Investigating the normal state and superconducting state properties of orthorhombic and hexagonal ZrRuP: A first-principles study

Investigating the normal state and superconducting state properties of orthorhombic and hexagonal ZrRuP: A first-principles study

We have executed ab initio pseudopotential calculations on the structural, electronic, elastic, mechanical, vibrational, and electron-phonon interaction properties of hexagonal ZrRuP (h-ZrRuP) and orthorhombic ZrRuP (o-ZrRuP). The electronic states of both phases near the Fermi energy are found to b...

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Veröffentlicht in:Physical review. B 2019-11, Vol.100 (18), p.1, Article 184507
Hauptverfasser: Bağcı, S., Cin, M., Uzunok, H. Y., Karaca, Ertuǧrul, Tütüncü, H. M., Srivastava, G. P.
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Sprache:eng
Schlagworte:
Dispersion curve analysis
Elastic properties
Electron phonon interactions
Electron states
Electrons
First principles
Mechanical properties
Phases
Phonons
Superconductivity
Transition metals
Transition temperature
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container_end_page
container_issue 18
container_start_page 1
container_title Physical review. B
container_volume 100
creator Bağcı, S.
Cin, M.
Uzunok, H. Y.
Karaca, Ertuǧrul
Tütüncü, H. M.
Srivastava, G. P.
description We have executed ab initio pseudopotential calculations on the structural, electronic, elastic, mechanical, vibrational, and electron-phonon interaction properties of hexagonal ZrRuP (h-ZrRuP) and orthorhombic ZrRuP (o-ZrRuP). The electronic states of both phases near the Fermi energy are found to be dominated by the d electrons of transition metal atoms, suggesting that they play a more active role in the generation of superconducting state for both phases of ZrRuP. A critical assessment of their elastic and mechanical properties reveals that the lattice of h-ZrRuP is softer than that of o-ZrRuP. A comparison of phonon dispersion curves for both phases indicates that the lower transverse acoustic branch of h-ZrRuP is much softer than that of o-ZrRuP. The soft character of this phonon branch gives rise to strong electron-phonon interaction in h-ZrRuP. Therefore the electron-phonon coupling parameter for h-ZrRuP equals to 1.25 which is considerably larger than the corresponding value of 0.57 for o-ZrRuP. As a consequence, phonon and electron-phonon interaction properties are crucial in making superconducting transition temperature much higher for h-ZrRuP than o-ZrRuP. At the end, the value of this temperature is found to be 12.49 K for h-ZrRuP and 3.89 K for o-ZrRuP which coincide with their experimental values of 12.93 and 3.82 K.
doi_str_mv 10.1103/PhysRevB.100.184507
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Y. ; Karaca, Ertuǧrul ; Tütüncü, H. M. ; Srivastava, G. P.</creator><creatorcontrib>Bağcı, S. ; Cin, M. ; Uzunok, H. Y. ; Karaca, Ertuǧrul ; Tütüncü, H. M. ; Srivastava, G. P.</creatorcontrib><description>We have executed ab initio pseudopotential calculations on the structural, electronic, elastic, mechanical, vibrational, and electron-phonon interaction properties of hexagonal ZrRuP (h-ZrRuP) and orthorhombic ZrRuP (o-ZrRuP). The electronic states of both phases near the Fermi energy are found to be dominated by the d electrons of transition metal atoms, suggesting that they play a more active role in the generation of superconducting state for both phases of ZrRuP. A critical assessment of their elastic and mechanical properties reveals that the lattice of h-ZrRuP is softer than that of o-ZrRuP. A comparison of phonon dispersion curves for both phases indicates that the lower transverse acoustic branch of h-ZrRuP is much softer than that of o-ZrRuP. The soft character of this phonon branch gives rise to strong electron-phonon interaction in h-ZrRuP. Therefore the electron-phonon coupling parameter for h-ZrRuP equals to 1.25 which is considerably larger than the corresponding value of 0.57 for o-ZrRuP. As a consequence, phonon and electron-phonon interaction properties are crucial in making superconducting transition temperature much higher for h-ZrRuP than o-ZrRuP. 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B</jtitle><date>2019-11-07</date><risdate>2019</risdate><volume>100</volume><issue>18</issue><spage>1</spage><pages>1-</pages><artnum>184507</artnum><issn>2469-9950</issn><eissn>2469-9969</eissn><abstract>We have executed ab initio pseudopotential calculations on the structural, electronic, elastic, mechanical, vibrational, and electron-phonon interaction properties of hexagonal ZrRuP (h-ZrRuP) and orthorhombic ZrRuP (o-ZrRuP). The electronic states of both phases near the Fermi energy are found to be dominated by the d electrons of transition metal atoms, suggesting that they play a more active role in the generation of superconducting state for both phases of ZrRuP. A critical assessment of their elastic and mechanical properties reveals that the lattice of h-ZrRuP is softer than that of o-ZrRuP. A comparison of phonon dispersion curves for both phases indicates that the lower transverse acoustic branch of h-ZrRuP is much softer than that of o-ZrRuP. 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source American Physical Society Journals
subjects Dispersion curve analysis
Elastic properties
Electron phonon interactions
Electron states
Electrons
First principles
Mechanical properties
Phases
Phonons
Superconductivity
Transition metals
Transition temperature
title Investigating the normal state and superconducting state properties of orthorhombic and hexagonal ZrRuP: A first-principles study
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