Muhammad Aziz Majidi, S.Si., M.Si., Ph.D.

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SKETSA BIOGRAFI:

Muhammad Aziz Majidi meraih gelar Sarjana (setara B.Sc. plus) bidang Fisika pada tahun 1993 dari Jurusan Fisika Universitas Indonesia, dan gelar Magister pada tahun 1997, di bidang yang sama dari jurusan yang sama. Selanjutnya, ia terpilih untuk mengikuti Program Diploma Fisika Materi Terkondensasi yang diselenggarakan oleh ICTP, di Trieste, Italia (1997-1998). Ia meraih gelar Doktor dari Jurusan Fisika, Universitas Cincinnati, AS, pada tahun 2006, dengan disertasi berjudul Computational Studies of Ferromagnetism in Strongly Correlated Electronic Systems (di bawah nasihat dari Prof. Mark Jarrell), Sebelum kembali ke Indonesia, ia pernah bekerja sebagai peneliti postdoctoral (2006-2008) di Jurusan Fisika, University of North Dakota, Amerika Serikat (di bawah bimbingan Prof. Juana Moreno).

Minat penelitian

Dr. Majidi adalah anggota Condensed-Matter Physics group dan bidang minatnya adalah Theoretical-Computational Condensed Matter PhysicsPenelitiannya berfokus pada pemodelan strongly-correlated systems seperti manganit, kuprat, dan semikonduktor magnetik encer, dan baru-baru ini, juga grafena, untuk memprediksi sifat termodinamika, transportasi, dan optiknya. Dalam sebagian besar penelitiannya, ia menggunakan metode Dynamical Mean Field Theory (DMFT) dan ekstensinya. Selain itu, baru-baru ini, ia juga mulai mengembangkan implementasi algoritmik dari teknik berbasis diagram Feynman, seperti GW dan Ladder Diagram perkiraan, untuk mempelajari efek interaksi elektron-elektron dan elektron-lubang yang terungkap dalam respons optik sistem yang berkorelasi kuat. Selama beberapa tahun terakhir, penelitiannya terutama dilakukan dalam kolaborasi dengan Dr. Andrivo Rusydi’skelompok penelitian Departemen Fisika, Universitas Nasional Singapura (NUS).

Mata kuliah sarjana: Fisika Umum, Mekanika Klasik, Mekanika Kuantum, Fisika Keadaan Padat, Termodinamika, Mekanika Statistik, Fisika Komputasi.

Mata kuliah pascasarjana: Mekanika Kuantum Pascasarjana, Fisika Keadaan Padat, Fisika Keadaan Padat Lanjutan, Topik Terpilih dalam Fisika Benda Padat.

Mahasiswa Saat Ini:

  1. Listiana SatiawatiModeling and calculations within the Dynamical Mean Field Theory for the temperature-dependent magnetic and transport properties of layered manganite systems exhibiting orbital, charge, and spin orderings (sedang dalam proses).

Siswa Sebelumnya:

  1. Albert Zicko Johannes, Role of electron-phonon interactions in the formation of energy gap in manganites within the Dynamical Mean Field Approximation  (lulus pada bulan Juli 2011). Jabatan setelah lulus: Lecturer at Department of Physics, Faculty of Science and Techonolgy, Nusa Cendana UniversityKupang, INDONESIA.
  2. M. Khabib Junaeni, Effects of electron-phonon interactions on the magneto-resistance and magneto-caloric properties of manganites within the Dynamical Mean Field Approximation(lulus Juli 2012)
  3. Gobi Hemerli, Effects of anisotropic exchange interactions on the tendency toward a first-order ferromagnetic transition in manganites (lulus Juli 2012)
  4. Gagus Ketut Sunnardianto, Density Functional Theory study of hydrogenated graphenes(graduated in July 2012). Position after graduation: Another Master degree at Prof. Koichi Kusakabe’s Laboratory, Graduate School of Engineering Science, Osaka University (lulus pada bulan Juli 2014). Jabatan saat ini: PhD student at the same lab under the same advisor.
  5. Ahmad Subkhi Aziz AgusA model to investigate the stability of Hund’s coupling in a magnetic ion against heating and photon irradiation (lulus Juli 2013)
  6. Angga Dito FauziTheoretical exploration of magnetism and transport in Fe3O4 systems with and without oxygen vacancies (dimulai pada Agustus 2015).
  7. Anugrah AzharModeling of full Heusler alloys within tight-binding approximation (dimulai pada Agustus 2015).
  8. SugiyantoModeling of half Heusler alloys within tight-binding approximation (dimulai pada Agustus 2015).
  9. Achmad PrayogiAlgorithmic implementation of Ladder diagram approximation to study effects of electron-electron and electron-hole interactions in strongly-correlated metals and semiconductors (dimulai pada Agustus 2015).
  10. Choirun Nisaa RangkutiModeling of CE-type orbital and charge orderings in Pr1.5Ca0.5MnO4(dimulai pada Agustus 2016).
  11. Jaka Septian KustantoExploring various possible magnetic exchange couplings in Dilute Magnetic Semiconductors (tentative) (dimulai pada September 2016).
  1. Syahril Siregar, Possible formation of energy gap in graphenes doped with elements from groups III and V: a Dynamical Mean Field Theory Study (graduated in July 2012).  Position after graduation: Master student at Prof. Riichiro Saito’s Lab, Physics Dept. of Tohoku University, Japan(graduated in July 2015). Current position: PhD student at Graduate school of Biomedical Engineering, Biomedical Imaging laboratory, Tohoku University (August 2015 – …)
  2. Seno Aji, Calculations employing 8 k.p bands for the magnetic and electronic properties of ZnO doped with transition metal elements within the Dynamical Mean Field Theory (graduated in June 2013 ). Current position: Master student under Prof. Ishihara’s group, Physics Dept. of Tohoku University, Japan(August 2015 – …).
  3. Wileam Yonatan PhanTheoretical study on the effects of substrates on the optical conductivity of graphene (graduated in June 2014). Current position: PhD student in Theoretical Condensed-Matter Physics at the University of Tennessee, Knoxville, USA (August 2016 – …).
  4. Wisnu Tantyo HadmojoCalculations of electric permittivity and magnetic permeability as functions of frequency using the experimental data of scattering parameters of a radar absorbing material (graduated in June 2013). Current position: Master student at Jang Research Group, Dept. of Chemistry, Kookmin University, Seoul, South Korea (January 2014 – …)
  5. Ryanda Enggar Anugrah ArdhiCalculations employing 8 k.p bands for the magnetic and electronic properties of GaN doped with transition metal elements within the Dynamical Mean Field Theory (graduated in June 2013). Current position: Master student at Advanced Energy Materials Processing Laboratory, Center for Energy Convergence Research, Korea Institute of Science and Technology (KIST) (January 2016 – …)
  6. Ahmad SyahroniTight-Binding based GW algorithm for graphene (graduated in June 2014).
  7. Choirun Nisaa RangkutiModeling and calculations of optical conductivity of layered Pr1.5Ca0.5MnO4 within the Dynamical Mean Field Theory (graduated in June 2014). Current position: Master student in Theoretical Condensed-Matter Physics at the Dept. of Physics, University of Indonesia (August 2016 – …).
