Showing total 5,645 results

1. Open Discussion of Papers by Chu and Müller

Published

1987

2. Integrating quasi-one-dimensional superconductors on flexible substrates.

Author

Zhan, Pengfei, Wang, Zijia, Liu, Yiyu, Wang, Junyan, and Xing, Ying

Subjects

SUPERCONDUCTORS, MEISSNER effect, FLEXIBLE electronics, TRANSITION temperature, SUPERCONDUCTIVITY, IRON-based superconductors

Abstract

In recent years, the field of flexible electronics has become one of the cross-disciplinary research hotspots, attracting worldwide attention and making rapid advances. So far, there has been plenty of research on the use of two-dimensional (2D) materials in flexible electronics, including graphene, transition metal dichalcogenide, and so on. In this work, we successfully prepared quasi-one-dimensional (Q1D) Nb2Pd0.73S5.97 superconductors on flexible paper by mechanical friction and systematically studied their physical properties at low temperatures. Superconductivity with transition temperature (Tc) ∼ 6.05 K by Meissner effect was observed in Nb2Pd0.73S5.97 wires coated on flexible paper, and a resistance drop at 4.80 K was confirmed in electrical transport measurements. The lower critical field (Hc1) of coated paper shows anisotropy effect under parallel and perpendicular magnetic fields, exhibiting a 2D-like feature, unlike the bulk Nb2Pd0.73S5.97 fibers. Our work provides a broader platform for the application of low-dimensional materials in flexible functional devices. [ABSTRACT FROM AUTHOR]

Published

2022

3. The Dielectric Strength of Nomex 410 Paper in Liquid Nitrogen Under Boiling Situations.

Author

Jin, Zhiyang, Lapthorn, Andrew, and Staines, Mike

Subjects

ELECTRIC conductivity, ELECTRIC resistors, LIQUID nitrogen, SUPERCONDUCTORS, MAGNETIC fields, ANISOTROPY

Abstract

It is crucial for the successful application of high-temperature superconducting (HTS) power transformers that they are able to survive under abnormal operations, such as a short-circuit fault. Modeling, based on the design of a four-winding three-phase HTS power transformer, suggests severe boiling will occur on the surface of the winding during a short-circuit fault and will jeopardize the turn-to-turn insulation of the HTS power transformer. In this paper, a turn-to-turn insulation breakdown experiment platform involving the introduction of boiling on the surface of electrode has been built. Nomex 410 paper, one of the candidates for turn-to-turn insulation in the design of the HTS power transformer, was tested. The characteristics of dielectric strength of Nomex 410 in three different thicknesses (0.13, 0.18, and 0.25 mm) have been investigated, without boiling, as well as under different boiling situations, in an open bath of liquid nitrogen. The voltage application methods applied during both experiments test the electrical breakdown of Nomex 410 under a dynamic situation. The experiment results show that when under film boiling, compared to the test results for nucleate boiling, the dielectric strength of Nomex 410 paper decreases by approximately 38% of the value when no boiling is involved. Moreover, it is verified that the presence of an electric field accelerates the heat transfer between the liquid nitrogen and the heated electrode. [ABSTRACT FROM PUBLISHER]

Published

2017

4. Papers Published in Technical Journals and Conference Proceedings.

Subjects

*QUANTUM computing, *SUPERCONDUCTORS, *THERMAL noise, *HYPERGRAPHS, *GRAPH theory

Published

2022

5. Research and Development of Superconducting High Gradient Magnetic Separation for Purification of Wastewater From Paper Factory.

Author

Nishijima, Shigehiro and Takeda, Shin-ichi

Subjects

*SUPERCONDUCTING magnets, *SUPERCONDUCTORS, *MAGNETIC separation, *WATER purification, *INDUSTRIAL wastes, *PAPER mills & the environment, *MAGNETIC fields, *WATER reuse, *CHEMICAL oxygen demand, DESIGN & construction

Abstract

High gradient magnetic separation (HGMS) for purification of wastewater from paper factory has been developed and withstand for 1 year operation. The system developed is a high gradient magnetic separation (HGMS) system with superconducting magnet which purifies wastewater continuously from a paper mill. The magnetic field generated by the superconducting magnet for HGMS is 2 T at the center of the bore, operating current 100 A, 680 mm long and 400 mm bore NbTi solenoid. The developed system which treats wastewater of 2000 t/day has been confirmed to show the expected performance. The purpose of the developed system is to separate COD constituents from the wastewater efficiently and economically in a small space. The required performances are follows, i) the set-up area is less than 6 m × 6 m, ii) COD of the treated water is less than 100 ppm and water can be recycled, and iii) a system can treat wastewater more than 2000 t/day. The design and the performance of the system are reported. [ABSTRACT FROM AUTHOR]

Published

2007

6. Partial Discharge Inception Characteristics of LN2/Polypropylene Laminated Paper Composite Insulation System for High Temperature Superconducting Cables.

Author

Hayakawa, N., Kobayashi, T., Hazeyama, M., Takahashi, T., Yasuda, K., and Okubo, H.

Subjects

*SUPERCONDUCTORS, *LIQUID nitrogen, *ELECTRIC insulators & insulation, *POLYPROPYLENE, *THERMAL insulation, *OPTICAL measurements

Abstract

Partial discharge (PD) inception characteristics of liquid nitrogen (LN2 )/polypropylene (PP) laminated paper composite insulation system for high temperature superconducting (HTS) cables were investigated in terms of the volume effect and the V-t characteristics. The electrical and optical measurements of PD inception characteristics showed that initial PD could be generated between PP laminated paper layers, as well as in a butt gap. Using a parameter called statistically stressed liquid volume (S SLY) based on the discharge probability in both butt gaps and LN2 filled thin layers between PP laminated papers, we could systematically analyze and evaluate the volume effect on PD inception stress (PDIE). Furthermore, experimental results revealed that n values of V-t characteristics at PD inception were as high as 80-110. On the other hand, the lower n values obtained at breakdown were interpreted by the intensified PD development in thermal bubbles generated after the PD inception. [ABSTRACT FROM AUTHOR]

Published

2005

7. On Thermal and Electrodynamic Aspects of the Superconductive Transition Process.

Author

Hirsch, J. E.

Subjects

MEISSNER effect, SUPERCONDUCTORS, SUPERCONDUCTIVITY, FARADAY'S law, SUPERCONDUCTING transitions

Abstract

In a classic paper of 1960, W. H. Cherry and J. I. Gittleman discussed various thermal and electrodynamic aspects of the superconductive transition process relevant to practical applications. In a section of the paper that has remained unnoticed, they proposed a physical model for the Meissner effect. Earlier in 1940–1943, in work that has also remained unnoticed, K. M. Koch had introduced related physical ideas to explain the Meissner effect. Still earlier in 1937, J. C. Slater proposed a model to explain the perfect diamagnetism of superconductors. None of these ideas are part of the conventional London-BCS understanding of superconductivity, yet I will argue that they are essential to understand the Meissner effect, the most fundamental property of superconductors. The unconventional theory of hole superconductivity unifies and extends these ideas. A key missing element in the conventional theory as well as in these early theories is electron-hole asymmetry. A proper understanding of the Meissner effect may help with practical applications of superconductors, as well as to find new superconducting materials with desirable properties. [ABSTRACT FROM AUTHOR]

Published

2024

8. A Study on the Composite Dielectric Properties for an HTS Cable.

Author

D. S. Kwag, Nguyen, V. D., Baek, S. M., H. J. Kim, J. W. Cho, and S. H. Kim

Subjects

ELECTRIC cables, DIELECTRICS, ELECTRICAL engineering materials, SUPERCONDUCTORS, ELECTRIC conductivity, SUPERCONDUCTIVITY, POWER transmission

Abstract

In order to optimize the insulation design of a cold dielectric high temperature superconducting (HTS) cable, the composite insulation system has been investigated according to the arrangement of laminated polypropylene paper (LPP) and kraft paper in liquid nitrogen. LPP is a prominent insulating material with a high dielectric strength and low dielectric loss, which has been used previously as a HTS cable insulating materials. In addition kraft paper has been used for oil-field (OF) cable as insulating materials for a long time. In this paper, the dielectric properties on composite insulation system according to the arrangement of LPP and kraft paper was compared. The economic and dielectric performances of two insulating materials were considered and applied toward a HTS cable. Furthermore, from an economic satisfaction point the most suitable arrangement, and compared the dielectric properties of the mini-model cables were examined. [ABSTRACT FROM AUTHOR]

Published

2005

9. Test for BCS-BEC crossover in the cuprate superconductors.

Author

Chen, Qijin, Wang, Zhiqiang, Boyack, Rufus, and Levin, K.

