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Investigating the stable ductile grinding regime for optical processing using a dicing saw

Investigating the stable ductile grinding regime for optical processing using a dicing saw
Investigating the stable ductile grinding regime for optical processing using a dicing saw
Ductile grinding on a dicing saw is a viable technique for producing optical waveguides and facets in brittle materials, particularly commercially produced lithium niobate waveguides. However, to date, the literature has focused on empirically defined parameters with little investigation of the grinding dynamics. In this study, we first review the formation of lithium niobate waveguides using a dicing saw to determine what parameters the community is employing. We then perform a series of grinding experiments to explore key process parameters, e.g., cut depth and feed rate, in optical quality grinding of lithium niobate. This work is the first large-distance grinding investigation in this important material. Our literature review shows that the optical dicing community normally finds that optical quality is easy to achieve in ductile mode, though the dynamics of this process are not well defined. However, our work shows that processing speed is limited by the blade wear rate prior to a significant roughness increase. We propose a blade wear-rate transition within the ductile regime, which can be approached by cut depth or feed-rate adjustment. Finding the blade wear-rate transition point provides optimal parameters to maximise throughput with minimal blade wear for the highest manufacturing efficiency.
2159-3930
3172-3182
Keen, Joel M.N.
8303157c-da0d-451d-8d97-a93b483d0283
D'Souza, Matthew P.
9e6e1f39-1d57-4848-b4ac-5aafd7ff10df
Gow, Paul C.
193394b1-fe2d-41de-a9aa-6de7e5925b18
Churchill, Glenn
5933a331-fba3-444b-8352-273112c3d6a6
Gawith, Corin B.E.
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
Gates, James C.
b71e31a1-8caa-477e-8556-b64f6cae0dc2
Keen, Joel M.N.
8303157c-da0d-451d-8d97-a93b483d0283
D'Souza, Matthew P.
9e6e1f39-1d57-4848-b4ac-5aafd7ff10df
Gow, Paul C.
193394b1-fe2d-41de-a9aa-6de7e5925b18
Churchill, Glenn
5933a331-fba3-444b-8352-273112c3d6a6
Gawith, Corin B.E.
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
Gates, James C.
b71e31a1-8caa-477e-8556-b64f6cae0dc2

Keen, Joel M.N., D'Souza, Matthew P., Gow, Paul C., Churchill, Glenn, Gawith, Corin B.E. and Gates, James C. (2025) Investigating the stable ductile grinding regime for optical processing using a dicing saw. Optical Materials Express, 15 (12), 3172-3182. (doi:10.1364/OME.574264).

Record type: Article

Abstract

Ductile grinding on a dicing saw is a viable technique for producing optical waveguides and facets in brittle materials, particularly commercially produced lithium niobate waveguides. However, to date, the literature has focused on empirically defined parameters with little investigation of the grinding dynamics. In this study, we first review the formation of lithium niobate waveguides using a dicing saw to determine what parameters the community is employing. We then perform a series of grinding experiments to explore key process parameters, e.g., cut depth and feed rate, in optical quality grinding of lithium niobate. This work is the first large-distance grinding investigation in this important material. Our literature review shows that the optical dicing community normally finds that optical quality is easy to achieve in ductile mode, though the dynamics of this process are not well defined. However, our work shows that processing speed is limited by the blade wear rate prior to a significant roughness increase. We propose a blade wear-rate transition within the ductile regime, which can be approached by cut depth or feed-rate adjustment. Finding the blade wear-rate transition point provides optimal parameters to maximise throughput with minimal blade wear for the highest manufacturing efficiency.

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Submitted date: 13 August 2025
Accepted/In Press date: 5 November 2025
e-pub ahead of print date: 14 November 2025
Published date: 1 December 2025

Identifiers

Local EPrints ID: 507198
URI: http://eprints.soton.ac.uk/id/eprint/507198
DOI: doi:10.1364/OME.574264
ISSN: 2159-3930
PURE UUID: b28b8db4-89c3-4025-b8d4-5a5b54f2aa1d
ORCID for Joel M.N. Keen: ORCID iD orcid.org/0009-0002-2350-4044
ORCID for Matthew P. D'Souza: ORCID iD orcid.org/0000-0002-0165-3244
ORCID for Paul C. Gow: ORCID iD orcid.org/0000-0002-3247-9082
ORCID for Glenn Churchill: ORCID iD orcid.org/0000-0001-7621-7618
ORCID for Corin B.E. Gawith: ORCID iD orcid.org/0000-0002-3502-3558
ORCID for James C. Gates: ORCID iD orcid.org/0000-0001-8671-5987

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Date deposited: 01 Dec 2025 17:34
Last modified: 02 Dec 2025 03:11

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Contributors

Author: Joel M.N. Keen ORCID iD
Author: Matthew P. D'Souza ORCID iD
Author: Paul C. Gow ORCID iD
Author: Glenn Churchill ORCID iD
Author: Corin B.E. Gawith ORCID iD
Author: James C. Gates ORCID iD

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