Ian D. Morrison scite author profile

The measurement of the time dependence of light scattered from a collection of moving particles, commonly referred to as quasi-elastic light scattering (QELS), provides information about the distribution of particle velocities. For monodisperse particles undergoing Brownian motion, the time dependence of the autocorrelation of the scattered light is a simple exponential function of the hydrodynamic radius of the particle. For polydisperse suspensions undergoing Brownian motion, the time dependence of the autocorrelation of the scattered light is a function of the particle-size distribution and can be expressed either as a Fredholm integral or a sum of exponentials. This paper describes improvements in the methods of data acquisition and analysis that significantly increase the resolution of the technique. These improvements enable accurate determinations and smooth representations of both bimodal and broad unimodal distributions without operator intervention or a priori information about the particle-size distribution.

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Measurement of first hyperpolarizabilities by hyper-Rayleigh scattering

Morrison¹,

Denning²,

Laidlaw³

et al. 1996

116

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The origin of spurious and irreproducible signals in the measurement of the hyper-Rayleigh scattering (HRS) of solutions is investigated. A new cell design, coupled with continuous solution filtration through a 20 nm filter, is shown to improve the reproducibility of the measurement to ±5%. A transverse cell dimension of ∼2 mm reduces absorption of the second harmonic. A simple monochromaticity test is used to identify luminescence, and we recommend that it is made routinely. Scattering from the [Ru(bipy)3]2+ cation, attributed to HRS by Zyss et al. [Chem. Phys. Lett. 206, 409 (1993)], appears to be largely due to two-photon excited luminescence. The reliability of calibration procedures is examined, and some revised hyperpolarizabilities are reported.

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Energy levels of terbium(III) in the elpasolite Cs₂NaTbCl₆

Morrison¹,

BERRY²,

Denning³

1999

Molecular Physics

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Polarized two-photon excitation (TPE) and emission spectra have been used to locate, and identify the symmetry of, more than 100 energy levels of terbium(II1) in the elpasolite Cs2NaTbC16. These are assigned with the aid of a one-electron crystal field Hamiltonian. In many cases the assignments were verified by modelling the Zeeman interaction. Systematic deviations from the predictions of the one-electron model provide evidence for electron correlation induced by the crystal field (CCF).

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Energy levels of terbium(III) in the elpasolite Cs2NaTbF6

BERRY¹,

Morrison²,

Denning³

1998

Mol. Phys.

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Ian D. Morrison

Electrical charges in nonaqueous media

Improved techniques for particle size determination by quasi-elastic light scattering

Measurement of first hyperpolarizabilities by hyper-Rayleigh scattering

Energy levels of terbium(III) in the elpasolite Cs₂NaTbCl₆

Energy levels of terbium(III) in the elpasolite Cs2NaTbF6

Contact Info

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Resources

About

Ian D. Morrison

Electrical charges in nonaqueous media

Improved techniques for particle size determination by quasi-elastic light scattering

Measurement of first hyperpolarizabilities by hyper-Rayleigh scattering

Energy levels of terbium(III) in the elpasolite Cs2NaTbCl6

Energy levels of terbium(III) in the elpasolite Cs2NaTbF6

Contact Info

Product

Resources

About

Energy levels of terbium(III) in the elpasolite Cs₂NaTbCl₆