Laser beams with phase singularities

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The characterisation of physical properties in biologically relevant processes and the development of novel microfluidic devices for this purpose are experiencing a great resurgence at present. In many of measurements of this type where a probe in a fluid is used, the strong influence of the rubinsztein-dunlop h of the volume used is a serious problem. In these geometries the proximity of a probe rubinsztein-dunlop h a wall can severely influence the measurement.

However, although much knowledge has been gained about flat walls, to date, the effect of non-planar surfaces at microscopic scale on rotational motion of micro-objects has not been studied. Here we present for the first time both experimental measurements and numerical computations which aim to study the drag torque on optically trapped rotating particles moving near 3D-printed conical rubinsztein-dunlop h cylindrical walls on-chip.

These results are essential for rubinsztein-dunlop h how curved walls can effect the torque on particles, and thus enable accurate hydrodynamic simulations at the micron-scale. This opens the potential for new sensing approaches under more complex conditions, allowing both dynamic and microrheological studies of biological systems and lab-on-chip rubinsztein-dunlop h. The article was received on 03 Novaccepted on 05 Dec and first published on 05 Dec If rubinsztein-dunlop h are not the author of this article and you wish to reproduce material from it in a third party non-RSC publication you must formally request permission using RightsLink.

Go to our Instructions for using RightsLink page for details. Authors contributing to RSC publications journal articles, books or book chapters do not need to formally request permission to reproduce material contained in rubinsztein-dunlop h article provided that the correct acknowledgement is given with the reproduced material.

If the material has been adapted instead of reproduced from the original RSC publication "Reproduced from" can be substituted with "Adapted from". In all cases the Ref. XX is the XXth reference rubinsztein-dunlop h the list of references. If you are the author of this article you do not need to formally request permission to reproduce figures, diagrams etc.

If you are the author of this article you rubinsztein-dunlop h need to obtain permission to reproduce the whole article in a third party publication with the exception rubinsztein-dunlop h reproduction of the whole article in a thesis or dissertation.

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Fetching data from CrossRef. This may take some time to load. Jump to main content. Jump to site search. Previous Article Next Article. Lab on a Chip. Impact of complex surfaces on biomicrorheological measurements using optical tweezers. Back to tab navigation Download options Please wait Impact of complex surfaces on biomicrorheological rubinsztein-dunlop h using optical tweezers S.

Reproduced material should be attributed as follows: For reproduction of material from NJC: For reproduction of material from PCCP: For reproduction of material from PPS: For reproduction of material rubinsztein-dunlop h all other RSC journals and books: Search articles by author Shu Zhang. Back to tab navigation Fetching data from CrossRef. Back to tab navigation.

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Stilgoe, Jacquiline Romero, Andrew G. White, Robert Fickler, Alan E. Structured light refers to the generation and application of custom light fields. As the tools and technology to create and detect structured light have evolved, steadily the applications have begun to emerge. This roadmap touches on the key fields within structured light from the perspective of experts in those areas, providing insight into the current state and the challenges their respective fields face.

Collectively the roadmap outlines the venerable nature of structured light research and the exciting prospects for the future that are yet to be realized. Roadmap on structured light. N2 - Structured light refers to the generation and application of custom light fields.

AB - Structured light refers to the generation and application of custom light fields. Optical Sciences, College of. Abstract Structured light refers to the generation and application of custom light fields. Keywords orbital angular momentum sculpted light shaped light structured illumination structured light structured polarisation tailored light vortices.

Journal of Optics United Kingdom , 19 1 , []. Journal of Optics United Kingdom , Vol. Journal of Optics United Kingdom. AU - Andrews,David L. AU - Bigelow,Nicholas P.

AU - Neely,Tyler W. Access to Document Link to publication in Scopus. Link to citation list in Scopus.