Giant Phonon Softening and Enhancement of Superconductivity by   Phosphorus Doping of BaNi2As2

K. Kudo; M. Takasuga; Y. Okamoto; Z. Hiroi; M. Nohara

arXiv:1204.4958·cond-mat.supr-con·October 30, 2012

Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2

K. Kudo, M. Takasuga, Y. Okamoto, Z. Hiroi, M. Nohara

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TL;DR

Phosphorus doping in BaNi2As2 induces a structural phase change and significantly enhances superconductivity, likely due to phonon softening related to in-plane Ni and As(P) modes.

Contribution

This study demonstrates how phosphorus doping causes a phase transition and boosts superconductivity in BaNi2As2 through phonon softening mechanisms.

Findings

01

Superconducting transition temperature increases from 0.6 K to 3.3 K with phosphorus doping.

02

Structural transition from triclinic to tetragonal phase occurs at x=0.067.

03

Phonon softening is linked to enhanced superconductivity in the doped material.

Abstract

The effects of phosphorus doping on the structural and superconducting phase transitions of BaNi $_{2}$ (As $_{1 - x}$ P $_{x}$ ) $_{2}$ were studied. The specific heat, resistivity, and magnetic susceptibility were measured. The results revealed an abrupt increase in the superconducting transition temperature ( $T_{c}$ ) from 0.6 K in the triclinic phase (space group P $\overset{ˉ}{1}$ ) with less phosphorus (0 $\leq$ $x$ $\leq$ 0.067) to 3.3 K in the tetragonal phase (space group I4/mmm) with more phosphorus ( $x$ $\geq$ 0.067). Our data analysis suggests that a doping-induced softening related to an in-plane Ni and As(P) phonon mode is responsible for the enhanced superconductivity in the tetragonal phase.

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