1,272 research outputs found

    The end of the Marian Restoration and the early ElizabethanReformation in Canterbury. C.1557-1565

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    The Reformation was perhaps one of the most important socio-religious changes to occur in history. The effect it had on European culture, society and faith cannot be understated and yet, owing to the scope of Reformation sources and the relatively young trend of revisionism concerning the received truths about the period, comparatively little work has been conducted which centres around Canterbury alone, though many works incorporate references to the city into larger volumes. This thesis will explore the issues around the Reformation in Canterbury, the structure of the church and the conformability of its clergy. Furthermore, the works of key Protestant authors that comprise a group known as the ‘Marian exiles’ will be examined to give an impression of the attitude towards Catholicism, and therefore the Reformation at large, on the part of the more puritanical Protestants. Along with an analysis of Queen Elizabeth’s historic compromise, the Elizabethan Settlement that attempted to wed a Catholic hierarchical structure with a Protestant liturgical service, this thesis will also touch on the life of the first post-restoration holder of the archbishopric of Canterbury, Matthew Parker. Finally, this thesis will attempt to assess the impact of the Reformation upon Canterbury’s laity, both in terms of how the poorer strata of society accepted it, and the upper echelons of Canterbury society were divided. It is hoped that the analysis of this ‘local Reformation’ will contribute to the existing wealth of material about the movement as a whole

    Moir\'e super-lattice structures in kicked Bose-Einstein condensates

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    Vortex lattices in rapidly rotating Bose-Einstein condensates lead to a periodic modulation of the superfluid density with a triangular symmetry. Here we show that this symmetry can be combined with an external perturbation in order to create super-lattice structures with two or more periodicities. Considering a condensate which is kicked by an optical lattice potential, we find the appearance of transient moir\'e lattice structures, which can be identified using the kinetic energy spectrum.Comment: 7 pages, 8 figure

    A singularly perturbed convection–diffusion problem with a moving pulse

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    A singularly perturbed parabolic equation of convection–diffusion type is examined. Initially the solution approximates a concentrated source. This causes an interior layer to form within the domain for all future times. Using a suitable transformation, a layer adapted mesh is constructed to track the movement of the centre of the interior layer. A parameter-uniform numerical method is then defined, by combining the backward Euler method and a simple upwinded finite difference operator with this layer-adapted mesh. Numerical results are presented to illustrate the theoretical error bounds established

    Triple-wavelength fiber ring laser based on a hybrid gain medium actively mode-locked at 10 GHz

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    A fiber ring laser based on a hybrid gain medium that produces three simultaneously mode-locked wavelength channels is presented. The lithium niobate based modulator used to actively mode-lock the laser cavity at 10 GHz is birefringence compensated to reduce its polarization sensitivity. A Lyot filter defines the lasers multiwavelength spectrum which has a wavelength spacing of 1 nm. The polarization sensitive nature of the laser cavity and its affect on the performance of the laser is discussed

    The prevalence of occult hepatitis B virus (hbv) infection in a large multi-ethnic haemodialysis cohort.

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    Haemodialysis patients are at increased risk of exposure to blood borne viruses. To reduce transmission in the UK, all haemodialysis patients are regularly screened, and if susceptible to Hepatitis B virus (HBV) infection, vaccinated

    Biodigital publics: personal genomes as digital media artifacts

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    The recent proliferation of personal genomics and direct-to-consumer (DTC) genomics has attracted much attention and publicity. Concern around these developments has mainly focused on issues of biomedical regulation and hinged on questions of how people understand genomic information as biomedical and what meaning they make of it. However, this publicity amplifies genome sequences which are also made as internet texts and, as such, they generate new reading publics. The practices around the generation, circulation and reading of genome scans do not just raise questions about biomedical regulation, they also provide the focus for an exploration of how contemporary public participation in genomics works. These issues around the public features of DTC genomic testing can be pursued through a close examination of the modes of one of the best known providers—23andMe. In fact, genome sequences circulate as digital artefacts and, hence, people are addressed by them. They are read as texts, annotated and written about in browsers, blogs and wikis. This activity also yields content for media coverage which addresses an indefinite public in line with Michael Warner’s conceptualisation of publics. Digital genomic texts promise empowerment, personalisation and community, but this promise may obscure the compliance and proscription associated with these forms. The kinds of interaction here can be compared to those analysed by Andrew Barry. Direct-to-consumer genetics companies are part of a network providing an infrastructure for genomic reading publics and this network can be mapped and examined to demonstrate the ways in which this formation both exacerbates inequalities and offers possibilities for participation in biodigital culture

    Electroanalysis at discrete arrays of gold nanowire electrodes

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    The development of reliable nanosensors offers a number of potential advantages in nanoscale analytical science. A hybrid electron beam-photolithography process was used to fabricate robust and reliable electrochemical nanowire array devices, with highly reproducible critical dimensions, 100 ± 6 nm. Nanowire electrode arrays were designed to permit diffusional independence at each nanowire element in an array thereby maximising limiting currents for optimised electrochemical nanosensing. The electrochemical behaviour of discrete nanowire electrode arrays was investigated using cyclic voltammetry in ferrocenemonocarboxylic acid. Single nanowire devices yielded highly reproducible steady-state sigmoidal waveforms, with typical currents of 179 ± 16 pA. Higher steady-state currents were achieved at nanowire arrays, up to ∌1.2 nA for arrays consisting of six nanowire elements. At low and intermediate scan rates, sigmoidal waveforms were observed for nanowire arrays indicating very fast mass transport. However, voltammetric behaviour consistent with semi-infinite linear diffusion was observed at higher scan rates confirming the presence of overlapping diffusion profiles between neighbouring nanowires within an array. The existence of diffusion overlap between neighbouring nanowire elements was further demonstrated by deviation of measured steady-state currents from estimates, becoming more pronounced with increasing numbers on nanowire elements in the array. Finally capacitive charging of the electrodes was explored, and were found to exhibit very low capacitance typically ∌31 ± 3 nF cm−2 per device, three orders of magnitude less than that reported for conventional microelectrodes (∌20 ÎŒF cm−2)

    Coherent transport by adiabatic passage on atom chips

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    Adiabatic techniques offer some of the most promising tools for achieving high-fidelity control of the center-of-mass degree of freedom of single atoms. Because the main requirement of these techniques is to follow an eigenstate of the system, constraints on timing and field strength stability are usually low, especially for trapped systems. In this paper we present a detailed example of a technique to adiabatically transport a single atom between different waveguides on an atom chip. To ensure that all conditions are fulfilled, we carry out fully three-dimensional simulations of the system, using experimentally realistic parameters. We also detail our method for simulating the system in very reasonable time scales on a consumer desktop machine by leveraging the power of graphics-processing-unit computing
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