M. Aziz Majidi, Ph.D.

BIOGRAPHICAL SKETCH:

Muhammad Aziz Majidi received a Sarjana degree (equivalent to B.Sc. plus) in physics in 1993 from University of Indonesia Department of Physics, and a master’s degree in 1997, in the same field from the same department. Further, he was selected to participate in the Diploma Programme on Condensed Matter Physics held by ICTP, in Trieste, Italy (1997-1998). He received his Ph.D. degree from the Physics Department, University of Cincinnati, USA, in 2006, with a dissertation entitled Computational Studies of Ferromagnetism in Strongly Correlated Electronic Systems (under advisory of Prof. Mark Jarrell). Before returning to Indonesia, he had worked as a postdoctoral research associate (2006-2008) at Physics Dept. of University of North Dakota, USA (under supervision of Prof. Juana Moreno).

RESEARCH INTEREST
TEACHING

Dr. Majidi is a member of the Condensed-Matter Physics group and his field of interest is Theoretical-Computational Condensed Matter Physics. His research focuses on modeling of strongly-correlated systems such as manganites, cuprates, and dilute magnetic semiconductors, and recently, also graphene, to predict their thermodynamic, transport, and optical properties. In most of his research, he employs the method of Dynamical Mean Field Theory (DMFT) and its extentions. In addition, recently, he has also started developing algorithmic implementions of Feynman diagrammatic – based techniques, such as GW and Ladder Diagram approximations, to study effects of electron-electron and electron-hole interactions revealed in optical responses of strongly-correlated systems. Since the past few years, his research has mainly been in collaboration with Dr. Andrivo Rusydi’sresearch group of the Department of Physics, National University of Singapore (NUS).

Undergraduate courses: General Physics, Classical Mechanics, Quantum Mechanics, Solid State Physics, Thermodynamics, Statistical Mechanics, Computational Physics.

Graduate courses: Graduate Quantum Mechanics, Solid State Physics, Advanced Solid State Physics, Selected Topics in Condensed Matter Physics.

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My Students

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PUBLICATIONS

PUBLICATIONS: [See publications in Scopus, Google Scholar, or Web of Science]

