2019
DOI: 10.1103/physrevb.99.245133
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Infrared spectroscopy study of the nodal-line semimetal candidate ZrSiTe under pressure: Hints for pressure-induced phase transitions

Abstract: We studied the effect of external pressure on the optical response of the nodal-line semimetal candidate ZrSiTe by reflectivity measurements. At pressures of a few GPa, the reflectivity, optical conductivity, and loss function are strongly affected in the whole measured frequency range (200-16500 cm −1 ), indicating drastic changes in the electronic band structure. The pressure-induced shift of the electronic bands affects both the intraband and interband transitions. We find anomalies in the pressure dependen… Show more

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Cited by 17 publications
(20 citation statements)
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References 28 publications
(43 reference statements)
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“…after the topological transition has occured. In this regime, ∞ ∼ 3-4, similar to the experimental values reported for ZrSiTe (∼ 3.3) [70]. This result is in favor of the chemical pressure mechanism proposed to describe the difference between the ZrSiX (X=S, Se, Te) family members.…”
Section: Optical Properties Of Strained Zrsissupporting
confidence: 86%
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“…after the topological transition has occured. In this regime, ∞ ∼ 3-4, similar to the experimental values reported for ZrSiTe (∼ 3.3) [70]. This result is in favor of the chemical pressure mechanism proposed to describe the difference between the ZrSiX (X=S, Se, Te) family members.…”
Section: Optical Properties Of Strained Zrsissupporting
confidence: 86%
“…As it is shown in Figure , the in‐plane component of ε ∞ is remaining around 9–10 up to 1% tension, after which it decreases rapidly until the tension reaches 4%, that is, after the Fermi surface modification has occurred. In this regime, ε ∞ ≈ 3 − 4, similar to the experimental values reported for ZrSiTe (≈3.3) . This result is in favor of the chemical pressure mechanism proposed to describe the difference between the ZrSi X ( X = S, Se, Te) family members.…”
Section: Optical Properties Of Uniaxial Strained Zrsissupporting
confidence: 85%
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“…Measurements of the optical conductivity in ZrSiS have been reported in previous studies. [ 26,84,88,89 ] Figure 4 shows the real part of the optical conductivity obtained in the study by Schilling et al [ 26 ] The striking feature of the spectra is the flat, frequency‐independent, region, spanning from 250 to 2500 cm −1 (30–300 meV) for almost all temperatures investigated (at T ≥ 100 K, the flat region starts at a bit higher frequencies because of a broadened free‐electron Drude mode). This observation is in perfect agreement with the simple‐model predictions for NLSMs discussed above (Equation (1) and (5)).…”
Section: Linear Optical Response: Review Of Experimental Resultsmentioning
confidence: 99%