Subjects

BCS-BEC crossover, TRANSITION temperature, HIGH temperature superconductors, SUPERCONDUCTORS, PHASE diagrams, CONCRETE testing, CUPRATES

Abstract

In this paper we address the question of whether high-temperature superconductors have anything in common with BCS-BEC crossover theory. Towards this goal, we present a proposal and related predictions which provide a concrete test for the applicability of this theoretical framework. These predictions characterize the behavior of the Ginzburg-Landau coherence length, ξ 0 coh , near the transition temperature Tc, and across the entire superconducting Tc dome in the phase diagram. That we are lacking a systematic characterization of ξ 0 coh in the entire class of cuprate superconductors is perhaps surprising, as it is one of the most fundamental properties of any superconductor. This paper is written to motivate further experiments and, thus, address this shortcoming. Here we show how measurements of ξ 0 coh contain direct indications for whether or not the cuprates are associated with BCS-BEC crossover and, if so, where within the crossover spectrum a particular superconductor lies. [ABSTRACT FROM AUTHOR]

Published

2024

10. India's contribution in the journal Nature

Author

Kumar, Nitin, Panwar, Yatish, Verma, Monika, and Mahesh, G.

Published

2016

11. Enhancing the Predictive Modeling of n-Value Surfaces in Various High Temperature Superconducting Materials Using a Feed-Forward Deep Neural Network Technique.

Author

Alipour Bonab, Shahin, Song, Wenjuan, and Yazdani-Asrami, Mohammad

Subjects

ARTIFICIAL neural networks, HIGH temperature superconductors, HEAT resistant materials, SUPERCONDUCTORS, DEEP learning, CRITICAL current density (Superconductivity)

Abstract

In this study, the prediction of n-value (index-value) surfaces—a key indicator of the field and temperature dependence of critical current density in superconductors—across various high-temperature superconducting materials is addressed using a deep learning modeling approach. As superconductors play a crucial role in advanced technological applications in aerospace and fusion energy sectors, improving their performance model is essential for both practical and academic research purposes. The feed-forward deep learning network technique is employed for the predictive modeling of n-value surfaces, utilizing a comprehensive dataset that includes experimental data on material properties and operational conditions affecting superconductors' behavior. The model demonstrates enhanced accuracy in predicting n-value surfaces when compared to traditional regression methods by a 99.62% goodness of fit to the experimental data for unseen data points. In this paper, we have demonstrated both the interpolation and extrapolation capabilities of our proposed DFFNN technique. This research advances intelligent modeling in the field of superconductivity and provides a foundation for further exploration into deep learning predictive models for different superconducting devices. [ABSTRACT FROM AUTHOR]

Published

2024

12. High-Temperature Synthesis of Superconducting MgB 2 Materials in a Centrifuge.

Author

Tolendiuly, Sanat, Nur-Akasyah, Jaafar, Fomenko, Sergey, Turan, Ahmet, Assylkhan, Sharafhan, and Abisheva, Aigul

Subjects

SUPERCONDUCTORS, HIGH temperature superconductors, MAGNESIUM diboride, CRITICAL temperature, TRANSITION temperature, SELF-propagating high-temperature synthesis

Abstract

There is a wide variety of superconducting materials, but only a few of them are suitable for practical industrial use, and one of the most promising superconductors is MgB2. Its main advantages are a critical temperature close to 40 K, which allows for operation in a cryogenic environment, low cost of precursors, and the ease of manufacture. In this paper, we attempted to obtain superconducting materials based on magnesium diboride in a new way by using a high-temperature centrifuge and then investigated how centrifugal acceleration could affect the superconducting characteristics of the materials in a greater way during combustion synthesis. As a brief result of this research, it was found that the value of centrifugal acceleration affected the critical current density (Jc = 1.4 A/cm2) of the MgB2 composites, although it did not considerably impact the critical transition temperature of the MgB2 materials (remained at around 37.5–38 K). [ABSTRACT FROM AUTHOR]

Published

2024

13. Axial Stiffness Augmentation by Adding Superconductor Bulks or Limiting Permanent Magnet Rings to a Horizontal Axis Zero-Field Cooled High-Tc Radial Passive Superconducting Bearing.

Author

Arsénio Costa, António J., Fernandes, João F. P., and Costa Branco, Paulo J.

Subjects

PERMANENT magnets, MAGNETISM, SUPERCONDUCTORS, HIGH temperature superconductors, MAGNETIC suspension, MAGNETIC bearings

Abstract

This paper analyzes the viability of different solutions to passively augment the axial stiffness of a horizontal axis radial levitation passive magnetic bearing (PMB) with a previously studied topology. The zero-field cooling (ZFC) of high-temperature superconductor (HTS) bulks promotes higher magnetic impulsion and levitation forces and lower electromagnetic losses than those with field-cooling (FC) but, on the other hand, the guiding stability is much lower than those with FC. Because of stability reasons, FC was adopted in most superconducting maglev systems. The trend of this research group has been to develop a horizontal axis HTS ZFC radial levitation PMB presenting notable levitation forces with reduced electromagnetic losses, defined by a topology that creates guiding stability. Previous work has shown that optimizing the bearing geometry to maximize magnetic guidance forces might not be enough to guarantee the axial stiffness required for many applications. First, the extent to which guidance forces are augmented by increasing the number of HTS bulks in the stator is evaluated. Then, the axial stiffness augmentation by passively adding two limiting permanent magnet (PM) rings is evaluated. The results show that the axial stiffness is highly augmented by adding limiting PM rings with no significant additional investment. This change enables the use of the studied ZFC superconducting PMB in high-precision axial stability applications, such as precision gyroscopes, horizontal axis propellers, and turbines. [ABSTRACT FROM AUTHOR]

Published

2024

14. Editors' selection of papers from China's academic journals.

Author

Gao, Yuan

Subjects

GRAPHENE, SUPERCONDUCTORS, PHOTOCATALYSTS

Published

2018

15. Best paper award 2015.

Author

Steinitz, Michael

Subjects

*QUASIPARTICLES, *SUPERCONDUCTORS

Abstract

The article reports that the study "The effect of quasiparticle self-energy on Cd2Re2O7 superconductor," by F.S. Razavi, Y. Rohanizadegan, M. Hajialamdari, M. Reedyk, R.K. Kremer, and B. Mitrovic, has been selected for the Best Paper Award 2015 by the journal.

