Superconducting properties of Fibonacci chains with enhanced superconducting pairing at the boundaries

Zhu Q.; Zha G.; A. Shanenko; Chen Y.

doi:10.1103/j8tj-82ty

Publications

?

Superconducting properties of Fibonacci chains with enhanced superconducting pairing at the boundaries

Physical Review B: Condensed Matter and Materials Physics. 2025. Vol. 112. No. 13. Article 134503.

Zhu Q., Zha G., Shanenko A., Chen Y.

Recently, the superconducting properties of Fibonacci quasicrystals have attracted considerable attention. By numerically solving the self-consistent Bogoliubov-de Gennes equations for a Fibonacci chain under superconducting proximity, we find that the system exhibits universal end superconductivity, where the pair potential at the chain ends can persist at higher temperatures compared to the bulk critical temperature (T_cb) of the condensate in the chain center. Furthermore, our study reveals two distinct critical temperatures at the left end (T_cL) and right end (T_cR), governing the superconducting condensate at the chain ends. This complex behavior arises from the competition between topological bound states and critical states, a characteristic of quasicrystals. Due to the geometric configuration of Fibonacci chain approximants, T_cL and T_cb are independent of the Fibonacci sequence number n, while T_cR significantly depends on the parity of n. With the chosen parameters, the maximal enhancement of T_cR occurs for even n, reaching up to 50 % relative to T_cb, while T_cL can increase by up to 23 %. Our study sheds light on the phenomenon of end superconductivity in Fibonacci quasicrystals, pointing to alternative pathways for discovering materials with higher superconducting critical temperatures.

Research target: Physics Nanotechnologies Materials Technologies Electronics and Electrical Engineering

Keywords: Fibonacci quasicrystal Edge superconductivity критические состояния топологические связанные состояния Фибоначчи квазикристалл Краевая сверхпроводимость critical states topological bound states

Publication based on the results of:

Влияние конкурирующих взаимодействий и топологии на критические параметры современных сверхпроводящих материалов (2027)

Signatures of Reconnection and a Split Heliospheric Tail in High-energy Energetic Neutral Atoms

Kornbleuth M., Opher M., Drake J. F. et al., Astrophysical Journal 2026 Vol. 1004 No. 1 P. 1–18

The shape of the heliosphere, regarded as comet-like since the 1960s, has recently been the subject of intense debate in the last decade. There is disagreement as to whether the heliospheric tail extends to ∼10,000 au in a comet-like shape or if it is short (∼400 au) with a split. Energetic neutral atom (ENA) maps from ...

Added: June 3, 2026

Two-dimensional hexagonal boron nitride-ferrofluid hybrids enable efficient magnetic cooling

Карцев А. И., Nishant T., Saswata G. et al., Journal of Materials Chemistry C 2026 Article -

Overheating remains a critical limitation in high-performance electronic and computing systems, necessitating the development of efficient thermal management fluids. In this work, a magnetically responsive hybrid ferrofluid was developed by incorporating two-dimensional hexagonal boron nitride (2D-hBN) nanosheets into a Mn–Zn–ferrite-based ferrofluid. The hybrid system retains magnetic responsiveness while leveraging the high in-plane thermal conductivity and chemical stability of 2D-hBN nanosheets. ...

Added: June 2, 2026

The critical role of shear antiphase boundaries in τ-Mn(Al,Ga) rapidly quenched alloy

Fortuna A. S., A.I. Kartsev, Gorshenkov M. V. et al., Journal of Alloys and Compounds 2026 Vol. 1070 Article 188711

The τ-phase in Mn-Al-Ga alloys is a promising candidate for rare-earth-free permanent magnets. This study re-veals that the τ(γ₂)-phase in rapidly quenched Mn55Al36Ga9 ribbons contains a high density of dislocations, which form antiphase boundaries (APBs). Using transmission electron microscopy and density functional theory, we demonstrate that Mn atoms at these APBs couple antiferromagnetically. This antiferromagnetic interaction is identified ...

Added: June 2, 2026

Facile and Green Approach to Synthesize Biomass-Derived Zero-/Two-Dimensional Carbon Dots/g-C3N4 Heterojunction for Efficient Photocatalytic and Photoelectrocatalytic Applications

Das A., Saikia J., Maji N. et al., ChemNanoMat 2026 Vol. 12 No. 5 Article e202500733

Developing efficient photoactive materials from bio-derived resources is vital yet challenging for achieving effective water splitting performance. In this work, nano carbon dots (CDs) of zero-dimensional (0D) were synthesized from papaya peel through a simple and eco-friendly process and subsequently anchored onto the two-dimensional (2D) layered structure of graphitic carbon nitride (g-C3N4, GCN) at various ...

Added: June 2, 2026

Optimal Design of Copper-Doped ZnO Heterostructures for Photocatalytic and Photoeletrochemical Performance: A Combined Experimental and DFT Study

Wary R. R., Mahato B., Sharma N. et al., The Journal of Physical Chemistry Letters 2026 Vol. 17 No. 17 P. 5099–5107

Development of heterojunction materials is an efficient approach for enhancing photocatalytic and photoelectrochemical processes. We develop a ZnO/CuO heterojunction via Cu doping into a ZnO matrix. Structural characterization confirmed that Cu was effectively incorporated into ZnO without any structural changes. The improved optical properties and reduced charge carrier recombination of the doped samples were confirmed ...

