James Doyle
Trinity College, Dublin
30 Papers
566 Citations
James Doyle is an academic researcher from Trinity College, Dublin. The author has contributed to research in topics: Phthalocyanine & Nonlinear optics. The author has an hindex of 17, co-authored 30 publications. Previous affiliations of James Doyle include East China University of Science and Technology & European Synchrotron Radiation Facility.
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Papers
Prostate cancer: MR imaging and thermometry during microwave thermal ablation-initial experience.
Jianan Chen,J. A. Moriarty,Derbyshire Ja,R. D. Peters,John Trachtenberg,Bell Sd,James Doyle,Arrelano R,Graham A. Wright,R. M. Henkelman,R S Hinks,Lok Sy,Toi A,W Kucharczyk +13 more
TL;DR: Percutaneous interstitial microwave thermoablation of locally recurrent prostate carcinoma was continually guided with magnetic resonance (MR) imaging to derive tissue temperature change on the basis of proton-resonance shift.
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Patent
Alignment of hip joint sockets in hip joint replacement
Malcolm Hugh Farmer,James Doyle,Anthony Conal Hooper,Patrick O'mahony +3 more
- 14 Sep 1989
TL;DR: An apparatus for aligning an acetabular cup for proper placement in a socket in hip joint replacement includes a frame having feet having feet which are placed against and fastened to the anterior superior iliac spines and the pubic tubercles respectively of the pelvis as discussed by the authors.
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Nonlinear optical performance of chemically tailored phthalocyanine–polymer films as solid-state optical limiting devices
James Doyle,Jun Wang,Sean M. O'Flaherty,Yu Chen,Aneta Slodek,T Hegarty,Les E Carpenter,Les E Carpenter,Dieter Wöhrle,Michael Hanack,Werner J. Blau +10 more
TL;DR: In this article, a simple method of sequentially deposited spin cast phthalocyanine doped polymer films was used to characterize the resulting NLO response by means of the Z-scan technique with 6?ns pulses at 532?nm.
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A2B2-type push-pull porphyrins as reverse saturable and saturable absorbers.
TL;DR: A(2)B(2)-type push-pull porphyrins with a strong intramolecular dipole moment have been prepared via Heck and Suzuki coupling reactions as novel materials for use in nonlinear optics (NLO), and they display saturable and reverse saturable absorption properties.
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Optical limiting properties of axially substituted indium phthalocyanines in the solid PMMA composite films
TL;DR: In this paper, axially substituted indium phthalocyanines in solutions and in the solid poly(methylmethacrylate) (PMMA) composite films were investigated for the protection of sensitive optical equipment.
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