Patrick S Salter
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Explore the profile of Patrick S Salter including associated specialties, affiliations and a list of published articles.
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Articles
28
Citations
131
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Recent Articles
1.
Watkins R, Salter P, Moors R, Jackman R
Sci Rep
. 2025 Mar;
15(1):8496.
PMID: 40074810
Diamond's superior carrier transport properties and unparalleled radiation tolerance make it an ideal material for alpha/neutron detection. High performing diamond detectors are already commercially available. However, even high quality single...
2.
Nourshargh C, Xu A, Salter P, Booth M, Elston S, Morris S
Nanophotonics
. 2024 Dec;
13(17):3091-3099.
PMID: 39634943
In this work, we demonstrate the use of two-photon polymerization direct laser writing in the production of continuously tuneable optical vortex beam (OV) generators in a liquid crystal (LC) layer...
3.
Salter P, Villar M, Lloret F, Reyes D, Krueger M, Henderson C, et al.
ACS Nano
. 2024 Jan;
18(4):2861-2871.
PMID: 38232330
Diamond, as the densest allotrope of carbon, displays a range of exemplary material properties that are attractive from a device perspective. Despite diamond displaying high carbon-carbon bond strength, ultrashort (femtosecond)...
4.
Kirkpatrick A, Chen G, Witkowska H, Brixey J, Green B, Booth M, et al.
Philos Trans A Math Phys Eng Sci
. 2023 Dec;
382(2265):20230174.
PMID: 38043580
Fabrication techniques for nitrogen-vacancy centres in diamond require the creation of Frenkel defects (vacancy-interstitial pairs) the components of which can interact with formed NV centres affecting their photophysical properties. Here...
5.
Cheng X, Wessling N, Ghosh S, Kirkpatrick A, Kappers M, Lekhai Y, et al.
ACS Photonics
. 2023 Sep;
10(9):3374-3383.
PMID: 37743941
Effective light extraction from optically active solid-state spin centers inside high-index semiconductor host crystals is an important factor in integrating these pseudo-atomic centers in wider quantum systems. Here, we report...
6.
Xu A, Nourshargh C, Salter P, He C, Elston S, Booth M, et al.
ACS Photonics
. 2023 Sep;
10(9):3401-3408.
PMID: 37743939
In this Article, we present a series of novel laser-written liquid crystal (LC) devices for aberration control for applications in beam shaping or aberration correction through adaptive optics. Each transparent...
7.
Fells J, Salter P, Welch C, Jin Y, Wilkinson T, Booth M, et al.
Opt Express
. 2022 Oct;
30(14):24788-24803.
PMID: 36237024
We present dynamic time-resolved measurements of a multi-pixel analog liquid crystal phase modulator driven at a 1 kHz frame rate. A heterodyne interferometer is used to interrogate two pixels independently...
8.
Sun B, Morozko F, Salter P, Moser S, Pong Z, Patel R, et al.
Light Sci Appl
. 2022 Jul;
11(1):214.
PMID: 35798696
Photonics integrated circuitry would benefit considerably from the ability to arbitrarily control waveguide cross-sections with high precision and low loss, in order to provide more degrees of freedom in manipulating...
9.
Wang M, Salter P, Payne F, Shipley A, Morris S, Booth M, et al.
Opt Express
. 2022 Apr;
30(9):15482-15494.
PMID: 35473267
Sapphire optical fiber has the ability to withstand ultrahigh temperatures and high radiation, but it is multimoded which prevents its use in many sensing applications. Problematically, Bragg gratings in such...
10.
Cui J, Antonello J, Kirkpatrick A, Salter P, Booth M
Opt Express
. 2022 Apr;
30(7):11809-11824.
PMID: 35473116
Phase aberrations are introduced when focusing by a high-numerical aperture (NA) objective lens into refractive-index-mismatched (RIM) media. The axial focus position in these media can be adjusted through either optical...