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Atomistix ToolKit

From Wikipedia, the free encyclopedia

QuantumATK (formerly Atomistix ToolKit or ATK) is a commercial software for atomic-scale modeling and simulation of nanosystems. The software was originally developed by Atomistix A/S, and was later acquired by QuantumWise following the Atomistix bankruptcy.[1] QuantumWise was then acquired by Synopsys in 2017.[2]

Atomistix ToolKit is a further development of TranSIESTA-C, which in turn in based on the technology, models, and algorithms developed in the academic codes TranSIESTA,[3] and McDCal,[4] employing localized basis sets as developed in SIESTA.[5]

Features

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Atomistix ToolKit combines density functional theory with non-equilibrium Green's functions for first principles electronic structure and transport calculations of

The key features are

  • Calculation of transport properties of two-probe systems under an applied bias voltage
  • Calculation of energy spectra, wave functions, electron densities, atomic forces, effective potentials etc.
  • Calculation of spin-polarized physical properties
  • Geometry optimization
  • A Python-based NanoLanguage scripting environment

See also

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References

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  1. ^ "QuantumATK Atomic-Scale Modeling for Semiconductor & Materials".
  2. ^ "Synopsys Strengthens Design-Technology Co-Optimization Solution with Acquisition of QuantumWise".
  3. ^ Brandbyge, Mads; Mozos, José-Luis; Ordejón, Pablo; Taylor, Jeremy; Stokbro, Kurt (2002). "Density-functional method for nonequilibrium electron transport". Physical Review B. 65 (16): 165401. arXiv:cond-mat/0110650. Bibcode:2002PhRvB..65p5401B. doi:10.1103/PhysRevB.65.165401. S2CID 44943573.
  4. ^ Taylor, Jeremy; Guo, Hong; Wang, Jian (2001). "Ab initiomodeling of quantum transport properties of molecular electronic devices". Physical Review B. 63 (24): 245407. Bibcode:2001PhRvB..63x5407T. doi:10.1103/PhysRevB.63.245407. hdl:10722/43343.
  5. ^ Soler, José M.; Artacho, Emilio; Gale, Julian D.; García, Alberto; Junquera, Javier; Ordejón, Pablo; Sánchez-Portal, Daniel (2002). "The SIESTA method forab initioorder-Nmaterials simulation". Journal of Physics: Condensed Matter. 14 (11): 2745–2779. arXiv:cond-mat/0104182. Bibcode:2002JPCM...14.2745S. doi:10.1088/0953-8984/14/11/302. S2CID 250812001.
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