Nanoscale surface domain formation on the +z face of lithium niobate by pulsed ultraviolet laser illumination

C. E. Valdivia; C. L. Sones; J. G. Scott; S. Mailis; R. W. Eason; D. A. Scrymgeour; V. Gopalan; T. Jungk; E. Soergel; I. Clark

doi:10.1063/1.1849414

Nanoscale surface domain formation on the +z face of lithium niobate by pulsed ultraviolet laser illumination

C. E. Valdivia, C. L. Sones, J. G. Scott, S. Mailis, R. W. Eason, D. A. Scrymgeour, V. Gopalan, T. Jungk, E. Soergel, I. Clark

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58 Scopus citations

Abstract

Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pulsed ultraviolet laser wavelengths below (248 nm) and around (298-329 nm) the absorption edge. Following exposure, etching with hydrofluoric acid reveals highly regular precise domain-like features of widths ~150-300 nm, exhibiting distinct three-fold symmetry. Examination of illuminated unetched areas by scanning force microscopy shows a corresponding contrast in piezoelectric response. These observations indicate the formation of nanoscale ferroelectric surface domains, whose depth has been measured via focused ion beam milling to be ~2 μm. We envisage this direct optical poling technique as a viable route to precision domain-engineered structures for waveguide and other surface applications.

Original language	English (US)
Article number	022906
Pages (from-to)	022906-1-022906-3
Journal	Applied Physics Letters
Volume	86
Issue number	2
DOIs	https://doi.org/10.1063/1.1849414
State	Published - Jan 10 2005

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.1849414

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@article{5454419e78364329b5c665a2c14e6ead,

title = "Nanoscale surface domain formation on the +z face of lithium niobate by pulsed ultraviolet laser illumination",

abstract = "Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pulsed ultraviolet laser wavelengths below (248 nm) and around (298-329 nm) the absorption edge. Following exposure, etching with hydrofluoric acid reveals highly regular precise domain-like features of widths ~150-300 nm, exhibiting distinct three-fold symmetry. Examination of illuminated unetched areas by scanning force microscopy shows a corresponding contrast in piezoelectric response. These observations indicate the formation of nanoscale ferroelectric surface domains, whose depth has been measured via focused ion beam milling to be ~2 μm. We envisage this direct optical poling technique as a viable route to precision domain-engineered structures for waveguide and other surface applications.",

author = "Valdivia, {C. E.} and Sones, {C. L.} and Scott, {J. G.} and S. Mailis and Eason, {R. W.} and Scrymgeour, {D. A.} and V. Gopalan and T. Jungk and E. Soergel and I. Clark",

note = "Funding Information: The authors are grateful to the Engineering and Physical Sciences Research Council (EPSRC) for research funding via Grant No. GR/S47373, and to INTAS for funding via Reference No. 03-51-6562. Financial support of the Deutsche Forschungsgemeinschaft is also gratefully acknowledged. Thanks also go to James Gates at the ORC, and to Lloyd Peto and Chengge Jiao from FEI, Bristol, UK, for FIB machining.",

year = "2005",

month = jan,

day = "10",

doi = "10.1063/1.1849414",

language = "English (US)",

volume = "86",

pages = "022906--1--022906--3",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

number = "2",

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TY - JOUR

T1 - Nanoscale surface domain formation on the +z face of lithium niobate by pulsed ultraviolet laser illumination

AU - Valdivia, C. E.

AU - Sones, C. L.

AU - Scott, J. G.

AU - Mailis, S.

AU - Eason, R. W.

AU - Scrymgeour, D. A.

AU - Gopalan, V.

AU - Jungk, T.

AU - Soergel, E.

AU - Clark, I.

N1 - Funding Information: The authors are grateful to the Engineering and Physical Sciences Research Council (EPSRC) for research funding via Grant No. GR/S47373, and to INTAS for funding via Reference No. 03-51-6562. Financial support of the Deutsche Forschungsgemeinschaft is also gratefully acknowledged. Thanks also go to James Gates at the ORC, and to Lloyd Peto and Chengge Jiao from FEI, Bristol, UK, for FIB machining.

PY - 2005/1/10

Y1 - 2005/1/10

N2 - Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pulsed ultraviolet laser wavelengths below (248 nm) and around (298-329 nm) the absorption edge. Following exposure, etching with hydrofluoric acid reveals highly regular precise domain-like features of widths ~150-300 nm, exhibiting distinct three-fold symmetry. Examination of illuminated unetched areas by scanning force microscopy shows a corresponding contrast in piezoelectric response. These observations indicate the formation of nanoscale ferroelectric surface domains, whose depth has been measured via focused ion beam milling to be ~2 μm. We envisage this direct optical poling technique as a viable route to precision domain-engineered structures for waveguide and other surface applications.

AB - Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pulsed ultraviolet laser wavelengths below (248 nm) and around (298-329 nm) the absorption edge. Following exposure, etching with hydrofluoric acid reveals highly regular precise domain-like features of widths ~150-300 nm, exhibiting distinct three-fold symmetry. Examination of illuminated unetched areas by scanning force microscopy shows a corresponding contrast in piezoelectric response. These observations indicate the formation of nanoscale ferroelectric surface domains, whose depth has been measured via focused ion beam milling to be ~2 μm. We envisage this direct optical poling technique as a viable route to precision domain-engineered structures for waveguide and other surface applications.

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JF - Applied Physics Letters

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Nanoscale surface domain formation on the +z face of lithium niobate by pulsed ultraviolet laser illumination

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