  1. T. J. Whitcher, Angga Dito Fauzi, D. Caozheng, X. Chi, A. Syahroni, T. C. Asmara, M. B. H. Breese, A. H. Castro Neto, A. T. S. Wee, M. Aziz Majidi and A. Rusydi,
    Unravelling strong electronic interlayer and intralayer correlations in a transition metal dichalcogenide, Nature Communications 12, 6980 (2021).
  2. B. L. Ong, M. A. Naradipa, A. D. Fauzi, M. A. Majidi, C. Diao, S. Kurumi, P. K. Das, C. Xiao, P. Yang, M. B. H. Breese, S. W. Ong, K. M. Tan, E. S. Tok, and A. Rusydi, A New Spin-Correlated Plasmon in Novel Highly Oriented Single-Crystalline Gold Quantum Dots, Nano Letters 21, 18, 7448-7456 (2021).
  3. A. B. Cahaya, M. A. Majidi, Effects of screened Coulomb interaction on spin transfer torque, Physical Review B 103, 094420 (2021).
  4. A. B. Cahaya, A. Azhar, M. A. Majidi, Yukawa potential for realistic prediction of Hubbard and Hund interaction parameters for transition metals, Physica B: Condensed Matter 604, 412696 (2021).
  5. M. A. Naradipa, P. E. Trevisanutto, T. C. Asmara, M. A. Majidi, A. Rusydi, Role of hybridization and on-site correlations in generating plasmons in strongly correlated La2CuO4, Physical Review B 101, 201102 (2020).
  6. H. Harfah, Y. Wicaksono, M. A. Majidi, K. Kusakabe, Spin-Current Control by Induced Electric Polarization Reversal in Ni/hBN/Ni: A Cross-Correlation Material, ACS Applied Electronic Materials 2, 1689-1699 (2020).
  7. C. N. Rangkuti, A. B. Cahaya, A. Azhar, M. A. Majidi and A. Rusydi, Manifestation of charge/orbital order and charge transfer in temperature-dependent optical conductivity of single-layered Pr0.5Ca1.5MnO4, Journal of Physics: Condensed Matter 31, 365601 (2019).
  8. Angga Dito Fauzi, Muhammad Aziz Majidi, and Andrivo Rusydi, Mechanisms of Spin-Flipping and Metal-Insulator Transition in Nano-Fe3O4Journal of Physics: Condensed MatterVolume 29,Number 13 (2017), https://doi.org/10.1088/1361-648X/aa5bf4.
  9. T. C. Asmara, Y. Zhao, M. A. Majidi, C.T. Nelson, M. C. Scott, Y. Cai, D-Y. Wan, D. Schmidt, M. Yang, P. E. Trevisanutto, M. R. Motapothula, M. B. H. Breese, M. Sherburne, M. Asta, A. Minor, T. Venkatesan, A. Rusydi, New Tunable and Low-Loss Correlated Plasmons in Mott-Like Insulating OxidesNature Comm(accepted on December 1, 2016).
  10. Muhammad Aziz Majidi, Annamaria Bupu, and Angga Dito Fauzi, Modeling and calculation of RKKY exchange coupling to explain Ti-vacancy-induced ferromagnetism in Ta-doped TiO2Physica B: Condensed Matter 526, 172-176 (2017)
  11. Xinmao Yin, Muhammad Aziz Majidi, Xiao Chi, Peng Ren, Lu You, Natalia Palina, Xiaojiang Yu, Caozheng Diao, Daniel Schmidt, Baomin Wang, Ping Yang, Mark BH Breese, Junling Wang, Andrivo Rusydi, Unraveling how electronic and spin structures control macroscopic properties of manganite ultra-thin films, NPG Asia Materials 7 (7), e196 (2015).
  12. L. H. Yeo, A. Srivastava, M. A. Majidi, R. Sutarto, F. He, S. M. Poh, C. Diao, X. Yu, M. Motapothula, S. Saha, S. Ojha, D. Kanjilal, P. E. Trevisanutto, M. B. H. Breese, T. Venkatesan, and A. Rusydi,Anomalous spectral-weight transfers unraveling oxygen screening and electronic correlations in the insulator-metal transition of VO2Phys. Rev. B 91 (Rapid Comm), 081112(R) (2015).
  13. Muhammad Aziz Majidi, Syahril Siregar, and Andrivo Rusydi, Theoretical study of optical conductivity of graphene with magnetic and non-magnetic adatomsPhysical Review B 90, 195442 (2014).
  14. M. A. Majidi, E. Thoeng, P. K. Gogoi, F. Wendt, S. H. Wang, I. Santoso, T. C. Asmara, I. P. Handayani, P. H. M. van Loosdrecht, A. A. Nugroho, M. Rübhausen, and A. Rusydi, Temperature-dependent and anisotropic optical response of layered Pr1.5Ca0.5MnO4 probed by spectroscopic ellipsometryPhys. Rev. B 87, 235135 (2013)
  15. Muhammad Aziz Majidi, Haibin Su, Yuan Ping Feng, Michael Ruebhausen, Andrivo Rusydi, Theory of High Energy Optical Conductivity and the Role of Oxygens in Manganites,   Phys. Rev. B 84, 075136 (2011).
  16. I. Santoso, P.K Gogoi, H.B. Su, H. Huang, Y. Lu, D. Qi, W. Chen, M.A. Majidi, Y. P. Feng, A. T. S. Wee, K. P. Loh, T. Venkatesan, R. P. Saichu, A. Goos, A. Kotlov, M. Ruebhausen, A. Rusydi, Direct observation of room temperature high-energy resonant excitonic effects in graphene,  Phys. Rev. B (Rapid Comm) 84, 081403 (2011).
  17. M. A. Majidi, J. Moreno, M. Jarrell, R.S. Fishman, and K. Aryanpour, Dynamics of Impurity and Valence Bands in Ga1-xMnxAs within the Dynamical Mean Field Approximation Phys. Rev. B 74, 115205 (2006).
  1. C. N. Rangkuti, A. B. Cahaya, A. Azhar, M. A. Majidi and A. Rusydi, Manifestation of charge/orbital order and charge transfer in temperature-dependent optical conductivity of single-layered Pr0.5Ca1.5MnO4, Journal of Physics: Condensed Matter (accepted 2019).
  2. Angga Dito Fauzi, Muhammad Aziz Majidi, and Andrivo Rusydi, Mechanisms of Spin-Flipping and Metal-Insulator Transition in Nano-Fe3O4Journal of Physics: Condensed MatterVolume 29,Number 13 (2017), https://doi.org/10.1088/1361-648X/aa5bf4.
