Diffusion quantum Monte Carlo and GW study of the electronic properties of monolayer and bulk hexagonal boron nitride

Hunt R. J.; Monserrat B.; Zolyomi V; Drummond N. D.

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Diffusion quantum Monte Carlo and GW study of the electronic properties of monolayer and bulk hexagonal boron nitride

机译：扩散量子蒙特卡洛和众所周境的电子性质的GW研究 - 散氮氮化物的电子特性

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We report diffusion quantum Monte Carlo (DMC) and many-body GW calculations of the electronic band gaps of monolayer and bulk hexagonal boron nitride (hBN). We find the monolayer band gap to be indirect. GW predicts much smaller quasiparticle gaps at both the single-shot G(0)W(0) and the partially self-consistent GW(0) levels. In contrast, solving the Bethe-Salpeter equation on top of the GW(0) calculation yields an exciton binding energy for the direct exciton at the K point in close agreement with the DMC value. Vibrational renormalization of the electronic band gap is found to be significant in both the monolayer and the bulk Taking vibrational effects into account, DMC overestimates the band gap of bulk hBN, while GW theory underestimates it.

机译：我们报告了单层和块状六边形氮化物（HBN）的电子带间隙的扩散量子蒙特卡罗（DMC）和许多身体GW计算。我们发现单层带隙是间接的。 GW在单次G（0）W（0）和部分自我一致的GW（0）水平中预测了大量较小的Quasiparticle间隙。相反，求解GW（0）计算顶部的贝特 - Salpeter方程，在与DMC值密切一致的K点处的直接激子产生激子结合能。在单层和散装中发现电子频带隙的振动重整化在单层和散装中都有显着，DMC高估了散装HBN的带隙，而GW理论低估了它。

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《Physical review, B》 |2020年第20期|共14页
作者
Hunt R. J.; Monserrat B.; Zolyomi V; Drummond N. D.;
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Univ Lancaster Dept Phys Lancaster LA1 4YB England;

Univ Cambridge Cavendish Lab JJ Thomson Ave Cambridge CB3 0HE England;

Hartree Ctr STFC Daresbury Lab Daresbury WA4 4AD England;

Univ Lancaster Dept Phys Lancaster LA1 4YB England;

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中图分类固体物理学;
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1. Diffusion quantum Monte Carlo and GW study of the electronic properties of monolayer and bulk hexagonal boron nitride [J] . R. J. Hunt, B. Monserrat, V. Zolyomi, Physical review . 2020,第20期

机译：扩散量子蒙特卡洛和众所周境的电子性质的GW研究 - 散氮氮化物的电子特性
2. Theoretical investigation of the electronic and optical properties of gallium-doped hexagonal boron nitride through Monte Carlo and ab initio calculations [J] . Brito E., Leite L., Azevedo S., Physica, E. Low-dimensional systems & nanostructures . 2019,第期

机译：通过蒙特卡罗和AB初始计算镓掺杂六边形氮化硼电子和光学性质的理论研究
3. Communication: Water on hexagonal boron nitride from diffusion Monte Carlo [J] . Al-Hamdani Yasmine S., Ma Ming, Alfe Dario, The Journal of Chemical Physics . 2015,第18期

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4. Tuning Electronic and Structural Properties of Triple Layers of Intercalated Graphene and Hexagonal Boron Nitride: An Ab-initio Study [C] . Samir S. Coutinho, David L. Azevedo, Douglas S. Galvao MRS fall meeting . 2012

机译：调节插层石墨烯和六方氮化硼三层的电子和结构性质：从头算研究
5. Diffusion Monte Carlo study of electronic properties for hydrogen and beryllium atoms. [D] . Li, Yu. 2006

机译：蒙特卡罗扩散研究氢和铍原子的电子性质。
6. Co-Solvent Exfoliation of Hexagonal Boron Nitride: Effect of Raw Bulk Boron Nitride Size and Co-Solvent Composition [O] . Xiang Nie, Guo Li, Zhao Jiang, 2020

机译：六方氮化硼的共溶剂剥落：原始散装氮化硼尺寸和共溶剂组成的影响
7. Diffusion quantum Monte Carlo and GW study of the electronic properties of monolayer and bulk hexagonal boron nitride [O] . R. J. Hunt, B. Monserrat, V. Zólyomi, 2020

机译：扩散量子蒙特卡洛和众所周境的电子性质的GW研究 - 散氮氮化物的电子特性

Diffusion quantum Monte Carlo and GW study of the electronic properties of monolayer and bulk hexagonal boron nitride

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