H. Melville scite author profile

We present tailoring of three dimensional light fields which act as light moulds for elaborate particle micro structures of variable shapes. Stereo microscopy is used for visualization of the 3D particle assemblies. The powerful method is demonstrated for the class of propagation invariant beams, where we introduce the use of Mathieu beams as light moulds with non-rotationally-symmetric structure. They offer multifarious field distributions and facilitate the creation of versatile particle structures. This general technique may find its application in micro fluidics, chemistry, biology , and medicine, to create highly efficient mixing tools, for hierarchical supramolecular organization or in 3D tissue engineering.

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Applications of spatial light modulators in atom optics

McGloin

et al. 2003

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We discuss the application of spatial light modulators (SLMs) to the field of atom optics. We show that SLMs may be used to generate a wide variety of optical potentials that are useful for the guiding and dipole trapping of atoms. This functionality is demonstrated by the production of a number of different light potentials using a single SLM device. These include Mach-Zender interferometer patterns and the generation of a bottle-beam. We also discuss the current limitations in SLM technology with regard to the generation of both static and dynamically deformed potentials and their use in atom optics.

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Optical trapping of three-dimensional structures using dynamic holograms

Melville¹,

Milne²,

Spalding³

et al. 2003

Opt. Express

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We demonstrate the use of a spatial light modulator (SLM) to facilitate the trapping of particles in three-dimensional structures through time-sharing. This method allows particles to be held in complex, three-dimensional configurations using cycling of simple holograms. Importantly, we discuss limiting factors inherent in current phase only SLM design for applications in both optical tweezing and atom trapping.

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Three-dimensional arrays of optical bottle beams

McGloin

Spalding

Melville

et al. 2003

Optics Communications

100

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Optical levitation in a Bessel light beam

et al. 2004

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A vertically oriented zero order Bessel light beam is shown to create a one-dimensional array of trapped particles over extended (millimeter) distances. The particles take up equilibrium positions over the entire length of the beam and this is a consequence of the interplay between optical scattering and the self-healing properties of the Bessel beam. This work has analogies to recent studies of optically bound matter and allows for the simple creation of one-dimensional particle chains and their subsequent spectroscopic analysis.

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H. Melville

Simultaneous micromanipulation in multiple planes using a self-reconstructing light beam

Applications of spatial light modulators in atom optics

Optical trapping of three-dimensional structures using dynamic holograms

Three-dimensional arrays of optical bottle beams

Optical levitation in a Bessel light beam

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