Lineshapes in quasi-elastic scattering from species hopping between non-equivalent surface sites

Fay E. Tuddenham; Holly Hedgeland; Andrew P. Jardine; Barbara A.J. Lechner; B. J. Hinch; William Allison

doi:10.1016/j.susc.2010.05.009

Lineshapes in quasi-elastic scattering from species hopping between non-equivalent surface sites

Fay E. Tuddenham, Holly Hedgeland, Andrew P. Jardine, Barbara A.J. Lechner, B. J. Hinch, William Allison

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

We present an analytic model applied to quasi-elastic scattering from an adsorbed surface species undergoing jump diffusion between adsorption sites described by a Bravais lattice combined with a basis of multiple points. The model allows for hops between adsorption sites which are both symmetrically and energetically inequivalent. We give results for 1-D hopping, which are applicable to a species jumping between the top and bridge sites along the [11{combining overline}0] direction on an fcc-(110) surface or for jumps along a step edge. In 2-D, results for hopping between fcc and hcp hollow sites and between the bridge sites of an fcc-(111) surface are presented. These examples give characteristic signatures which will allow these forms of motion to be recognized in experimental data and will enable the underlying physical parameters to be extracted by comparison with the analytical forms derived here.

Original language	English
Pages (from-to)	1459-1475
Number of pages	17
Journal	Surface Science
Volume	604
Issue number	17-18
DOIs	https://doi.org/10.1016/j.susc.2010.05.009
State	Published - 30 Aug 2010
Externally published	Yes

Keywords

Atom-solid interaction scattering diffraction
Atom-solid scattering and diffraction - elastic
Atom-solid scattering and diffraction - inelastic
Neutron scattering
Single crystal surfaces-high index single crystal surfaces
Single crystal surfaces-low index single crystal surfaces
Stepped single crystal surfaces
Surface diffusion

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title = "Lineshapes in quasi-elastic scattering from species hopping between non-equivalent surface sites",

abstract = "We present an analytic model applied to quasi-elastic scattering from an adsorbed surface species undergoing jump diffusion between adsorption sites described by a Bravais lattice combined with a basis of multiple points. The model allows for hops between adsorption sites which are both symmetrically and energetically inequivalent. We give results for 1-D hopping, which are applicable to a species jumping between the top and bridge sites along the [11{combining overline}0] direction on an fcc-(110) surface or for jumps along a step edge. In 2-D, results for hopping between fcc and hcp hollow sites and between the bridge sites of an fcc-(111) surface are presented. These examples give characteristic signatures which will allow these forms of motion to be recognized in experimental data and will enable the underlying physical parameters to be extracted by comparison with the analytical forms derived here.",

keywords = "Atom-solid interaction scattering diffraction, Atom-solid scattering and diffraction - elastic, Atom-solid scattering and diffraction - inelastic, Neutron scattering, Single crystal surfaces-high index single crystal surfaces, Single crystal surfaces-low index single crystal surfaces, Stepped single crystal surfaces, Surface diffusion",

author = "Tuddenham, {Fay E.} and Holly Hedgeland and Jardine, {Andrew P.} and Lechner, {Barbara A.J.} and Hinch, {B. J.} and William Allison",

note = "Funding Information: We are grateful for useful discussions with J. Ellis and G. Alexandrowicz during the early stages of this work. For financial support, we gratefully acknowledge the EPSRC , the Schiff Foundation , the Royal Society and the NSF . ",

year = "2010",

month = aug,

day = "30",

doi = "10.1016/j.susc.2010.05.009",

language = "English",

volume = "604",

pages = "1459--1475",

journal = "Surface Science",

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publisher = "Elsevier B.V.",

number = "17-18",

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TY - JOUR

T1 - Lineshapes in quasi-elastic scattering from species hopping between non-equivalent surface sites

AU - Tuddenham, Fay E.

AU - Hedgeland, Holly

AU - Jardine, Andrew P.

AU - Lechner, Barbara A.J.

AU - Hinch, B. J.

AU - Allison, William

N1 - Funding Information: We are grateful for useful discussions with J. Ellis and G. Alexandrowicz during the early stages of this work. For financial support, we gratefully acknowledge the EPSRC , the Schiff Foundation , the Royal Society and the NSF .

PY - 2010/8/30

Y1 - 2010/8/30

N2 - We present an analytic model applied to quasi-elastic scattering from an adsorbed surface species undergoing jump diffusion between adsorption sites described by a Bravais lattice combined with a basis of multiple points. The model allows for hops between adsorption sites which are both symmetrically and energetically inequivalent. We give results for 1-D hopping, which are applicable to a species jumping between the top and bridge sites along the [11{combining overline}0] direction on an fcc-(110) surface or for jumps along a step edge. In 2-D, results for hopping between fcc and hcp hollow sites and between the bridge sites of an fcc-(111) surface are presented. These examples give characteristic signatures which will allow these forms of motion to be recognized in experimental data and will enable the underlying physical parameters to be extracted by comparison with the analytical forms derived here.

AB - We present an analytic model applied to quasi-elastic scattering from an adsorbed surface species undergoing jump diffusion between adsorption sites described by a Bravais lattice combined with a basis of multiple points. The model allows for hops between adsorption sites which are both symmetrically and energetically inequivalent. We give results for 1-D hopping, which are applicable to a species jumping between the top and bridge sites along the [11{combining overline}0] direction on an fcc-(110) surface or for jumps along a step edge. In 2-D, results for hopping between fcc and hcp hollow sites and between the bridge sites of an fcc-(111) surface are presented. These examples give characteristic signatures which will allow these forms of motion to be recognized in experimental data and will enable the underlying physical parameters to be extracted by comparison with the analytical forms derived here.

KW - Atom-solid interaction scattering diffraction

KW - Atom-solid scattering and diffraction - elastic

KW - Atom-solid scattering and diffraction - inelastic

KW - Neutron scattering

KW - Single crystal surfaces-high index single crystal surfaces

KW - Single crystal surfaces-low index single crystal surfaces

KW - Stepped single crystal surfaces

KW - Surface diffusion

UR - http://www.scopus.com/inward/record.url?scp=77953871310&partnerID=8YFLogxK

U2 - 10.1016/j.susc.2010.05.009

DO - 10.1016/j.susc.2010.05.009

M3 - Article

AN - SCOPUS:77953871310

SN - 0039-6028

VL - 604

SP - 1459

EP - 1475

JO - Surface Science

JF - Surface Science

IS - 17-18

ER -

Lineshapes in quasi-elastic scattering from species hopping between non-equivalent surface sites

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