Added: June 2, 2026

Combined Experimental and Ab Initio Study of Sc Doping in MgB2: Decoupling Electronic and Microstructural Effects on Superconductivity

Dikhtievskaya K., Argunov E., Карцев А. И. et al., The Journal of Physical Chemistry Letters 2026 Vol. 17 No. 17 P. 4999–5004

In this study we revealed the effect of scandium doping on the electronic and superconducting properties of the MgB2 compound. Calculations demonstrate that Sc substitutes for Mg atoms, acting as an electron donor. Mg substitution diminishes the density of states in the σ-band and attenuates the electron–phonon coupling, thereby elucidating the reduction in critical temperature. Simultaneously, ...

Added: June 2, 2026

Bridging Superconductors With United Nations Development Goals: Perspectives and Applications

Duran E. ., Pulgar A., Izquierdo R. et al., Physica Status Solidi (A) Applications and Materials 2026 Vol. 223 No. 7 Article e202500942

Ceramic superconductors exhibit remarkable properties, including zero electrical resistance and potent magnetic behavior, operating at temperatures as high as the boiling points of liquid nitrogen (77 K) and liquid hydrogen (20 K). These characteristics position them as key enablers for sustainable technologies spanning electric propulsion, lossless energy transmission, advanced medical imaging, and quantum computation. This review presents ...

Added: June 1, 2026

Численное моделирование полевой эмиссии из полупроводникового катода в вакуум

Borisov V., Danilov V., Электросвязь 2025 № 12 С. 73–84

Представлены результаты математического моделирования процесса полевой эмиссии из катода малых размеров – одного из основных физических процессов, обеспечивающих работы многих электронных устройств, в частности FED-дисплеев (устройства, работающие на принципе полевой эмиссии), кантилеверов и т.д. Дается краткий обзор текущих результатов в области исследования, обосновывается актуальность задачи, приводятся примеры наиболее вероятного использования результатов решения задачи. Обсуждаются физические ...

Added: May 29, 2026

Электростатически управляемый контроль диссипации в двумерном наноэлектромеханическом резонаторе через напряжение-амплитудный антагонизм с рекордной 928% подстройкой добротности.

Arutyunov K., JIANG1 Q., FANG J. et al., Science China Information Sciences 2026 Vol. 69 No. 6 P. 1–11

Resonators based on nanoelectromechanical systems (NEMS) using two-dimensional (2D) materials with high-quality factors and excellent electrical control are critical for tunable coherent phonon dynamics, resonant sensors and wireless communications. However, their performance is fundamentally limited by the lack of a unified framework governing energy dissipation mechanisms and their electrical tunability. Here, we synergistically modulate both ...

Added: May 28, 2026

Enhanced Terahertz Thermoelectricity Via Engineered Van Hove Singularities and Nernst Effect in Moiré Superlattices

Elesin L., Shilov A., Jana S. et al., Advanced Functional Materials 2026 P. 1–10

Thermoelectric materials, long explored for energy harvesting and thermal sensing, convert heat directly into electrical signals. Extending their application to the terahertz (THz) frequency range opens opportunities for low-noise, bias-free THz detection, yet conventional thermoelectrics lack the sensitivity required for practical devices. Thermoelectric coefficients can be strongly enhanced near van Hove singularities (VHS), though these ...

Added: May 28, 2026

Non-linear in-band interference cancellation on base of conjugate gradients method

Degtyarev A., Bakhurin S., Yudin N., DSPA 2026 P. 1–6

This paper investigates one possible solution to the problem of self-interference cancellation (SIC) arising in the design of in-band full-duplex (IBFD) communication systems. Self-interference cancellation is performed in the digital domain using multilayer nonlinear models adapted via gradient-based optimization. The presence of local minima and saddle points during the adaptation of multilayer models limits the ...

Added: May 26, 2026

Ising models on the hydrogen peroxide and other lattices

Qian X., Deng Y., Lev N. Shchur et al., Physica A: Statistical Mechanics and its Applications 2026 Vol. 696 Article 131679

We perform a Monte Carlo analysis of the Ising model on many three-dimensional lattices. By means of finite-size scaling we obtain the critical points and determine the scaling dimensions. As expected, the critical exponents agree with the three-dimensional Ising universality class for all models. The irrelevant field, as revealed by the correction-to-scaling amplitudes, appears to ...

Added: May 24, 2026

Hartree–Fock interaction in superconducting condensate fractals

Edward G. Nikonov, Chen Y., Doria M. et al., Beilstein Journal of Nanotechnology 2025 Vol. 16 P. 2177–2182

It is well known that the Hartree–Fock (HF) interaction does not alter observables in conventional superconductors as its effect is mainly reduced to a chemical potential shift. Deviations from this behavior can only arise in situations of translational symmetry breaking, for example, caused by the presence of external fields that induce spatial variations of the ...

Added: December 4, 2025