Lectures & References: Difference between revisions

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*[https://www.vasp.at/wiki/images/5/5d/VASP_lecture_Basics.pdf Introduction to VASP plane-wave basis DFT code]
*[https://www.vasp.at/wiki/images/5/5d/VASP_lecture_Basics.pdf Introduction to VASP plane-wave basis DFT code]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/0/06/Dft_applications.pdf  DFT applications in Physics and Chemistry and their technical aspects]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/0/06/Dft_applications.pdf  DFT applications in Physics and Chemistry and their technical aspects]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/c/c3/Dft_hand_on_h2o_relaxation.pdf Hand-on H<sub>2</sub>O relaxation using VASP]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/b/ba/DFT_and_Magnetism_theory.pdf DFT and Magnetism Theory]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/e/e0/Dft_hand_on_h2o_vibration.pdf Hand-on H<sub>2</sub>O vibration using VASP]


===References===
===References===
*K. Capelle, ''A bird's-eye view of density-functional theory'', [https://arxiv.org/pdf/cond-mat/0211443 arXiv:cond-mat/0211443].
*K. Capelle, ''A bird's-eye view of density-functional theory'', [https://arxiv.org/pdf/cond-mat/0211443 arXiv:cond-mat/0211443].
*F. Giustino, ''Materials Modelling using Density Functional Theory: Properties and Predictions'' (Oxford University Press, Oxford, 2014). 
*C. Fiolhais, F. Nogueira, and M. A. L. Marques, ''A Primer in Density Functional Theory'' (Springer-Verlag, Berlin, 2003). [https://link.springer.com/book/10.1007/3-540-37072-2 [PDF]]
*C. Fiolhais, F. Nogueira, and M. A. L. Marques, ''A Primer in Density Functional Theory'' (Springer-Verlag, Berlin, 2003). [https://link.springer.com/book/10.1007/3-540-37072-2 [PDF]]
*D. J. Carrascal, J. Ferrer, J. C. Smith, and K. Burke, ''The Hubbard dimer: a density functional case study of a many-body problem'', J. Phys.: Condens. Matter '''27''', 393001 (2015). [https://iopscience.iop.org/article/10.1088/0953-8984/27/39/393001 [PDF]]
*D. J. Carrascal, J. Ferrer, J. C. Smith, and K. Burke, ''The Hubbard dimer: a density functional case study of a many-body problem'', J. Phys.: Condens. Matter '''27''', 393001 (2015). [https://iopscience.iop.org/article/10.1088/0953-8984/27/39/393001 [PDF]]
*T. Zhang, N. Regnault, B. A. Bernevig, X. Dai, and H. Weng, ''O(N) ab initio calculation scheme for large-scale moiré structures'', Phys. Rev. B '''105''', 125127 (2022). [https://doi.org/10.1103/PhysRevB.105.125127 [PDF]]


==TDDFT==
==TDDFT==
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*P. Romaniello, ''Hubbard dimer in GW and beyond'' [https://www.cond-mat.de/events/correl21/manuscripts/romaniello.pdf [PDF]]
*P. Romaniello, ''Hubbard dimer in GW and beyond'' [https://www.cond-mat.de/events/correl21/manuscripts/romaniello.pdf [PDF]]