Published

2016

16. Static and evolution equations with degenerate curls.

Author

Pan, Xing-Bin

Subjects

*VECTOR fields, *MAXWELL equations, *GEOGRAPHIC boundaries, *EVOLUTION equations, *SUPERCONDUCTORS, *DEGENERATE differential equations

Abstract

This paper concerns static and evolution equations involving degenerate curls. The topic is motivated by the mathematical problems of Meissner states of anisotropic superconductors, and of the nonlinear magneto-static Maxwell equations with strong anisotropy. Two types of degenerate curls are studied, among them one is the directional curl along a unit length vector field, which has been introduced by the author before, and the other is the matrix-curl, which is introduced in this paper. Because of the degeneracy produced by the degenerate curl of the unknown vector field in the leading term of the equation, the boundary condition should be prescribed on part of the boundary according to the nature of the degenerate curl. We formulate the Dirichelt type and natural type boundary conditions, and give existence of solutions both for the static equations and for the evolution equations. [ABSTRACT FROM AUTHOR]

Published

2024

17. Enhancement of superconductivity and phase diagram of Ta-doped Kagome superconductor CsV3Sb5.

Author

Liu, Jinjin, Li, Qing, Li, Yongkai, Fan, Xinwei, Li, Jun, Zhu, Peng, Deng, Hanbin, Yin, Jia-Xin, Yang, Huaixin, Li, Jianqi, Wen, Hai-Hu, and Wang, Zhiwei

Subjects

SUPERCONDUCTIVITY, SUPERCONDUCTORS, TANTALUM, PHASE diagrams, SCANNING transmission electron microscopy, ANOMALOUS Hall effect, ALKALI metals

Abstract

Kagome superconductors AV3Sb5 (A = K, Rb, and Cs) have attracted enormous interest due to the coexistence of charge density wave (CDW) order, unconventional superconductivity (SC) and anomalous Hall effect (AHE). In this paper, we reported an intensive investigation on Cs(V1−xTax)3Sb5 single crystals with systematic Ta doping. Ta was confirmed to be doped into V-site in the Kagome layer from both single crystal X-ray diffraction structural refinement and scanning transmission electron microscopy observation. The highest Ta doping level was found to be about 16%, which is more than twice as much as 7% in Nb-doped CsV3Sb5. With the increase of Ta doping, CDW order was gradually suppressed and finally vanished when the doping level reached to more than 8%. Meanwhile, superconductivity was enhanced with a maximum critical temperature (Tc) of 5.3 K, which is the highest Tc in the bulk crystal of this Kagome system at ambient pressure so far. The μ0Hc2(T) behavior demonstrates that the system is still a two-band superconductor after Ta doping. Based on the electrical transport measurement, a phase diagram was set up to exhibit the evolution of CDW and SC in the Cs(V1−xTax)3Sb5 system. These findings pave a new way to search for new superconductors with higher Tc in the AV3Sb5 family and establish a new platform for tuning and controlling the multiple orders and superconducting states. [ABSTRACT FROM AUTHOR]

Published

2024

18. Forces and Stresses in the Windings of a Superconducting Fault Current Limiter.

Author

Kozak, Janusz

Subjects

SUPERCONDUCTING fault current limiters, FAULT current limiters, SHORT-circuit currents, SUPERCONDUCTORS, FAULT currents, SUPERCONDUCTING transitions, ADHESIVE tape, CRITICAL currents

Abstract

This paper presents the design of a Superconducting Fault Current Limiter (SFCL) and calculation results of forces and stresses in the windings of a resistive fault current limiter. The design of the fault current limiter consists of two parallelly connected and magnetically coupled windings, cooled by a single stage cryocooler. Magnetically compensated windings made of HTS tape give a very low voltage on the limiter at a nominal current. Limitation of the short-circuit time and the value of the maximum initial fault current reduces the thermal and dynamic effects of the passage of a fault current. Using devices which limit the value of a fault current can lower the level of required short-circuit capacity of the elements in a system. However, selected means of fault currents limitation must maintain the power quality standards. A perfect fault current limiter is required to have substantial impedance in fault conditions and zero impedance at work currents. Such requirements are met by a SFCL. An increase of current caused by the occurrence of a fault current results in the transition of the superconducting material from the superconducting state into the resistive state. This increases the impedance of short-circuit loop, allowing the fault current value to decrease. During a short-circuit, the forces generated from the short-circuit current also act on the limiter windings. Short-circuit current causes stresses in the superconducting tape. Exceeding the permissible stress value results in an irreversible reduction in the critical current of the superconducting tape. Calculations of the forces and stresses in the HTS tape for the maximum value of the short-circuit current were carried out using the finite element method. The constructed limiter was tested and the winding design ensures that the tape stresses are at a safe level even for short-circuit currents. [ABSTRACT FROM AUTHOR]

Published

2022

19. Equivalent Models of Critical Current and Magnetization for Calculating the Magnetic Field in Simply Connected Structures Made of HTS Bulk and HTS Tape.

Author

Kurbatova, E. and Kurbatov, P.

Subjects

MAGNETIC fields, MAGNETIZATION, ELECTROMAGNETIC fields, HIGH temperature superconductors, SUPERCONDUCTORS, CRITICAL current density (Superconductivity), CRITICAL currents, ADHESIVE tape

Abstract

This paper proposes a way to represent the anisotropic nonlinear superconducting properties using a discrete model for magnetization with the corresponding critical parameters, equivalent to the Power Law model for currents. This simplified model makes it possible to analyze magnetic systems with superconducting elements in a stationary mode, which reduces the calculation time. Using of proposed model is demonstrated by the calculation of force interactions between high-temperature superconducting (HTS) samples and permanent magnet in zero-field-cooling (ZFC) and field-cooling (FC) modes. HTS bulks in the form of a prism and stack made of HTS tape are considered. The calculation of the electromagnetic field was carried out using the method of integral equations for field sources. The data of calculations are compared with the results of experimental studies. [ABSTRACT FROM AUTHOR]

Published

2022

20. Reduced Model to Compute AC Losses of Twisted Multifilamentary Superconductors.

Author

Kameni, Abelin, Makong, Ludovic, Bouillault, Frederic, and Masson, Philippe J.

Subjects

SUPERCONDUCTORS, SUPERCONDUCTING wire, WIRE, CHOLESTERIC liquid crystals, FINITE element method

Abstract

Classical numerical techniques remain very computationally expensive to model the magnetization of twisted multifilamentary superconductors in three dimensions because they require solving a large system of equations. In this paper, a reduced model is proposed to approximate the ac losses of these types of wires. It is established through the projection of the physical problem in a helical Frenet basis and the use of periodic boundary conditions on a slice of the wire. The reduced model on the slice leads to systems of more reasonable size leading to smaller and faster simulations than when the whole wire is modeled. Simulation results show that the proposed method leads to computed losses similar to those obtained on a whole wire. Several simulation cases are proposed to prove the validity of the proposed model, and a comparison to some ac loss measurements is proposed to show the effectiveness of the proposed approach. The implementation relies on the H-formulation and is solved with the open-source solver, Getdp. [ABSTRACT FROM AUTHOR]

Published

2019

21. New Physics of Metals: Fermi Surfaces Without Fermi Liquids

Author

Anderson, P. W.

