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Professor
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Experimental Condensed matter physics
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My current research efforts are focused on the following areas of condensed matter physics:
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- Superconductor informatics. My students and I have been using novel artificial intelligence techniques, such as supervised machine learning, clustering and generative adversarial networks (GAN) to search for new superconducting materials.
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- Superfluid density in high Tc superconductors. My collaborators and I have been investigating doping dependence of superfluid density in high Tc superconductors, in particular in overdoped cuprates.
- Topological insulators. We have investigated the behavior of topological insulators in high magnetic fields.
- Low-temperature photoluminescence. My students and I have been studying photoluminescence spectra of polymers at very low temperatures (see image to the right).
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Recent publications:
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- E. Kim and S.V. Dordevic, “ScGAN: A Generative Adversarial Network to Predict Hypothetical Superconductors”, submitted to Physical Review B (2022).
- B. Roter, N.Ninkovic and S.V. Dordevic, “Clustering superconductors using unsupervised machine learning”, Physica C 598, 1354078 (2022).
- S.V. Dordevic and C.C. Homes, “Superfluid density in overdoped cuprates: bulk samples versus thin films”, Physical Review B 105, 214514 (2022).
- B. Roter and S.V. Dordevic, “Predicting new superconductors and their critical temperatures using machine learning”, Physica C 575, 1353689 (2020).
- K. Tsagli and S.V. Dordevic, “Temperature Dependence of Photoluminescence Spectra in Polystyrene”, Materials Performance and Characterization 9, 675 (2020).
- S.V. Dordevic, Hechang Lei, C. Petrovic, J.Ludwig, Z.Q.Li and D. Smirnov, “Observation of cyclotron antiresonance in the topological insulator Bi2Te3”, Physical Review B 98, 115138 (2018).
- T. Posavec, S. Nepal and S.V. Dordevic, “Low temperature luminescence in some common polymers”, Materials Performance and Characterization 7, 178 (2018).
