Full potential calculation of electronic properties of rutile RO2 (R=Si, Ge, Sn and Pb) compounds via modified Becke Johnson potential |
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Authors: | Hardev SinghMukhtiyar Singh Sarvesh KumarManish K. Kashyap |
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Affiliation: | a Department of Physics, Kurukshetra University, Kurukshetra 136119, Haryana, India b Beam Transport Laboratory, Inter-University Accelerator Centre, New Delhi 110067, India |
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Abstract: | The electronic properties of RO2 (R=Si, Ge, Sn and Pb; a group IVA element) compounds in rutile structure have been calculated using WIEN2k implementation of full potential linearized augmented plane wave (FPLAPW) method. The exchange and correlation (XC) effects are taken into account by an orbital independent modified Becke Johnson (MBJ) potential as coupled with Local Density Approximation (LDA) for all the compounds except for PbO2 where only Generalized Gradient Approximation (GGA) is considered for the same. We predict a direct band gap in all these compounds with continuous decrease as the atomic size of IVA element increases such that there is an appearance of semimetallic band structure for the last compound, PbO2. The largest band gap (7.66 eV) has been found for SiO2, which governs its insulating nature. We observe that MBJLDA results for band gaps of these compounds are far better than those obtained using GGA and Engel-Vosko's GGA (EV-GGA). A very good agreement is observed between MBJLDA band gaps with corresponding experimental values as compared to other calculations. The electronic band structures are also analyzed in terms of contributions from various electrons. |
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Keywords: | Band structure DFT FPLAPW method First principle MBJ SnO2 |
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