2019
DOI: 10.1016/j.commatsci.2019.01.004
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Pushing the frontiers of modeling excited electronic states and dynamics to accelerate materials engineering and design

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Cited by 27 publications
(18 citation statements)
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“…GW began to flourish at the beginning of the 21st century and two reviews succinctly summarized the state of the field until then (Aulbur et al, 2000; Onida et al, 2002). Our review bridges the ensuing gap of almost 20 years, after which only several more specialized reviews addressed different aspects and applications of GW calculations (Rinke et al, 2008a; Giantomassi et al, 2011; Ping et al, 2013; Bruneval and Gatti, 2014; Faber et al, 2014; Marom, 2017; Gerosa et al, 2018a; Kang et al, 2019), and complements a recent review (Reining, 2017).…”
Section: Introductionmentioning
confidence: 63%
“…GW began to flourish at the beginning of the 21st century and two reviews succinctly summarized the state of the field until then (Aulbur et al, 2000; Onida et al, 2002). Our review bridges the ensuing gap of almost 20 years, after which only several more specialized reviews addressed different aspects and applications of GW calculations (Rinke et al, 2008a; Giantomassi et al, 2011; Ping et al, 2013; Bruneval and Gatti, 2014; Faber et al, 2014; Marom, 2017; Gerosa et al, 2018a; Kang et al, 2019), and complements a recent review (Reining, 2017).…”
Section: Introductionmentioning
confidence: 63%
“…( 1), for the electronic system because of its exceptional numerical accuracy for simulations of extended systems over thousands of time steps. 13,56 In the beginning of the timedependent simulation, each projectile ion starts 25 a 0 away from the graphene layer; it approaches and traverses the graphene at a constant velocity along a normal trajectory (see inset of Fig. 3).…”
Section: A Time-dependent Density Functional Theorymentioning
confidence: 99%
“…The initially ground-state graphene contained 112 carbon atoms, electron-ion interactions were described by HSCV pseudopotentials [45], exchange and correlation was treated with the adiabatic local density approximation [46,47], and the large supercells allowed Brillouin zone sampling of the Γ-point only. A 100 Ry planewave cutoff energy and a 150 a 0 vacuum were previously found to achieve good convergence for electron emission in this system [37], and a time step of 1.0 as with the enforced time-reversal symmetry integrator [48,49] was previously shown to evolve similar systems accurately [33,50]. All TDDFT calculations were performed using the Qbox/Qb@ll code [49,51].…”
Section: Methodsmentioning
confidence: 99%