Texture-Dependent Energy Stabilization in the Negative Thermal Expansion Superconductor IrZr₃

Sudhakar Geruganti

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Abstract

We investigate the role of crystallographic texture and compositional effects on the superconducting properties of the negative thermal expansion (NTE) material IrZr₃. Using an empirical model, we calculate an energy density term E = -1.573 kJ/m³, suggesting a texture-mediated stabilization mechanism. This work proposes experimental validation routes linking uniaxial NTE to enhanced flux pinning, offering insights for designing strain-resistant superconductors Description:Probes texture (A) and composition (wt%) as control parameters, identifying A_opt ≈ 0.62 for peak J_c. Links uniaxial NTE to anisotropic flux pinning through E = -1.573 kJ/m³ experimental validation

Version published to 10.31224/4998
Aug 3, 2025

Quantitative Energy-Property Relationships in IrZr₃ Superconductor with Negative Thermal Expansion

This article has 1 author:
1. Sudhakar Geruganti
This article has no evaluationsLatest version Aug 3, 2025
Energy-Driven Correlation of Texture and Composition with Anisotropic Superconducting Behavior in EuIn₂As₂₋ₓPₓ Zintl Compounds

This article has 1 author:
1. Sudhakar Geruganti
This article has no evaluationsLatest version Jul 21, 2025
Potential Energy Analysis of IrZr₃ Superconductor with Negative Thermal Expansion

This article has 1 author:
1. Sudhakar Geruganti
This article has no evaluationsLatest version Aug 3, 2025

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