P
Philip St. J. Russell
Researcher at Max Planck Society
Publications - 356
Citations - 17633
Philip St. J. Russell is an academic researcher from Max Planck Society. The author has contributed to research in topics: Photonic-crystal fiber & Photonic crystal. The author has an hindex of 47, co-authored 356 publications receiving 16560 citations. Previous affiliations of Philip St. J. Russell include University of Southampton & University of Erlangen-Nuremberg.
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Dispersion of photonic Bloch modes in periodically twisted birefringent media
TL;DR: In this paper, the authors investigate the polarization evolution and dispersive properties of the eigenmodes of birefringent media with arbitrarily twisted axes of birrringence, and show that the maximum separation between these curves and the bandwidth of splitting depend on the amplitude of the rocking angle.
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Photonic sensing based on variation of propagation properties of photonic crystal fibres
John H. Rothwell,Donal A. Flavin,William N. MacPherson,Julian D. C. Jones,Jonathan Knight,Philip St. J. Russell +5 more
TL;DR: Based on the measurements, this work proposes two schemes for simultaneous strain and temperature measurement using a single unmodified PCF element, without a requirement for any compensating components, and project the measurement accuracies of these schemes.
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Broadband, Lensless and Optomechanically Stabilised Coupling into Microfluidic Hollow-Core Photonic Crystal Fiber Using Glass Nanospike
TL;DR: In this article, a novel technique for launching broadband laser light into liquid-filled hollow-core photonic crystal fiber (HC-PCF) is reported, which offers self-alignment and self-stabilization via optomechanical trapping of a fused silica nanospike, fabricated by thermally tapering and chemically etching a single mode fiber into a tip diameter of 350 nm.
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Optomechanical cooling of a glass-fibre nanospike evanescently coupled to a whispering-gallery-mode bottle resonator
TL;DR: In this paper, an 8 mm long glass-fibre nanospike is dissipatively coupled to a high-Q whisperinggallery-mode (WGM) bottle resonator.
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Real-time Doppler-assisted tomography of microstructured fibers by side-scattering.
TL;DR: DAT can image sub-wavelength features and monitor the structure along a tapered fiber, which is not possible using other techniques without cutting up the taper into several short pieces or filling it with index-matching oil.