Michael M. Burns scite author profile

Properly fashioned electromagnetic fields coupled to microscopic dielectric objects can be used to create arrays of extended crystalline and noncrystalline structures. Organization can be achieved in two ways: In the first, dielectric matter is transported in direct response to the externally applied standing wave optical fields. In the second, the external optical fields induce interactions between dielectric objects that can also result in the creation of complex structures. In either case, these new ordered structures, whose existence depends on the presence of both light and polarizable matter, are referred to as optical matter.

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Saturation spectroscopy with laser optical pumping in atomic barium

Pappas

et al. 1980

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Size-dependent fivefold and icosahedral symmetry in silver clusters

Xing¹,

Danell²,

Garzón

et al. 2005

Phys. Rev. B

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Trapped ion electron diffraction measurements on silver cluster cations, Ag n + for sizes n =36-46,55 at ϳ120 K describe an evolution in structural symmetry with increasing cluster size. Diffraction patterns characterize fivefold symmetry at smaller sizes which evolves to icosahedral symmetry at n = 55. Low energy isomer structures were identified by statistical search methods and optimized by density-functional calculations. Comparison of diffraction data with these theoretical structures confirms the presence of local order having fivefold symmetry for sizes n = 36-39, 43 and global order having icosahedral symmetry at the closed shell size n = 55.

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Colour-generating interactions across the corpus callosum

Land

Hubel

Livingstone

et al. 1983

Nature

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Human vision has the remarkable property that, over a wide range, changes in the wavelength composition of the source light illuminating a scene result in very little change in the colour of any of the objects. This colour constancy can be explained by the retinex theory, which predicts the colour of a point on any object from a computed relationship between the radiation from that point and the radiation from all the other points in the field of view (Fig. 1). Thus the computations for colour perception occur across large distances in the visual field. It has not been clear, however, whether these long-range interactions take place in the retina or the cortex. Reports that long-range colour interactions can be reproduced binocularly when one band of wavelengths enters one eye and a different band enters the other might seem to establish the cortex as the site of the computation. Many observers, however, see very unsatisfactory colour or no colour at all in this binocular situation, suggesting that the cortex may not be the only site at which the computation is carried out, or even the most important site. We have now tested the role of the cortex in a human subject in whom the nerve fibres connecting cortical areas subserving two separate parts of the visual field had been severed, and find that the cortex is necessary for long-range colour computations.

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Michael M. Burns

Optical binding

Optical Matter: Crystallization and Binding in Intense Optical Fields

Saturation spectroscopy with laser optical pumping in atomic barium

Size-dependent fivefold and icosahedral symmetry in silver clusters

Colour-generating interactions across the corpus callosum

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