Published

1995

22. Application of Superconductors to Suppress Ferroresonance Overvoltage in DFIG-WECS.

Author

Mosaad, Mohamed, Sabiha, Nehmdoh, Abu-Siada, Ahmed, and Taha, Ibrahim

Subjects

WIND energy conversion systems, SUPERCONDUCTORS, INDUCTION generators, SUPERCONDUCTING coils, OVERVOLTAGE, HIGH voltages, MATHEMATICAL optimization, ELECTRIC current rectifiers

Abstract

While much attention was given in the literature to improve the fault ride through (FRT) capability of a doubly-fed induction generator (DFIG)-based wind energy conversion system (WECS) during various faults at the grid side, not much attention was given to investigate and improve the performance of the DFIG-WECS under ferroresonance conditions. This paper investigates the impact of ferroresonance on the overall performance of a DFIG-WECS. The paper also presents a new technique to improve the high voltage ride through capability of the investigated system under such condition. The proposed technique relies on incorporating a superconducting coil within the dc-link of the DFIG grid-side and rotor-side converters. Energy exchange between the coil and the system is controlled through regulating the duty cycle of the dc-chopper interfacing the coil with the dc-link. In this regard, a simple but yet effective proportional-integral (PI) controller is employed to regulate the dc-chopper duty cycle. Parameters of the PI controller are optimized using elephant herding optimization algorithm. Simulation results verify the effectiveness of the proposed controller in improving the overall performance of a DFIG-WECS during ferroresonance events. [ABSTRACT FROM AUTHOR]

Published

2022

23. Higher-dimensional holographic superconductors in Born–Infeld electrodynamics and f(R) gravity.

Author

Roussev, Alexandar

Subjects

SUPERCONDUCTORS, ELECTRODYNAMICS, CRITICAL temperature, CRITICAL point (Thermodynamics), CONDENSATION, GRAVITY

Abstract

In this paper, the properties of higher dimensional holographic superconductors are studied in the background of f(R) gravity and Born–Infeld electrodynamics. A specific model of f(R) gravity is considered, allowing a perturbative approach to the problem. The Sturm–Liouville eigenvalue problem is used to analytically calculate the critical temperature and the condensation operator. An expression for the critical temperature in terms of the charge density including the correction from modified gravity is derived. It is seen that the higher values of the Born–Infeld coupling parameter make the condensation harder to form. In addition, the limiting values of this parameter, above which Born–Infeld electrodynamics cannot be applied, are found for different dimensions. Another interesting property is that the increasing modifications of f(R) gravity lead to larger values of the critical temperature and a decrease in the condensation gap, which means that the condensation is easier to form. [ABSTRACT FROM AUTHOR]

Published

2024

24. Making the paper.

Author

Orenstein, Joe

Subjects

*ELECTRONS, *SEMICONDUCTORS, *SUPERCONDUCTORS, *ELECTRIC currents

Abstract

Focuses on the effort of scientist Joe Orenstein to measure how electrons move through semiconductor and superconductor materials in the U.S. Details on the random movement of electrons that generates an overall electrical current in a given direction; Emphasis on the aspect of electron behavior in semiconductors; Accounts on the theory to describe spin motion at the lowest temperature.

Published

2005

25. Dielectric Characteristics of HTS Cables Based on Partial Discharge Measurement.

Author

Hayakawa, N., Nagino, M., Kojima, H., Goto, M., Takahashi, T., Yasuda, K., and Okubo, H.

Subjects

HIGH temperature superconductivity, LIQUID nitrogen, POLYPROPYLENE, ELECTRIC insulators & insulation, SUPERCONDUCTIVITY, SUPERCONDUCTORS

Abstract

We have discussed dielectric characteristics of liquid nitrogen (LN2)/polypropylene (PP) laminated paper composite insulation system for the practical electrical insulation design of high temperature superconducting (HTS) cables. Focusing on the partial discharge (PD) inception characteristics and mechanism, the volume effect and its saturation on PD inception electric field strength (PDIE) was evaluated at atmospheric and pressurized condition. PD inception characteristics under lightning impulse voltage application were also investigated using an electrical and optical PD measuring system, and compared with those under ac voltage application. [ABSTRACT FROM AUTHOR]

Published

2005

26. Influence of cracks on nonlinear motion of high-temperature superconducting magnetic levitation system.

Author

Li, Hui, Huang, Liao-Liao, and Huang, Yi

Subjects

HIGH temperature superconductors, MAGNETIC suspension, ELECTROMAGNETIC forces, PERMANENT magnets, SUPERCONDUCTORS, BRITTLE materials

Abstract

The magnetic levitation system of a high-temperature superconductor (HTSC) has nonlinear vibration under external excitation, in which the HTSC is subjected to a sizable electromagnetic force. The high-temperature superconducting block is a brittle material, which will crack when subject to heavy pressure. Microfracture of superconductors is inevitable, especially in superconducting magnetic levitation systems. Our paper studies the fracture behavior of a YBaCuO superconducting magnetic levitation system under a large electromagnetic force based on nonlinear bifurcated motions. The E − J constitutive model and the current vector T method are applied to obtain the electromagnetic force of the bulk superconductor during vibration. We analyze the effects of five lengths of the central crack on vibration displacements, the electric field distribution, and the electromagnetic force of superconductors. Without damages, the system does not have apparent bifurcation motion. For the inner cracks, the system has obvious bifurcation motions. The results show that the cracks have a meaningful influence on the nonlinear vibration of the superconducting magnetic levitation system. The displacement of the suspended permanent magnet in bifurcation motion increases with the increase in the crack length, and the collision occurs when the crack length reaches 15 mm. [ABSTRACT FROM AUTHOR]

Published

2023

27. High Gas Pressure and High-Temperature Synthesis (HP-HTS) Technique and Its Impact on Iron-Based Superconductors.

Author

Azam, Mohammad, Manasa, Manasa, Morawski, Andrzej, Cetner, Tomasz, and Singh, Shiv J.

Subjects

IRON-based superconductors, SUPERCONDUCTORS, MAGNETIC materials, MAGNETIC properties, GASES

Abstract

The high-pressure growth technique generally plays an important role in the improvement of sample quality and the enhancement of various physical and magnetic properties of materials. The high gas pressure technique provides a large sample space (10–15 cm) to grow various kinds of materials. In this paper, we introduce the high gas pressure and high-temperature synthesis (HP-HTS) technique that is present at our institute and is applied to the growth process of different kinds of superconducting materials, particularly iron-based superconductors. More details and the working principle of this HP-HTS technique are discussed. We have also demonstrated the current results based on iron-based superconductors by using this unique HP-HTS technique. These results demonstrate the enhancement of the superconducting properties with improved sample quality compared to the conventional synthesis process at ambient pressure. [ABSTRACT FROM AUTHOR]

Published

2023

28. The Stability of HTS Maglev Vehicle Through Grade Change Point.

Author

Liu, Zhehao, Deng, Zigang, Kou, Long, Wang, Li, Li, Haitao, and Yuan, Yuhang

Subjects

MAGNETIC levitation vehicles, FLUX pinning, PERMANENT magnets, MAGNETIC flux, SUPERCONDUCTING magnets, SUPERCONDUCTORS

Abstract

High-temperature superconducting (HTS) maglev system, based on the magnetic flux pinning characteristic of non-ideal type II superconductors, can realize self-stable above permanent magnets. HTS maglev possesses the advantages of low-energy consumption, simple mechanical structure and environment-friendly, which make it an ideal high-speed transportation mode. When an HTS maglev vehicle crosses a ramp, the levitation height will fluctuate due to the rapid change of the track curve, which may affect the safety and stability of the system. In this paper, first, a levitation force model was obtained based on experimental data. Based on this model, a dynamic model of the HTS maglev vehicle-bridge coupled system was established. The dynamic response of the maglev train was simulated and analyzed when it operated through track grade change points under different track slopes, vertical curve radii and speeds. The influence of these parameters on the stability of the system was investigated, and the optimized design parameters for the vehicle and the track slope are proposed as well. This study provides references for the future engineering development of HTS maglev transportation. [ABSTRACT FROM AUTHOR]

Published

2021

29. FEM-Based Power Transformer Model for Superconducting and Conventional Power Transformer Optimization.

Author

Orosz, Tamás

Subjects

POWER transformers, SUPERCONDUCTORS, FINITE element method, EVOLUTIONARY algorithms

Abstract

There were many promising superconducting materials discovered in the last decades that can significantly increase the efficiency of large power transformers. However, these large machines are generally custom-made and tailored to the given application. During the design process the most economical design should be selected from thousands of applicable solutions in a short design period. Due to the nonlinearity of the task, the cost-optimal transformer design, which has the smallest costs during the transformers' planned lifetime, is usually not the design with the highest efficiency. Due to the topic's importance, many simplified transformer models were published in the literature to resolve this problem. However, only a few papers considered this preliminary design optimization problem in the case of superconducting transformers and none of them made a comparison with a validated conventional transformer optimization model. This paper proposes a novel FEM-based two-winding transformer model, which can be used to calculate the main dimension of conventional and superconducting transformer designs. The models are stored in a unified JSON-file format, which can be easily integrated into an evolutionary or genetic algorithm-based optimization. The paper shows the used methods and their accuracy on conventional 10 MVA and superconducting 1.2 MVA transformer designs. Moreover, a simple cost optimization with the 10 MVA transformer was performed for two realistic economic scenarios. The results show that in some cases the cheaper, but less efficient, transformer can be the more economic. [ABSTRACT FROM AUTHOR]

Published

2022

30. Electromagnetic Field Analysis and Optimization Method of High-Temperature Superconducting Transformer under the Influence of Abnormal Voltage.

