Dr Ramil Nigmatullin

Lecturer in Complex Systems
School of Civil Engineering

J05 - J05 Civil Engineering Building
The University of Sydney

Telephone +61 2 9351 8601

Website School of Civil Engineering

Complex Systems Research Group

Research interests

Dr Ramil Nigmatullin uses computational and analytic techniques to study complex systems near criticality and far from equilibrium. He seeks connections between seemingly disparate complex phenomena using the notion of statistical mechanical universality. He is also interested in quantum technologies, in particular, in the questions of robustness and scalability of quantum computers.

Selected grants

2017

  • CRISIS: Crisis Response in Interdependent Social-Infrastructure Systems; Prokopenko M, Goldani Altmann E, Bunker D, Fletcher R, Lizier J, Nigmatullin R, Miles R, Penny D, Sarkar S, Sleigh A; DVC Research/Sydney Research Excellence Initiative 2020 (SREI).

Selected publications

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Journals

  • Puebla, R., Nigmatullin, R., Mehlstaubler, T., Plenio, M. (2017). Fokker-Planck formalism approach to Kibble-Zurek scaling laws and nonequilibrium dynamics. Physical Review B, 95(13). [More Information]
  • Kiethe, J., Nigmatullin, R., Kalincev, D., Schmirander, T., Mehlstaubler, T. (2017). Probing nanofriction and Aubry-type signatures in a finite self-organized system. Nature Communications, 8, 1-8. [More Information]
  • Arshad, Q., Nigmatullina, Y., Nigmatullin, R., Asavarut, P., Goga, U., Khan, S., Sander, K., Siddiqui, S., Roberts, R., Cohen Kadosh, R., et al (2016). Bidirectional Modulation of Numerical Magnitude. Cerebral Cortex, 26(5), 2311-2324. [More Information]
  • Nigmatullin, R., del Campo, A., De Chiara, G., Morigi, G., Plenio, M., Retzker, A. (2016). Formation of helical ion chains. Physical Review B, 93(1), 1-8. [More Information]
  • Nigmatullin, R., Ballance, C., de Beaudrap, N., Benjamin, S. (2016). Minimally complex ion traps as modules for quantum communication and computing. New Journal of Physics, 18(10), 1-20. [More Information]
  • Nikoghosyan, G., Nigmatullin, R., Plenio, M. (2016). Universality in the Dynamics of Second-Order Phase Transitions. Physical Review Letters, 116(8), 1-5. [More Information]
  • Partner, H., Nigmatullin, R., Burgermeister, T., Keller, J., Pyka, K., Plenio, M., Retzker, A., Zurek, W., del Campo, A., Mehlstaubler, T. (2015). Structural phase transitions and topological defects in ion Coulomb crystals. Physica B: Condensed Matter, 460, 114-118. [More Information]
  • Partner, H., Nigmatullin, R., Burgermeister, T., Pyka, K., Keller, J., Retzker, A., Plenio, M., Mehlstaubler, T. (2013). Dynamics of topological defects in ion Coulomb crystals. New Journal of Physics, 15, 103013:1-103013: 20. [More Information]
  • Ulm, S., Ropnage, J., Jacob, G., Degunther, C., Dawkins, S., Poschinger, U., Nigmatullin, R., Retzker, A., Plenio, M., Schmidt-Kale, F., et al (2013). Observation of the Kibble�Zurek scaling law for defect formation in ion crystals. Nature Communications, 4, 2290: 1-2290: 7. [More Information]
  • Pyka, K., Keller, J., Partner, H., Nigmatullin, R., Burgermeister, T., Meier, D., Kuhlmann, K., Retzker, A., Plenio, M., Zurek, W., et al (2013). Topological defect formation and spontaneous symmetry breaking in ion Coulomb crystals. Nature Communications, 4, 1-13. [More Information]
  • Nigmatullin, R., Schirmer, S. (2009). Implementation of fault-tolerant quantum logic gates via optimal control. New Journal of Physics, 11, 105032:1-105032:21. [More Information]

2017

  • Puebla, R., Nigmatullin, R., Mehlstaubler, T., Plenio, M. (2017). Fokker-Planck formalism approach to Kibble-Zurek scaling laws and nonequilibrium dynamics. Physical Review B, 95(13). [More Information]
  • Kiethe, J., Nigmatullin, R., Kalincev, D., Schmirander, T., Mehlstaubler, T. (2017). Probing nanofriction and Aubry-type signatures in a finite self-organized system. Nature Communications, 8, 1-8. [More Information]

2016

  • Arshad, Q., Nigmatullina, Y., Nigmatullin, R., Asavarut, P., Goga, U., Khan, S., Sander, K., Siddiqui, S., Roberts, R., Cohen Kadosh, R., et al (2016). Bidirectional Modulation of Numerical Magnitude. Cerebral Cortex, 26(5), 2311-2324. [More Information]
  • Nigmatullin, R., del Campo, A., De Chiara, G., Morigi, G., Plenio, M., Retzker, A. (2016). Formation of helical ion chains. Physical Review B, 93(1), 1-8. [More Information]
  • Nigmatullin, R., Ballance, C., de Beaudrap, N., Benjamin, S. (2016). Minimally complex ion traps as modules for quantum communication and computing. New Journal of Physics, 18(10), 1-20. [More Information]
  • Nikoghosyan, G., Nigmatullin, R., Plenio, M. (2016). Universality in the Dynamics of Second-Order Phase Transitions. Physical Review Letters, 116(8), 1-5. [More Information]

2015

  • Partner, H., Nigmatullin, R., Burgermeister, T., Keller, J., Pyka, K., Plenio, M., Retzker, A., Zurek, W., del Campo, A., Mehlstaubler, T. (2015). Structural phase transitions and topological defects in ion Coulomb crystals. Physica B: Condensed Matter, 460, 114-118. [More Information]

2013

  • Partner, H., Nigmatullin, R., Burgermeister, T., Pyka, K., Keller, J., Retzker, A., Plenio, M., Mehlstaubler, T. (2013). Dynamics of topological defects in ion Coulomb crystals. New Journal of Physics, 15, 103013:1-103013: 20. [More Information]
  • Ulm, S., Ropnage, J., Jacob, G., Degunther, C., Dawkins, S., Poschinger, U., Nigmatullin, R., Retzker, A., Plenio, M., Schmidt-Kale, F., et al (2013). Observation of the Kibble�Zurek scaling law for defect formation in ion crystals. Nature Communications, 4, 2290: 1-2290: 7. [More Information]
  • Pyka, K., Keller, J., Partner, H., Nigmatullin, R., Burgermeister, T., Meier, D., Kuhlmann, K., Retzker, A., Plenio, M., Zurek, W., et al (2013). Topological defect formation and spontaneous symmetry breaking in ion Coulomb crystals. Nature Communications, 4, 1-13. [More Information]

2009

  • Nigmatullin, R., Schirmer, S. (2009). Implementation of fault-tolerant quantum logic gates via optimal control. New Journal of Physics, 11, 105032:1-105032:21. [More Information]

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