driving, but faces challenges in accuracy and stability under extreme automotive temperature cycles. This study addresses environment-induced deformation in tri-camera im…
View article: Bending strength measurement of structures printed via fused deposition modeling with different infill patterns
Bending strength measurement of structures printed via fused deposition modeling with different infill patterns Open
Additive Manufacturing (AM) processes are new ways of producing techniques that work by printing parts layer upon layer using 3D models. AM has some subcategories, which are classified according to the used parent materials. Fused Depositi…
View article: Reusable 3D-Printed Thermoplastic Polyurethane Honeycombs for Mechanical Energy Absorption
Reusable 3D-Printed Thermoplastic Polyurethane Honeycombs for Mechanical Energy Absorption Open
In this study, we investigate the mechanical energy absorption performance of reusable 3D-printed honeycomb structures fabricated using fused deposition modeling with three thermoplastic polyurethane variants: TPU 70A, TPU 85A, and TPU 95A…
View article: Orbital-Resolved Tuning of Electronic Thermal Conductivity in Monolayer h-B2O via Doping in the Diffusive Regime
Orbital-Resolved Tuning of Electronic Thermal Conductivity in Monolayer h-B2O via Doping in the Diffusive Regime Open
The highly stable two-dimensional monolayer honeycomb borophene oxide (h-B2O) has attracted considerable interest due to its unique topological features and potential superconducting behavior. In this study, a tight-binding Hamiltonian is …
View article: Honeycomb structured membranes from cellulose–polystyrene composites: quantitative evaluation of casting parameters and membrane ordering
Honeycomb structured membranes from cellulose–polystyrene composites: quantitative evaluation of casting parameters and membrane ordering Open
Honeycomb-structured membranes are emerging as highly functional materials for applications in separation, biomedical engineering, and surface coatings. However, efforts to incorporate cellulose into these membranes have been limited by it…