Design of ternary and quaternary derivatives of Ln₃X₄ (Ln = rare earth, X = chalcogens) having significant antisymmetric spin-orbit coupling: Crystal structure, magnetic and superconducting properties | India Science, Technology & Innovation - ISTI Portal

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Design of ternary and quaternary derivatives of Ln₃X₄ (Ln = rare earth, X = chalcogens) having significant antisymmetric spin-orbit coupling: Crystal structure, magnetic and superconducting properties

Implementing Organization

Indian Institute of (IIT)Technology Delhi

Principal Investigator

Dr. Brajesh Kumar Mani

Assistant Professor

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Indian Institute of Technology (IIT)

CO-Principal Investigator

Prof. Ashok Kumar Ganguli

Indian Institute of (IIT)Technology Delhi

About

Rare-earth chalcogenides Ln₃X₄, consisting of Ln as a rare-earth metal and X as a chalcogenide element, have been studied for their unique physical properties, including superconductivity, magnetic, and thermoelectric properties. These compounds, which lack an inversion center, exhibit antisymmetric spin-orbit coupling, allowing for the admixture of spin-singlet and spin-triplet pairing states within the same orbital channel. These compounds are also known for their efficient thermoelectric properties, with La₃Te₄ and Ce₃Te₄ being particularly effective.

Related Research

Funding Organization

Funding Organization

Department of Science and Technology (DST)

Quick Information

Area of Research

Chemical Sciences

Focus Area

Materials Science

Start Year

2023

End Year

2025

Sanction Amount

₹ 36.28 L

Status

Completed

Output

No. of Research Paper

00

Technologies (If Any)

00

No. of PhD Produced

N/A

Startup (If Any)

00

No. of Patents

Filed :00

Grant :00