Author

Zhi, Weijie, Zhang, YuWen, and Yang, Hao

Subjects

HIGH temperature superconductors, ELECTROMAGNETIC fields, SUPERCONDUCTORS, ELECTROMOTIVE force, SUPERCONDUCTING coils, ENERGY dissipation, CURRENT density (Electromagnetism), SHORT circuits

Abstract

High-temperature superconducting transformers are an important research topic of superconducting technology in power applications, and electromagnetic field analysis and optimization are the basis for the design and application of high-temperature superconducting transformers. The electromagnetic field analysis of high-temperature superconducting transformers should consider the superconducting properties of the materials, that is, the properties of critical current and magnetic field. This paper aims to study the electromagnetic field analysis and optimization method of high-temperature superconducting transformer under the influence of abnormal voltage. Due to the energy loss of high-temperature superconducting transformers, in order to study the economy and reliability of high-temperature superconducting transformers, in this paper, the core loss, winding AC loss, and coil power consumption of high-temperature superconducting transformers are analyzed under normal operation and short-circuit fault conditions, respectively. The power and stress on the windings are analyzed. In order to take into account the current-carrying capacity, short-circuit loss, and short-circuit electromotive force of superconducting windings in normal operation, a concentrically placed double-cake coil structure is selected in this paper, and according to different optimization objectives, a global optimization method is used to evaluate the structure of the coil. The structural parameters of the high-temperature superconducting transformer are optimized, including the structural parameters of the magnetic conducting ring. It is found that that abnormal voltage will affect the electromagnetic field of high-temperature superconducting transformers, including winding circulating current, leakage magnetic field, and current distribution. [ABSTRACT FROM AUTHOR]

Published

2022

31. Some Important Points of the Josephson Effect via Two Superconductors in Complex Bases.

Author

Causanilles, Fernando S. Vidal, Baskonus, Haci Mehmet, Guirao, Juan Luis García, and Bermúdez, Germán Rodríguez

Subjects

SUPERCONDUCTORS, JOSEPHSON effect, SINE-Gordon equation, JOSEPHSON junctions, ELECTRIC lines, ANALYTICAL solutions

Abstract

In this paper, we study the extraction of some analytical solutions to the nonlinear perturbed sine-Gordon equation with the long Josephson junction properties. The model studied was formed to observe the long Josephson junction properties separated by two superconductors. Moreover, it is also used to explain the Josephson effect arising in the highly nonlinear nature of the Josephson junctions. This provides the shunt inductances to realize a Josephson left-handed transmission line. A powerful scheme is used to extract the complex function solutions. These complex results are used to explain deeper properties of Josephson effects in the frame of impedance. Various simulations of solutions obtained in this paper are also reported. [ABSTRACT FROM AUTHOR]

Published

2022

32. Stainless Steel as Substrate Material for High-Temperature Superconducting Tapes Processed Via the ISD MgO Route.

Author

Koenen, Timo, Undisz, Andreas, Otten, Simon, and Rettenmayr, Markus

Subjects

STAINLESS steel, SUPERCONDUCTORS, AUSTENITIC stainless steel, ADHESIVE tape, CRITICAL currents, MATERIAL plasticity

Abstract

Second-generation high-temperature superconducting (HTS) tapes strongly rely on the substrate material, in many cases Hastelloy C276 (“H-C276”). In order to ameliorate performance (and reduce the price) of superconducting tapes, replacement of H-C276 has been investigated. In this paper, the potential of the readily available austenitic stainless steels X2CrNiMo17-12-2 (“CrNiMo”) and X11CrNiMnN19-8-6 (“CrNiMnN”) as substrates is assessed. It was found that CrNiMnN is not suitable as a replacement for H-C276. Tensile stresses occurring at elevated temperatures during the HTS tape production result in plastic deformation of the CrNiMnN substrate. In the case of CrNiMo, however, plastic deformation was not observed after processing of the HTS tape. Electrical losses as a result of alternating currents beyond those of H-C276 did not occur due to the paramagnetic nature of CrNiMo. It is demonstrated that, for the very same processing parameters, HTS films deposited on electrochemically polished and buffered CrNiMo substrates exhibit similarly high critical current densities as on polished and buffered H-C276 substrates. The application of CrNiMo stainless steel reduces substrate costs considerably. More importantly, tapes processed on CrNiMo substrates withstand higher tension strains with respect to the reduction of the critical current compared to H-C276 substrates. This effect is interpreted to be a result of the matching coefficients of thermal expansion of the HTS layer and CrNiMo, resulting in lower residual tensile stress in the HTS layer after processing. [ABSTRACT FROM AUTHOR]

Published

2019

33. Simulation of Dynamic and Electromagnetic Characteristics of a Superconductor Bulk in a Single-Stage Induction Coilgun.

Author

Yang, Wenjiang, Yao, Lu, and Fu, Zhenyu

Subjects

SUPERCONDUCTORS, VELOCITY, CURRENT density (Electromagnetism), ELECTROMAGNETISM, ELECTROMAGNETIC forces

Abstract

Induction coilgun can accelerate a high-temperature superconductor (HTS) projectile to higher velocity than a conventional projectile, because an HTS projectile can generate greater induced current by the premagnetized process and then obtain larger thrust in the launch process. In this paper, a numerical field model for the dynamic and electromagnetic characteristics of a single-stage induction coilgun is established, using the finite-element method. The electromagnetic force, muzzle velocity, and current density distribution of the aluminum projectile and the HTS projectile are studied, respectively. Then, the effect of magnetization on the characteristics of the HTS projectile during the launch process is considered. The result illustrates that magnetization brings a great improvement in the performance of the coilgun due to the higher induced current value in the HTS projectile. In addition, due to the limitation of the full magnetization state, the magnetization of the HTS projectile should be in a suitable range. The simulation work shows the potential of HTS projectile for future induction coilgun application. [ABSTRACT FROM AUTHOR]

Published

2019

34. Development of a Turbo Electric Distribution System for Remotely Piloted Aircraft Systems.

Author

Eqbal, Mithun, Fernando, Nuwantha, Marino, Matthew, and Wild, Graham

Subjects

DRONE aircraft, HYBRID electric airplanes, TURBOPROP airplanes, SUPERCONDUCTORS, ELECTRIC propulsion, PROPULSION systems, HIGH-speed machining

Abstract

Turboelectric distributed propulsion systems are paving the way for more electric aircraft systems (TeDP). This type of system provides a solution for some of the drawbacks of current low-energy-density batteries, which limit the ability of long-endurance electric aircraft. However, turboelectric propulsion requires the use of advanced turboelectric motors, superconductive materials and cryogenic cooling technologies, which are still under development and may be in production in the near future. This paper investigates a turboelectric propulsion system that can be considered an initial step in the production of TeDP in a remotely piloted aircraft system with the use of existing technology. This is achieved by replacing the gear and the starter motor of a turboprop with a high-speed permanent magnet electric machine to generate electrical power and propelling the aircraft through a distributed electric propulsion system. In this theoretical study, an augmentation to Breguet’s range and endurance equation is developed. This study confirmed that the new system is 31% lighter than the turboprop engine. Then the effect of the weight savings is used in the distributed electric propulsion (DEP) aerodynamic studies and found that there is a drastic increase in the range for a TeDP developed with the high-speed machine. [ABSTRACT FROM AUTHOR]

