Effect of impurity substitution on band structure and mass renormalization of the correlated<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow><mml:msub><mml:mi>FeTe</mml:mi><mml:mrow><mml:mn>0.5</mml:mn></mml:mrow></mml:msub><mml:msub><mml:mi>Se</mml:mi><mml:mrow><mml:mn>0.5</mml:mn></mml:mrow></mml:msub></mml:mrow></mml:math>superconductor

Thirupathaiah, S.; Fink, J.; Maheshwari, Pankaj; Kishore, V. Vijaya; Liu, Z.-H.; Rienks, E. D. L.; Büchner, B.; Awana, V. P. S.; Sarma, D. D.

doi:10.1103/physrevb.93.205143

Cited by 5 publications

(10 citation statements)

References 69 publications

(147 reference statements)

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“…Further, application of pressure up to 20.6 GPa, the normal state resistivity decreases, and enhancement of metallic nature is observed and it is due to the alignment of distorted structure and resulting in an increase of the number of charge carriers at the Fermi level of this system [40]. In general, there is a trend in the decrease of electrical resistivity with pressure that would imply the reduction of net electron-phonon scattering and it indicate that the densities of states (DOS) is reduced at the Fermi surface and leads to enhancement of metallic behaviour in Fe0.99Ni0.01Fe0.5Te0.5.…”

Section: Transport Propertiesmentioning

confidence: 94%

Pressure-induced structural transition and huge enhancement of superconducting properties of single-crystal Fe0.99Ni0.01Se0.5Te0.5 unconventional superconductor

Kalaiselvan

Lingannan

Kannan

et al. 2021

Journal of Materials Research

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We report high pressure structural studies (52 GPa) at room temperature combined with magnetic [(M(T):1GPa] and electrical resistivity [(ρ(T):0-21GPa)] measurements down to 2K on Fe0.99Ni0.01Se0.5Te0.5 superconductor using designer diamond anvils (D-DAC) pressure cell. The M(T) data shows huge enhancement of superconducting transition temperature (Tc) from 8.62 to 14.8 K (1 GPa) and ρ(T) reveals maximum enhancement of Tc ~ 30.5 K at 3 GPa (dTc/dP= ~ 7.19 K/GPa) followed by moderate decrease of Tc up to 19 K at 7.5 GPa, further increasing pressure Tc gets vanished at 10.6 GPa. The reduction of Tc due to the occurrence of structural transition that is likely associated with possible reduction of charge carriers in the density of states in Fermi surface. The high pressure XRD measurements shows tetragonal phase exists up to 7 GPa, followed by mixed-phase which is visible between 7.5 GPa to 14.5 GPa. The structural transformation occurs at 15 GPa from tetragonal (P4/nmm) to NiAs -type hexagonal phase (P63/mmc) and it is stable up to 52 GPa were confirmed from the equation of state (EOS) and it can be correlated with variation of Tc under pressure for Fe0.99Ni0.01Se0.5Te0.5 chalcogenide superconductors.

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Section: Transport Propertiesmentioning

confidence: 94%

Pressure-induced structural transition and huge enhancement of superconducting properties of single-crystal Fe0.99Ni0.01Se0.5Te0.5 unconventional superconductor

Kalaiselvan

Lingannan

Kannan

et al. 2021

Journal of Materials Research

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“…This is especially true if one tries to explain angle-resolved photoemission (ARPES) spectra of the iron pnictides 6 – 13 . In this context a significant discrepancy between the effective masses derived from experimental ARPES spectra and from LDA band structure calculations was reported 11 , 13 , 14 . Correct trends in the effective masses can be observed using dynamical a mean-field theory (DMFT) approach which quantifies the importance of correlation effects for the iron pnictides 15 , 16 .…”

Section: Introductionmentioning

confidence: 98%

“…[6][7][8][9][10][11][12][13] In this context a significant discrepancy between the effective masses derived from experimental ARPES spectra m * exp and from LDA band structure calculations m * LDA was reported. 11,13,14 Correct trends in the effective masses can be observed using dynamical a mean-field theory (DMFT) approach which quantifies the importance of correlation effects for the iron pnictides. 15,16 Various advanced approaches have been applied in the field, accounting for different phenomena.…”