==GW+DMFT==
==Beyond DFT: GW and DMFT==
*[https://wiki.physics.udel.edu/wiki_cmpb/images/0/03/Intro_manybody.pdf Introduce many-body perturbation theory (GW) combined with dynamical mean field theory (DMFT)]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/0/03/Intro_manybody.pdf Introduction to many-body perturbation theory (GW) combined with dynamical mean field theory (DMFT)]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/4/49/Manybody_applications.pdf Ab initio many-body methods (LQSGW+DMFT, GW+EDMFT) applications in magnetism-related physics]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/4/49/Manybody_applications.pdf Ab initio many-body methods (LQSGW+DMFT, GW+EDMFT) applications in magnetism-related physics]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/4/4e/Lqsgw%2Bdmft_tutorial_NiO.pdf Toutorial of LQSGW+DMFT]
*[https://wiki.physics.udel.edu/wiki_cmpb/images/4/4e/Lqsgw%2Bdmft_tutorial_NiO.pdf Toutorial on LQSGW+DMFT]
===References===
===References===
*K. Held, ''Electronic structure calculations using dynamical mean field theory'', Adv. Phys. '''56''', 829 (2007). [https://www.tandfonline.com/doi/full/10.1080/00018730701619647 [PDF]]
*K. Held, ''Electronic structure calculations using dynamical mean field theory'', Adv. Phys. '''56''', 829 (2007). [https://www.tandfonline.com/doi/full/10.1080/00018730701619647 [PDF]]
==Atomistic spin dynamics and micromagnetics==
===References===
*C. Etz, L. Bergqvist, A. Bergman, A. Taroni, and O.  Eriksson,  ''Atomistic spin dynamics and surface magnons'', J. Phys.: Condens. Matter '''27''', 243202 (2015). [https://iopscience.iop.org/article/10.1088/0953-8984/27/24/243202 [PDF]]
* R. F. L. Evans, W. J. Fan, P. Chureemart, T. A. Ostler, M. O. A. Ellis, and R. W. Chantrell, ''Atomistic spin model simulations of magnetic nanomaterials'',  J. Phys.: Condens. Matter '''26''', 103202 (2014). [https://iopscience.iop.org/article/10.1088/0953-8984/26/10/103202/pdf [PDF]]

Latest revision as of 11:42, 18 January 2025

DFT

References

  • K. Capelle, A bird's-eye view of density-functional theory, arXiv:cond-mat/0211443.
  • F. Giustino, Materials Modelling using Density Functional Theory: Properties and Predictions (Oxford University Press, Oxford, 2014).
  • C. Fiolhais, F. Nogueira, and M. A. L. Marques, A Primer in Density Functional Theory (Springer-Verlag, Berlin, 2003). [PDF]
  • D. J. Carrascal, J. Ferrer, J. C. Smith, and K. Burke, The Hubbard dimer: a density functional case study of a many-body problem, J. Phys.: Condens. Matter 27, 393001 (2015). [PDF]
  • T. Zhang, N. Regnault, B. A. Bernevig, X. Dai, and H. Weng, O(N) ab initio calculation scheme for large-scale moiré structures, Phys. Rev. B 105, 125127 (2022). [PDF]

TDDFT

References

  • M. E. Casida and M. Huix-Rotllant, Progress in time-dependent density-functional theory, Annu. Rev. Phys. Chem. 63, 287 (2012). [PDF]
  • X. Li, N. Govind, C. Isborn, A. Eugene DePrince III, and K. Lopata, Real-time time-dependent electronic structure theory, Chem. Rev. 120, 9951 (2020). [PDF]
  • K. Burke and J. Kozlowski, Lies my teacher told me about density functional theory: Seeing through them with the Hubbard dimer [PDF]

GW

References

  • P. Romaniello, Hubbard dimer in GW and beyond [PDF]

Beyond DFT: GW and DMFT

References

  • K. Held, Electronic structure calculations using dynamical mean field theory, Adv. Phys. 56, 829 (2007). [PDF]

Atomistic spin dynamics and micromagnetics

References

  • C. Etz, L. Bergqvist, A. Bergman, A. Taroni, and O. Eriksson, Atomistic spin dynamics and surface magnons, J. Phys.: Condens. Matter 27, 243202 (2015). [PDF]
  • R. F. L. Evans, W. J. Fan, P. Chureemart, T. A. Ostler, M. O. A. Ellis, and R. W. Chantrell, Atomistic spin model simulations of magnetic nanomaterials, J. Phys.: Condens. Matter 26, 103202 (2014). [PDF]
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