Published

2021

35. A Review of Technology Readiness Levels for Superconducting Electric Machinery.

Author

Santos, Bárbara Maria Oliveira, Dias, Fernando Jorge Monteiro, Trillaud, Frederic, Sotelo, Guilherme Gonçalves, and de Andrade Junior, Rubens

Subjects

TECHNOLOGY assessment, HIGH temperature superconductors, ELECTRIC propulsion, SUPERCONDUCTORS, ELECTRIC machinery, ELECTRIC machines, POWER density, SUPERCONDUCTING magnets

Abstract

Superconducting electric machines (SEMs) have the potential to be commercially available in the coming years. This commercialization depends on the availability of high-temperature superconductors (HTS) produced on a large scale. HTSs have high current densities and low losses, making them the leading technology choice for future light and compact high-power-density superconducting rotating machines, with a particular niche for high torque at low frequency. The advantages of SEM in its fully superconducting design or hybrid configuration (conventional stator, superconducting rotor) inherit from the characteristics of the superconductor material. So, they can show greater efficiency at a higher power density and lighter frame than their conventional counterparts for an equivalent power rating. Applications like electric aircraft, naval propulsion, and wind turbines, among others, are likely to use SEMs if the rated power has to be increased beyond what is technically available with conventional technology. In this context, this paper reviews SEMs and their applications. However, it also aims to highlight the main the literature projects with a minimal Technology Readiness Level (TRL) larger than three. Due to the diversity of the superconductors' characteristics and the variety of machines, the modes of operation of SEMs can be quite distinct from conventional machines. Taking into account such diversity, SEMs are presented and sorted out by their operational principles and the choice of superconducting material. Finally, the future perspectives of SEM are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

36. Learning to Extrapolate Using Continued Fractions: Predicting the Critical Temperature of Superconductor Materials.

Author

Moscato, Pablo, Haque, Mohammad Nazmul, Huang, Kevin, Sloan, Julia, and Corrales de Oliveira, Jonathon

Subjects

CONTINUED fractions, CRITICAL temperature, SUPERCONDUCTORS, MULTILAYER perceptrons, ARTIFICIAL intelligence, RANDOM forest algorithms

Abstract

In the field of Artificial Intelligence (AI) and Machine Learning (ML), a common objective is the approximation of unknown target functions y = f (x) using limited instances S = (x (i) , y (i)) , where x (i) ∈ D and D represents the domain of interest. We refer to S as the training set and aim to identify a low-complexity mathematical model that can effectively approximate this target function for new instances x. Consequently, the model's generalization ability is evaluated on a separate set T = { x (j) } ⊂ D , where T ≠ S , frequently with T ∩ S = ∅ , to assess its performance beyond the training set. However, certain applications require accurate approximation not only within the original domain D but in an extended domain D ′ that encompasses D as well. This becomes particularly relevant in scenarios involving the design of new structures, where minimizing errors in approximations is crucial. For example, when developing new materials through data-driven approaches, the AI/ML system can provide valuable insights to guide the design process by serving as a surrogate function. Consequently, the learned model can be employed to facilitate the design of new laboratory experiments. In this paper, we propose a method for multivariate regression based on iterative fitting of a continued fraction, incorporating additive spline models. We compare the performance of our method with established techniques, including AdaBoost, Kernel Ridge, Linear Regression, Lasso Lars, Linear Support Vector Regression, Multi-Layer Perceptrons, Random Forest, Stochastic Gradient Descent, and XGBoost. To evaluate these methods, we focus on an important problem in the field, namely, predicting the critical temperature of superconductors based on their physical–chemical characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

37. Superconductivity 2022.

Author

Koblischka, Michael Rudolf and Koblischka-Veneva, Anjela

Subjects

SUPERCONDUCTIVITY, SUPERCONDUCTORS, SUPERCONDUCTING magnets, HIGH temperature superconductivity, FUSION reactors, MAGNETS, HYDRIDES, NANOWIRES

Abstract

Superconductivity in metals and alloys, i.e., conventional superconductivity, has seen many new developments in recent years, leading to a renewed interest in the principles of superconductivity and the search for new materials. The most striking discoveries include the near-room-temperature superconductivity in metal hydrides (LaH 10 ) under pressure, the extreme stability of superconductivity in NbTi up to 261 GPa pressure, the discovery of high-entropy alloy (HEA) superconductor materials, and the machine learning prediction of new superconducting materials. Other interesting research concerns the properties of 2D superconductors, topological superconductors, e.g., in hybrid systems, and the use of nanotechnology to create nanowires and nanostructures with new properties. Furthermore, and most importantly, the drive from new accelerator and fusion reactors for stronger superconducting magnets has lead to improved cable materials, showing the highest critical current densities ever. Thus, this Special Issue aims to bring together a collection of papers reflecting the present activity in this field. [ABSTRACT FROM AUTHOR]

Published

2022

38. A Novel Current Calculation Method Based on Temperature Rise of Current-Carrying Conductor.

Author

Lv, Sen and Zong, Ming

Subjects

ELECTRIC power distribution grids, LAMINATED metals, ALGORITHMS, SUPERCONDUCTORS, TEMPERATURE, ELECTRIC conduits

Abstract

Smart grid is the inevitable trend of power grid technology development. As an important terminal apparatus in the power grid, the overload protection method of bimetal used by traditional miniature circuit breakers (MCBs) is difficult to meet the requirements of smart grid. Bimetal uses the thermal effect of current for overload protection, so in this paper, the thermal effect is used to calculate the current. Also, all current carrying conductors except superconductors will generate heat, and the heat will not be saturated, which can meet the characteristics of miniature circuit breakers with small volume and large current. Compared with other current calculation methods, the proposed method has simple structure and wide measurement range, which is an effective way to solve the problem of intelligent MCBs. After derivation, the algorithm in this paper is not affected by the convection coefficient. The experimental results show that the error of the algorithm is less than 5%. [ABSTRACT FROM AUTHOR]

Published

2020

39. Characterization of High-Temperature Superconducting Tapes.

Author

Kubiczek, Krzysztof, Kampik, Marian, and Stepien, Mariusz

Subjects

CRITICAL currents, MAGNETIC field measurements, NUMERICAL calculations, SUPERCONDUCTORS, ADHESIVE tape, ELECTRIC potential measurement

Abstract

This paper presents an experimental method for investigating the dependence of critical current on the applied magnetic-field intensity and the angular orientation in high-temperature superconductor (HTS) tapes and cables. Comparisons between critical-current measured and simulated data are presented as a function of field angular orientation. The obtained relation can be used as input data for numerical calculations or simulations for designing application devices that utilize HTS tapes and cables. [ABSTRACT FROM AUTHOR]

Published

2020

40. Study on Electromechanical Properties of Solder Jointed YBCO Coated Conductors With Etched Copper Stabilizer Under Axial Tension.

