4,483 research outputs found
Collisionless reconnection: Mechanism of self-ignition in thin current sheets
The spontaneous onset of magnetic reconnection in thin collisionless current
sheets is shown to result from a thermal-anisotropy driven magnetic
Weibel-mode, generating seed-magnetic field {\sf X}-points in the centre of the
current layer.Comment: 8 pages, 6 figures, prepared for Annales Geophysica
Realignment-enhanced coherent anti-Stokes Raman scattering (CARS) and three-dimensional imaging in anisotropic fluids
We apply coherent anti-Stokes Raman Scattering (CARS) microscopy to
characterize director structures in liquid crystals.Comment: 14 pages, 11 figure
Electromagnetic wave propagation and absorption in magnetised plasmas: variational formulations and domain decomposition
We consider a model for the propagation and absorption of electromagnetic
waves (in the time-harmonic regime) in a magnetised plasma. We present a
rigorous derivation of the model and several boundary conditions modelling wave
injection into the plasma. Then we propose several variational formulations,
mixed and non-mixed, and prove their well-posedness thanks to a theorem by
S\'ebelin et~al. Finally, we propose a non-overlapping domain decomposition
framework, show its well-posedness and equivalence with the one-domain
formulation. These results appear strongly linked to the spectral properties of
the plasma dielectric tensor
Gradient-based quantitative image reconstruction in ultrasound-modulated optical tomography: first harmonic measurement type in a linearised diffusion formulation
Ultrasound-modulated optical tomography is an emerging biomedical imaging
modality which uses the spatially localised acoustically-driven modulation of
coherent light as a probe of the structure and optical properties of biological
tissues. In this work we begin by providing an overview of forward modelling
methods, before deriving a linearised diffusion-style model which calculates
the first-harmonic modulated flux measured on the boundary of a given domain.
We derive and examine the correlation measurement density functions of the
model which describe the sensitivity of the modality to perturbations in the
optical parameters of interest. Finally, we employ said functions in the
development of an adjoint-assisted gradient based image reconstruction method,
which ameliorates the computational burden and memory requirements of a
traditional Newton-based optimisation approach. We validate our work by
performing reconstructions of optical absorption and scattering in two- and
three-dimensions using simulated measurements with 1% proportional Gaussian
noise, and demonstrate the successful recovery of the parameters to within
+/-5% of their true values when the resolution of the ultrasound raster probing
the domain is sufficient to delineate perturbing inclusions.Comment: 12 pages, 6 figure
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