  8. Jaka Septian Kustanto, Calculations employing 8 k.p bands for the magnetic and transport properties of GaAs:Mn Dilute Magnetic Semiconductors within the Dynamical Mean Field Theory(graduated in June 2014). Current position: Master student in Theoretical Condensed-Matter Physics at the Dept. of Physics, University of Indonesia (August 2016 – …).
  9. A. Ramadhan Pratama, Calculation of Remanence, Magnetization, Coercivity, and Anisotropy Constant of Barium Hexaferrite doped with Mn/Ti within Heisenberg Model (graduated in June 2014).
  10. Angga Dito FauziTight-binding based modeling to investigate spin-flipping mechanism in Fe3O4due to oxygen vacancies (graduated in December 2014). Current position: Master student in Theoretical Condensed-Matter Physics at the Dept. of Physics, University of Indonesia (August 2015 – …).
  11. Muhammad Avicenna Naradipa, Calculation of optical conductivity of graphene employing tight-binding based GW algorithm (graduated in June 2015). Current position: Master student in Condensed-Matter Physics at the Dept. of Physics, National University of Singapore (August 2016 – …).
  12. Gerry Resmi Liyana, Tight-binding based modeling to study metal-insulator transition in Vanadium Dioxide within Mott-Hubbard picture (graduated in June 2015).
  13. Bagus Hermawan PutrantoExploration of correlation effects through optical responses of wide- and narrow-band gap semiconductors using Density Functional Theory based implementation of GW – Bethe-Salpeter equation (graduated in June 2016).
  14. Yusuf WicaksonoDynamical Mean-Field Theoretical study to explore magnetic field dependence of Fe3O4 – reduced graphene oxide nano-particle system (graduated in June 2016)
  15. Annamaria BupuTheoretical study of the formation of magnetic moments and the ferromagnetic ordering in Ta-doped TiO2 (graduated in June 2016).
  16. Regi KusumaatmajaTheoretical study of optical response of Fe3O4 – reduced graphene oxide nano-particle system within Dynamical Mean-Field Theory (graduated in June 2016)
  17. As’ad Saleh UmarDynamical Mean-Field Theoretical study to explore temperature-dependent magnetization of Ta-doped TiO2 (graduated in June 2016)
  18. Maryam NurhudaOptical conductivity calculation of a Luttinger-Kohn model for GaAs incorporating electron-hole interactions through a vertex function within ladder approximation (sedang dalam proses).
  19. Humaira KhairunnisaOptical conductivity calculation of a k.p model ZnO incorporating electron-hole interactions through a vertex function within ladder approximation (sedang dalam proses).
  20. Altifani Rizky HayyuTheoretical study of band structure renormalization of Luttinger-Kohn model semiconductor by incorporating GW self-energy (sedang dalam proses).
  21. Lentara Pundi SyainaAlgorithmic implementation of Dynamical Mean-Field Theory employing stochastic exact diagonalization as the impurity solver (sedang dalam proses).
  22. Habib Rizqa KarimaA toy model to investigate the emergence of excitons in the ground state of a strongly-correlated semiconductor (sedang dalam proses).
  23. Naima Amaliah Asmah RamadhaniDensity Functional Theory (DFT) – based calculation of optical properties of AlxGa1-x-N incorporating GW self-energy and Bethe-Salpeter Equation (sedang dalam proses).
  24. Wardatu AuliaDensity Functional Theory (DFT) – based calculation of optical properties of Ta-doped TiO2 incorporating GW self-energy and Bethe-Salpeter Equation (GW-BSE) (sedang dalam proses).
  25. Aslamic AdikaDensity Functional Theory (DFT) – based calculation of optical properties of Sr1-xNbO3-incorporating GW self-energy and Bethe-Salpeter Equation (sedang dalam proses).
Google Scholar
Scopus
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 dichalcogenideNature 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 DotsNano Letters 21, 18, 7448-7456 (2021).
  3. A. B. Cahaya, M. A. Majidi, Effects of screened Coulomb interaction on spin transfer torquePhysical 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 metalsPhysica 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 La2CuO4Physical 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 MaterialACS 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 Pr0.5Ca1.5MnO4Journal 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 Pr0.5Ca1.5MnO4Journal 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.

Sebagian besar proyek mahasiswa ditujukan untuk dipublikasikan di jurnal atau prosiding. Namun, tergantung pada situasinya, proyek mahasiswa mungkin memerlukan pengerjaan tambahan setelah mahasiswa lulus sebelum siap dipublikasikan.