Author

Huang, Daxing, Gu, Hongwei, Dong, Zebin, Shang, Hongjing, Xu, Wenjuan, Li, Taiguang, Xie, Bowei, Zhang, Hua, and Ding, Fazhu

Subjects

SOLDER joints, HIGH temperature superconductors, SOLDER & soldering, SUPERCONDUCTORS, CHEMICAL milling, JOINTS (Engineering), CRITICAL currents, MAGNETIC fields

Abstract

The YBa2Cu3O7-x (YBCO) coated conductor (CC) is one of the most promising superconducting materials because of their high critical current (Ic) and low dependency of the Ic on the external magnetic field. For superconducting applications, a large number of joints are required to join relatively short YBCO CC tapes. In this paper, we study the electromechanical behavior of lap-jointed YBCO CC tapes fabricated by etching Cu stabilizer at its service temperatures (77 K) under self-field. The effects of etching Cu stabilizer on Ic and joint resistance (Rj) of YBCO CC tapes were discussed. The Rj was reduced and the Ic values of the joints are consistent with the parent CCs tape by etching the Cu stabilizer. Preferable electrical properties under applying axial tension are achieved and proved by the axial tension tests and finite element simulations. This fabrication technique is a unique practicable solution to reduce joint resistance for YBCO CC tapes with thicker metal stabilizing layers and improving electromechanical performance in second generation high temperature superconductor (2G HTS) devices. [ABSTRACT FROM AUTHOR]

Published

2020

41. Cognition on the Current-Limiting Effect of Saturated-Core Superconducting Fault Current Limiter.

Author

Jia, Yuelong, Shi, Zhengjun, Zhu, Haojun, Hao, Li, Zou, Jun, and Yuan, Jiansheng

Subjects

FAULT current limiters, MAGNETIC cores, SUPERCONDUCTORS, ELECTRIC power distribution grids, ELECTRIC lines

Abstract

The saturated-core superconducting fault current limiter (SCSFCL) is an important facility for limiting the short-circuit fault current of the power grid. However, the cognition or the judgment on the current-limiting effect, which is the key indicator of the SCSFCL, is not unique. This is because the nonlinear property of the steel cores in the limiting state makes the voltage on the SCSFCL and the current passing through the SCSFCL not sinusoidal any more. In this paper, it is presented that the equivalent limiting reactance, which is commonly used currently, cannot reflect the current-limiting effect, nor is the induced voltage. It is pointed out that for a certain SCSFCL, the current-limiting effect is not fixed, and it depends on the parameters of the power grid as well as the position, where the SCSFCL is installed. It is clarified that only the current reduction rate by comparing the short-circuit fault current before and after the installation of the SCSFCL in a certain power grid can correctly reflect the current-limiting effect. Certainly, the calculation for the current-limiting effect must be conducted by the field-circuit coupled method, where the field concerns the property inside the SCSFCL and the circuit concerns the property of the power grid. This paper does not mainly focus on the simulation method, but provides the means of judging or evaluating current-limiting effect of the SCSFCL. [ABSTRACT FROM AUTHOR]

Published

2015

42. High-Speed Visible Image Acquisition and Processing System for Plasma Shape and Position Control of EAST Tokamak.

Author

Zhang, Heng, Xiao, Bingjia, Luo, Zhengping, Hang, Qin, and Yang, Jianhua

Subjects

TOKAMAKS, PLASMA diagnostics, SUPERCONDUCTORS, PLASMA confinement devices, CAMERAS, NUCLEAR reactors, EQUIPMENT & supplies

Abstract

Currently, the fast evolution of cameras in recent years has made them promising tools for diagnostics of Tokamak. The solution presented in this paper consists of a prototype of high-speed visible image acquisition and processing system (HVIAPs) dedicated for experimental advanced superconducting tokamak shape and position control. Graphics processing unit (GPU) and field-programmable gate array (FPGA) are typically used as accelerators or co-processors in addition to a CPU. Such a heterogeneous computing system can combine the advantages of its individual components. The main imaging equipment components used for this system are four high-resolution fast cameras equipped with fiber interface. Image data from the cameras are received by the frame grabber card based on the FPGA and transmitted to the GPU via the peripheral component interconnect express interface. The software support for the system includes low-level drivers and application programming interface libraries for all components and the algorithm developed for image processing. The offline image process results are compared to equilibrium fitting code, which is a commonly used reconstruction method, with an average error of 1.5 cm. The total processing time for one frame is less than 0.3 ms. [ABSTRACT FROM AUTHOR]

Published

2018

43. SuperMat: construction of a linked annotated dataset from superconductors-related publications.

Author

Foppiano, Luca, Dieb, Sae, Suzuki, Akira, Baptista de Castro, Pedro, Iwasaki, Suguru, Uzuki, Azusa, Echevarria, Miren Garbine Esparza, Meng, Yan, Terashima, Kensei, Romary, Laurent, Takano, Yoshihiko, and Ishii, Masashi

Abstract

A growing number of papers are published in the area of superconducting materials science. However, novel text and data mining (TDM) processes are still needed to efficiently access and exploit this accumulated knowledge, paving the way towards data-driven materials design. Herein, we present SuperMat (Superconductor Materials), an annotated corpus of linked data derived from scientific publications on superconductors, which comprises 142 articles, 16052 entities, and 1398 links that are characterised into six categories: the names, classes, and properties of materials; links to their respective superconducting critical temperature (Tc); and parametric conditions such as applied pressure or measurement methods. The construction of SuperMat resulted from a fruitful collaboration between computer scientists and material scientists, and its high quality is ensured through validation by domain experts. The quality of the annotation guidelines was ensured by satisfactory Inter Annotator Agreement (IAA) between the annotators and the domain experts. SuperMat includes the dataset, annotation guidelines, and annotation support tools that use automatic suggestions to help minimise human errors. [ABSTRACT FROM AUTHOR]

Published

2021

44. Enhancement of superconductivity and phase diagram of Ta-doped Kagome superconductor CsV3Sb5.

Author

Liu, Jinjin, Li, Qing, Li, Yongkai, Fan, Xinwei, Li, Jun, Zhu, Peng, Deng, Hanbin, Yin, Jia-Xin, Yang, Huaixin, Li, Jianqi, Wen, Hai-Hu, and Wang, Zhiwei

Subjects

*SUPERCONDUCTIVITY, *SUPERCONDUCTORS, *TANTALUM, *PHASE diagrams, *SCANNING transmission electron microscopy, *ANOMALOUS Hall effect, *ALKALI metals

Abstract

Kagome superconductors AV3Sb5 (A = K, Rb, and Cs) have attracted enormous interest due to the coexistence of charge density wave (CDW) order, unconventional superconductivity (SC) and anomalous Hall effect (AHE). In this paper, we reported an intensive investigation on Cs(V1−xTax)3Sb5 single crystals with systematic Ta doping. Ta was confirmed to be doped into V-site in the Kagome layer from both single crystal X-ray diffraction structural refinement and scanning transmission electron microscopy observation. The highest Ta doping level was found to be about 16%, which is more than twice as much as 7% in Nb-doped CsV3Sb5. With the increase of Ta doping, CDW order was gradually suppressed and finally vanished when the doping level reached to more than 8%. Meanwhile, superconductivity was enhanced with a maximum critical temperature (Tc) of 5.3 K, which is the highest Tc in the bulk crystal of this Kagome system at ambient pressure so far. The μ0Hc2(T) behavior demonstrates that the system is still a two-band superconductor after Ta doping. Based on the electrical transport measurement, a phase diagram was set up to exhibit the evolution of CDW and SC in the Cs(V1−xTax)3Sb5 system. These findings pave a new way to search for new superconductors with higher Tc in the AV3Sb5 family and establish a new platform for tuning and controlling the multiple orders and superconducting states. [ABSTRACT FROM AUTHOR]

Published

2024

45. Electron-phonon coupling and spin fluctuations in the Ising superconductor NbSe2.

Author

Das, S., Paudyal, H., Margine, E. R., Agterberg, D. F., and Mazin, I. I.

