蚕耻补苍迟耻尘础罢碍のご利用による研究の向上をお约束します。実际に世界で400の研究グループが蚕耻补苍迟耻尘础罢碍を利用しています。
密度汎関数法(DFT) (LCAOおよび平面波基底関数系)、半経験的手法、古典的力場関数を用いる手法などの原子スケールのモデリングツールが使用できます。非平衡グリーン関数(NEGF)モジュールによるデバイスや表面のシミュレーションも可能です。
详细を见る“摆…闭 Based on our experience, there are several reasons why [QuantumATK] can be considered the best tools for electron transport simulations at the atomistic scale:
It is comparably easy to learn (due to the graphical user interface [NanoLab] ).
It is quite easy to use (again due to [NanoLab]).
It has a powerful scripting interface.
The customer support is really great. 摆…闭”
Dr. Andreas Zienert | Technische Universit?t Chemnitz
“[QuantumATK] together with [NanoLab] is an outstanding package opening the possibility to gain insights in the design and understanding of spintronic devices by including non-collinear spin options and spin-orbit interactions in the transport calculations”
Dr. Eliseo Ruiz | University of Barcelona
“摆…蚕耻补苍迟耻尘础罢碍闭 has become a must use tool for our rapid prototyping of conventional and unconventional electronic/optical transport nano-devices, and for training students and postdocs on the foundations and challenges of band structure, transmission spectra, conductance, and tunneling current/voltage properties using first-principles quantum mechanics methods. 摆…闭”
Dr. Andres Jaramillo-Botero | California Institute of Technology | 2015
蚕耻补苍迟耻尘础罢碍にご兴味のある方は、详细について、こちらのサイトから、もしくはquantumatk-japan@synopsys.com までお问い合わせください。