  3. T. C. Asmara, Y. Zhao, M. A. Majidi, C.T. Nelson, M. C. Scott, Y. Cai, D-Y. Wan, D. Schmidt, M. Yang, P. E. Trevisanutto, M. R. Motapothula, M. B. H. Breese, M. Sherburne, M. Asta, A. Minor, T. Venkatesan, A. Rusydi, New Tunable and Low-Loss Correlated Plasmons in Mott-Like Insulating OxidesNature Comm(accepted on December 1, 2016).
  4. Muhammad Aziz Majidi, Annamaria Bupu, and Angga Dito Fauzi, Modeling and calculation of RKKY exchange coupling to explain Ti-vacancy-induced ferromagnetism in Ta-doped TiO2Physica B (accepted on August 20, 2016), available onhttp://dx.doi.org/10.101/j.physb.2016.08.031
  5. Xinmao Yin, Muhammad Aziz Majidi, Xiao Chi, Peng Ren, Lu You, Natalia Palina, Xiaojiang Yu, Caozheng Diao, Daniel Schmidt, Baomin Wang, Ping Yang, Mark BH Breese, Junling Wang, Andrivo Rusydi, Unraveling how electronic and spin structures control macroscopic properties of manganite ultra-thin films, NPG Asia Materials 7 (7), e196 (2015).
  6. L. H. Yeo, A. Srivastava, M. A. Majidi, R. Sutarto, F. He, S. M. Poh, C. Diao, X. Yu, M. Motapothula, S. Saha, S. Ojha, D. Kanjilal, P. E. Trevisanutto, M. B. H. Breese, T. Venkatesan, and A. Rusydi,Anomalous spectral-weight transfers unraveling oxygen screening and electronic correlations in the insulator-metal transition of VO2Phys. Rev. B 91 (Rapid Comm), 081112(R) (2015).
  7. Muhammad Aziz Majidi, Syahril Siregar, and Andrivo Rusydi, Theoretical study of optical conductivity of graphene with magnetic and non-magnetic adatomsPhysical Review B 90, 195442 (2014).
  8. M. A. Majidi, E. Thoeng, P. K. Gogoi, F. Wendt, S. H. Wang, I. Santoso, T. C. Asmara, I. P. Handayani, P. H. M. van Loosdrecht, A. A. Nugroho, M. Rübhausen, and A. Rusydi, Temperature-dependent and anisotropic optical response of layered Pr1.5Ca0.5MnO4 probed by spectroscopic ellipsometryPhys. Rev. B 87, 235135 (2013)
  9. Muhammad Aziz Majidi, Haibin Su, Yuan Ping Feng, Michael Ruebhausen, Andrivo Rusydi, Theory of High Energy Optical Conductivity and the Role of Oxygens in Manganites,   Phys. Rev. B 84, 075136 (2011).
  10. I. Santoso, P.K Gogoi, H.B. Su, H. Huang, Y. Lu, D. Qi, W. Chen, M.A. Majidi, Y. P. Feng, A. T. S. Wee, K. P. Loh, T. Venkatesan, R. P. Saichu, A. Goos, A. Kotlov, M. Ruebhausen, A. Rusydi, Direct observation of room temperature high-energy resonant excitonic effects in graphene,  Phys. Rev. B (Rapid Comm) 84, 081403 (2011).
  11. M. A. Majidi, J. Moreno, M. Jarrell, R.S. Fishman, and K. Aryanpour, Dynamics of Impurity and Valence Bands in Ga1-xMnxAs within the Dynamical Mean Field Approximation Phys. Rev. B 74, 115205 (2006).
  1. Muhammad Aziz Majidi, As’ad Saleh Umar, and Andrivo Rusydi, Dynamical Mean-Field Theoretical Approach to Explore the Temperature-Dependent Magnetization of Ta Doped TiO2, IoP Conference Proceedings (accepted November 2016)
  2. Muhammad Aziz Majidi, Regi Kusumaatmaja, Angga Dito Fauzi, Wileam Yonatan Phan, Ardiansyah Taufik, Rosari Saleh, and Andrivo Rusydi, Theoretical Exploration of the Optical Response of Fe3O4-Reduced Graphene Oxide Nanoparticle System, IoP Conference Proceedings (accepted November 2016)
  3. Muhammad Aziz Majidi, Yusuf Wicaksono, Angga Dito Fauzi, Ardiansyah Taufik, Rosari Saleh, and Andrivo Rusydi, Theoretical investigation on the magnetization enhancement of Fe3O4 – reduced graphene oxide nanoparticle system, IoP Conference Proceedings (accepted November 2016)
  4. Angga Dito Fauzi, Muhammad Aziz Majidi, Andrivo Rusydi, Role of temperature-dependent O-p – Fe-d hybridization parameter on the metal-insulator transition of Fe3O4: A theoretical study, IoP Conference Proceedings (accepted November 2016)
  5. Annamaria Bupu, Muhammad Aziz Majidi, and Andrivo Rusydi, Theoretical study on the magnetic moments formation in Ta-doped anatase TiO2, IoP Conference Proceedings (accepted November 2016)
  6. Muhammad Aziz MajidiWileam Yonatan Phan, and Andrivo Rusydi, Investigation of the effects of the graphene-substrate hybridization on the optical conductivity of graphene, AIP Conf. Proc. 1729, 020016 (2016); http://dx.doi.org/10.1063/1.4946919, ISCPMS 2015, Depok, INDONESIA, 3–4 November 2015.
  7. Muhammad Aziz Majidi, Muhammad Avicenna NaradipaWileam Yonatan PhanAhmad Syahroni, and Andrivo Rusydi, Development of tight-binding based  algorithm and its computational implementation for grapheneAIP Conf. Proc. 1729, 020013 (2016); http://dx.doi.org/10.1063/1.4946916, ISCPMS 2015, Depok, INDONESIA, 3–4 November 2015.
  1. A.-M. Nili, M. A. Majidi, P. Reis, J. Moreno, M. Jarrell, The effect of spin-orbit interaction and attractive Coulomb potential on the magnetic properties of Ga1-xMnxAs,  available on arXiv:1006.0998.
  2. M. A. Majidi, D.G.S.P. Doluweera, B. Moritz, P.R.C. Kent, J. Moreno, and M. Jarrell, Charge Density Wave Driven Ferromagnetism in the Periodic Anderson Model,  available on arXiv:0710.5937.

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Note:

Most student projects are intended for publications in journals or proceedings. However, depending on the situation, a student project may require an extended work after the student’s graduation before it becomes ready for a publication.

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