Subjects

SUPERCONDUCTORS, EXCITED states, SUPERCONDUCTIVITY

Abstract

Ising superconductivity, observed in NbSe2 and similar materials, has generated tremendous interest. Recently, attention was called to the possible role that spin fluctuations (SF) play in this phenomenon, in addition to the dominant electron–phonon coupling (EPC); the possibility of a predominantly triplet state was discussed and led to a conjecture of viable singlet–triplet Leggett oscillations. However, these hypotheses have not been put to a quantitative test. In this paper, we report first principle calculations of the EPC and also estimate coupling with SF, including full momentum dependence. We find that: (1) EPC is strongly anisotropic, largely coming from the K − K ′ scattering, and therefore excludes triplet symmetry even as an excited state; (2) superconductivity is substantially weakened by SF, but anisotropy remains as above; and, (3) we do find the possibility of a Leggett mode, not in a singlet–triplet but in an s++ – s± channel. [ABSTRACT FROM AUTHOR]

Published

2023

46. Electrical conductivity and nuclear magnetic resonance relaxation rate of Eliashberg superconductors in the weak-coupling limit.

Author

Boyack, Rufus, Mirabi, Sepideh, and Marsiglio, F.

Subjects

NUCLEAR magnetic resonance, ELECTRIC conductivity, MAGNETIC relaxation, SUPERCONDUCTORS, ELECTRON-phonon interactions

Abstract

Electrical conductivity is an important transport response in superconductors, enabling clear signatures of dynamical interactions to be observed. Of primary interest in this paper is to study characteristics of the electron-phonon interaction in weak-coupling Eliashberg theory (Eth), and to note the distinctions with Bardeen-Cooper-Schrieffer (BCS) theory. Recent analysis of weak-coupling Eth has shown that while there are modifications from the BCS results, certain dimensionless ratios are in agreement. Here we show that the conductivities in BCS theory and Eth fundamentally differ, with the latter having an imaginary gap component that damps a divergence. We focus on the dirty limit, and for both BCS theory and Eth we derive expressions for the low-frequency limit of the real conductivity. For Eth specifically, there are two limits to consider, depending on the relative size of the frequency and the imaginary part of the gap. In the case of identically zero frequency, we derive an analytical expression for the nuclear magnetic resonance relaxation rate. Our analysis of the conductivity complements the previous study of the Meissner response and provides a thorough understanding of weak-coupling Eth. Electron-phonon coupling plays a fundamental role in the properties of conventional superconductors and is typically understood using BCS theory. Here, the authors study electron-phonon dynamics in the weak-coupling regime of Eliashberg theory identifying the similarities and differences between the two models in the dirty limit. [ABSTRACT FROM AUTHOR]

Published

2023

47. Progress on the Fabrication of Superconducting Wires and Tapes via Hot Isostatic Pressing.

Author

Lei, Zhenyu, Yao, Chao, Guo, Wenwen, Wang, Dongliang, and Ma, Yanwei

Subjects

ISOSTATIC pressing, SUPERCONDUCTING wire, HOT pressing, SUPERCONDUCTORS, HEAT treatment, MANUFACTURING processes

Abstract

Fabrication of high-performance superconducting wires and tapes is essential for large-scale applications of superconducting materials. The powder-in-tube (PIT) method involves a series of cold processes and heat treatments and has been widely used for fabricating BSCCO, MgB2, and iron-based superconducting wires. The densification of the superconducting core is limited by traditional heat treatment under atmospheric pressure. The low density of the superconducting core and a large number of pores and cracks are the main factors limiting the current-carrying performance of PIT wires. Therefore, to improve the transport critical current density of the wires, it is essential to densify the superconducting core and eliminate pores and cracks to enhance grain connectivity. Hot isostatic pressing (HIP) sintering was employed to improve the mass density of superconducting wires and tapes. In this paper, we review the development and application of the HIP process in the manufacturing of BSCCO, MgB2, and iron-based superconducting wires and tapes. The development of HIP parameters and the performance of different wires and tapes are reviewed. Finally, we discuss the advantages and prospects of the HIP process for the fabrication of superconducting wires and tapes. [ABSTRACT FROM AUTHOR]

Published

2023

48. Dielectric Properties of 500 m Long HTS Power Cable.

Author

Takahashi, T., Suzuki, H., Ichikawa, M., Okamoto, T., Akita, S., Maruyama, S., and Kimura, A.

Subjects

ELECTRIC cables, SUPERCONDUCTIVITY, POWER transmission, SUPERCONDUCTORS, LIQUID nitrogen

Abstract

The 500-m high temperature superconducting (HTS) cable has been constructed in the Yokosuka area, CRIEPI, by CRIEPI, The Furukawa Electric Co. and Super-GM. Its design voltage is 77 kY and the thickness of the electrical insulation layer should be 8 mm made of semi-synthetic paper (polypropylene laminated paper). During cooling, the capacitance and dielectric loss tangent were measured periodically. After cooling, which means that the HTS cable was fully filled with liquid nitrogen (LN2), the initial voltage withstand test was carried out. This paper describes the design method of the electrical insulation layer including determination of the testing voltage and the result of the initial voltage withstand test, and the permittivity calculated from the capacitance, and dielectric loss tangent. [ABSTRACT FROM AUTHOR]

Published

2005

49. Fabrication and Test of an 8-T Superconducting Split Magnet System With Large Crossing Warm Bore.

Author

Shunzhong Chen, Yinming Dai, Baizhi Zhao, Yi Li, Kun Chang, Yuanzhong Lei, and Qiuliang Wang

Subjects

SUPERCONDUCTORS, MAGNETS, SUPERCONDUCTING coils, NIOBIUM compounds, MAGNETIC fields

Abstract

A conduction-cooled superconducting split magnet system with large crossing warm bore has been successfully constructed in our laboratory for material processing applications. The magnet system design was described in a previous paper. The magnet is composed of six NbTi low temperature superconducting coils, which generate 5.5-T central magnetic field and two Bi2223/Ag high temperature superconducting (HTS) insert coils, which generate 2.5-T central magnetic field and assembled in the form of split coil groups. The magnet has a 136-mm split gap to accommodate the crossing warm bore of 100 mm in diameter. The magnet system is cooled by two GM cryocoolers. The initial cooldown takes 9.2 days and the final temperature of the magnet is about 4.0 K. The HTS coils and NbTi coils are to be operated in the driven mode with two independent power supplies, under the operating currents of 200 A (HTS) and 139 A (NbTi), respectively. The magnet is successfully powered up to 8 T with a the ramp time of 290 min. In this paper, the fabrication and test of the superconducting split magnet system are presented. [ABSTRACT FROM PUBLISHER]

Published

2015

50. The Stability Analysis of ITER TF Main Busbar in 15 MA Plasma Current Reference Scenario.

Author

Rong, Jian, Huang, Xiongyi, Song, Yuntao, and Wu, Songtao

Subjects

TOROIDAL magnetic circuits, PLASMA currents, BUS conductors (Electricity), SUPERCONDUCTORS, CRYOSTATS

Abstract

The temperature behavior of the toroidal field (TF) main busbar cable-in-conduit conductors for the International Thermonuclear Experimental Reactor in 15 MA plasma current reference scenario is analyzed by Gandalf code in this paper. The current sharing temperature T\text{cs} of MBCN1 sample at SULTAN conditions and TF main busbar at 15 MA scenario is simulated by Gandalf code, and computed from the COMSOL model, and T \text{cs} of MBCN1 sample computed in this paper is close to that tested in SULTAN. The minimum quench energy of TF main busbar with heating pulse input spatial extents of 1, 3, 6, 8, and 10 mm and durations of 40, 60, 80, and 100 $\mu$s is simulated by Gandalf code in this paper. With heating pulse input region length of 1 mm and duration 40 $\mu$s, the normal length of TF main busbar is simulated by Gandalf code. [ABSTRACT FROM PUBLISHER]

Published

2017