Mohammed Reza Jangrouei

Mohammad Reza Jangrouei does research in Computational modeling of Laser Spectroscopy, Atomic, Molecular, Optical, and Condensed Matter Physics, and Quantum Chemistry. Their current project is 'A computational method for a description of the intermolecular interactions in excited states'. This project’s goal is to fill the gap in the computational chemistry’s toolbox and developing a method that would describe efficiently and accurately the noncovalent interactions in the excited state.

  • M. R. Jangrouei, A. Krzemińska-Kowalska, M. Hapka, E. Pastorczak, K. Pernal, Dispersion Interactions in Exciton-Localized States. Theory and Applications to π–π* and n−π* Excited States, J. Chem. Theory Comput. 18(6), 3497-3511, 2022
  • M. R. Jangrouei, K. Pernal, O. Gritsenko, On-top description of the effect of excitation on electron correlation with quasiparticles, Phys. Rev. A 104(2), 022804, 2021
  • M. R. Jangrouei, K. Pernal, O. Gritsenko, Universal on-top description of electron correlation in the ground and excited many-electron states with correlon quasiparticles, Phys. Rev. A 102(5), 052829, 2020
  • M. R. Jangrouei, S. J. Hashemifar, First-principles insights into ultrashort laser spectroscopy of molecular nitrogen, J. Electron Spectrosc. Relat. Phenom. 225, 36-41, 2018
  • M. R. Jangrouei, S. J. Hashemifar, First-principles insights into ultrashort laser spectroscopy of molecular nitrogen, J. Electron Spectrosc. Relat. Phenom. 225(225), 36-41, 2018

  • M. R. Jangrouei, Wireless Power Transmission via the effects of laser on quantum dot solar cells, 3rd International researching Conference on Science and Engineering, Bangkok, Thailand, 2017
  • M. R. Jangrouei, H. S. Javad, H. Roohollah, Time-dependent density functional study of the effects of short laser pulses on N2 molecule, 12th Conference on Condensed Matter, Isfahan, Iran, 2015

Materiały dla studentów

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Komunikaty dla studentów

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