Section: Introductionmentioning

confidence: 99%

Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor

Derondeau¹,

Bisti

Kobayashi

et al. 2017

Sci Rep

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The angle-resolved photoemission spectra of the superconductor (Ba1−xKx)Fe2As2 have been investigated accounting coherently for spin-orbit coupling, disorder and electron correlation effects in the valence bands combined with final state, matrix element and surface effects. Our results explain the previously obscured origins of all salient features of the ARPES response of this paradigm pnictide compound and reveal the origin of the Lifshitz transition. Comparison of calculated ARPES spectra with the underlying DMFT band structure shows an important impact of final state effects, which result for three-dimensional states in a deviation of the ARPES spectra from the true spectral function. In particular, the apparent effective mass enhancement seen in the ARPES response is not an entirely intrinsic property of the quasiparticle valence bands but may have a significant extrinsic contribution from the photoemission process and thus differ from its true value. Because this effect is more pronounced for low photoexcitation energies, soft-X-ray ARPES delivers more accurate values of the mass enhancement due to a sharp definition of the 3D electron momentum. To demonstrate this effect in addition to the theoretical study, we show here new state of the art soft-X-ray and polarisation dependent ARPES measurments.

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“…Following the protocol [23], we have grown single crystals of series Fe 1-x Ni x Se 0.5 Te 0.5 . Very recently, the pure (superconducting) and Fe site 10at% Ni doped (non superconducting) FeSe 0.5 Te 0.5 flux free crystals of ours were exposed to ARPES (Angle Resolved Photo Electron Spectroscopy) studies [24]. A decrease in the size of hole pockets near the zone center and an increase in the size of electron pockets near the zone corner was seen with Fe site Ni doping in FeSe 0.5 Te 0.5 , thus suggesting an effective electron doping [24].…”

Section: Introductionmentioning

confidence: 99%

Fast Suppression of Superconductivity with Fe Site Ni Substitution in Fe 1 − x Ni x Se0.5Te0.5 (x = 0.0 to 0.20) Single Crystals

Maheshwari

Gahtori

Awana

2016

J Supercond Nov Magn

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We report the effect of Ni doping on superconductivity of FeSe 0.5 Te 0.5 . The single crystal samples of series Fe 1-x Ni x Se 0.5 Te 0.5 (x=0.0, 0.01, 0.03, 0.05, 0.07, 0.10 and 0.20) are synthesized via vacuum shield solid state reaction route and high temperature heating followed by slow cooling. All the crystals of Fe 1-x Ni x Se 0.5 Te 0.5 series with x up to 0.20, i.e., 20% substitution of Ni at Fe site are crystallized in single phase tetragonal structure with space group P4/nmm. The electrical resistivity measurements revealed that T c decreases fast with increase of Ni concentration in Fe 1-x Ni x Se 0.5 Te 0.5 . Namely the superconducting transition temperature (T c ) being defined as resistivity (ρ)=0 decrease from 12K to around 4K and 2K for x=0.01 and 0.03 samples respectively. For x=0.05 (5at% Ni at Fe site) though T c onset is observed in resistivity (ρ-T) measurements but ρ=0 is not seen down to 2K. For x ≥ 0.07, neither the T c onset nor T c ρ=0 is seen down 2K in ρ-T measurements. It is demonstrated that Ni doping at Fe site in FeSe 0.5 Te 0.5 superconductor suppresses superconductivity fast. The rate of T c depression is albeit non monotonic. Summarily, a systematic study on suppression of superconductivity with Fe site Ni doping in flux free gown FeSe 0.5 Te 0.5 single crystals is presented in the current communication.

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Effect of impurity substitution on band structure and mass renormalization of the correlatedFeTe0.5Se0.5superconductor

Cited by 5 publications

References 69 publications

Pressure-induced structural transition and huge enhancement of superconducting properties of single-crystal Fe0.99Ni0.01Se0.5Te0.5 unconventional superconductor

Pressure-induced structural transition and huge enhancement of superconducting properties of single-crystal Fe0.99Ni0.01Se0.5Te0.5 unconventional superconductor

Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor

Fast Suppression of Superconductivity with Fe Site Ni Substitution in Fe 1 − x Ni x Se0.5Te0.5 (x = 0.0 to 0.20) Single Crystals

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