Internal electronic structure of adatoms on Fe(110) and Fe(100) surfaces: A low-energy<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:msup><mml:mrow><mml:mi mathvariant="normal">Li</mml:mi></mml:mrow><mml:mrow><mml:mo>+</mml:mo></mml:mrow></mml:msup></mml:mrow></mml:math>scattering study

Yang, Yaqi; Šroubek, Z.; Yarmoff, J. A.

doi:10.1103/physrevb.69.045420

Cited by 16 publications

(8 citation statements)

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“…In earlier ion scattering work with I and Br adsorbates, our group provided experimental evidence to support this conclusion for halogens [7,8]. Alkali-metal ions were scattered from the adatom sites, and the change in the NF was consistent with the outward pointing dipole (no.…”

mentioning

confidence: 79%

“…Internal polarization, which had earlier been experimentally demonstrated for larger and more easily polarizable halogen adatoms [7,8], results from the interaction of the negative charge in the adatom with its image in the metal.…”

mentioning

confidence: 88%

“…It was observed, however, that the magnitude of the effect is independent of the size of the halogen, as it is almost same for I and Br, and it is also independent of whether the halogen is adsorbed on a metal [7,8] or semiconductor surface [17]. In addition, the system studied by Wu and Klepeis [6] was Cl adsorbed on Ta, which shows a strong polarization with the relatively smaller Cl adatom.…”

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confidence: 94%

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Internal Polarization of Oxygen Adatoms on Polycrystalline Ta Investigated by Na-Ion Scattering

2007

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The neutralization of scattered low-energy alkali-metal ions is used to investigate the internal polarization of oxygen adatoms on a Ta surface. The neutral fraction of 3 keV Na scattered from Ta is 50% from the clean surface and 15% in the presence of oxygen, while the work function is unchanged. These observations can be reconciled if the adatoms were internally polarized, leading to multiple dipoles that each contribute to the work function.

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confidence: 79%

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confidence: 88%

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confidence: 94%

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Internal Polarization of Oxygen Adatoms on Polycrystalline Ta Investigated by Na-Ion Scattering

2007

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“…Neutralization in large-angle alkali ion scattering is sensitive to the inhomogeneous LEP associated with electropositive and electronegative adsorbates on metal surfaces [13,[18][19][20][21][22][23][24][25][26][27][28][29], and should therefore also be useful in probing an inhomogeneous metal oxide surface [30]. Previous experiments investigating charge exchange between low energy projectiles and metal oxide surfaces [16,17] were performed in a small scattering angle configuration (67°), which does not allow for separation of scattering from different sites.…”

Section: Introductionmentioning

confidence: 99%

Charge exchange between low energy alkali ions and cerium oxide surfaces

Liu

Yarmoff

2006

Surface Science

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“…The collision of low energy alkali ions with alkali and halogen covered metal surfaces has been studied by several groups [13][14][15][16][17][18][19]. A conclusive remark from these works can be found in the phrase of Gauyacq et al [19]: "Because of the importance of local effects, the resonant charge transfer process appears to be a rather sensitive probe of the local electronic properties of an adsorbate-substrate system.…”

Section: Introductionmentioning

confidence: 99%

Hydrogen ion scattering from a potassium impurity adsorbed on graphene

et al. 2019

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In this work we study the charge exchange process in the scattering of protons by potassium atoms adsorbed on a graphene surface in a low coverage limit. Both, the projected density of states on the alkaline atom site and the final charge states of the hydrogen projectile are calculated by considering the electronic Coulomb repulsion in the s-valence orbital. The inner 3p and 3s states of potassium are included and the local perturbations of the density matrix on the surrounding C atoms are also considered. The interacting systems are described by an Anderson Hamiltonian whose terms are calculated from the chemical properties of the atoms and the extended features of the graphene surface. The positive and negative ion fractions of hydrogen in the collision process are obtained from Keldysh-Green functions, which are calculated by employing the equation of motion method closed up to a second order in the atom-surface coupling term. It is found that the carbon atoms have no possibility of a direct charge exchange process in a frontal collision of the proton with the K adatom, and that the K-3p band, broadened by the interaction with the graphene surface, provides an important source of electrons for the negative ionization of hydrogen, which is also promoted by the presence of a K-3s core state. The narrow 4s and 3p bands of the adsorbed potassium lead to an oscillatory dependence with the projectile incoming energy, of the probability for the three correlated charge states of hydrogen.

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Internal electronic structure of adatoms on Fe(110) and Fe(100) surfaces: A low-energyLi+scattering study

Cited by 16 publications

References 44 publications

Internal Polarization of Oxygen Adatoms on Polycrystalline Ta Investigated by Na-Ion Scattering

Internal Polarization of Oxygen Adatoms on Polycrystalline Ta Investigated by Na-Ion Scattering

Charge exchange between low energy alkali ions and cerium oxide surfaces

Hydrogen ion scattering from a potassium impurity adsorbed on graphene

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