Walker, G. C. and Berry, E. and Smye, S. W. and Zinov'ev, N. N. and Fitzgerald, A. J. and Miles, R. E. and Chamberlain, M. and Smith, M. A. (2004) 'Modelling the propagation of terahertz radiation through a tissue simulating phantom.', Physics in medicine and biology., 49 (10). pp. 1853-1864.
Terahertz (THz) frequency radiation, 0.1 THz to 20 THz, is being investigated for biomedical imaging applications following the introduction of pulsed THz sources that produce picosecond pulses and function at room temperature. Owing to the broadband nature of the radiation, spectral and temporal information is available from radiation that has interacted with a sample; this information is exploited in the development of biomedical imaging tools and sensors. In this work, models to aid interpretation of broadband THz spectra were developed and evaluated. THz radiation lies on the boundary between regions best considered using a deterministic electromagnetic approach and those better analysed using a stochastic approach incorporating quantum mechanical effects, so two computational models to simulate the propagation of THz radiation in an absorbing medium were compared. The first was a thin film analysis and the second a stochastic Monte Carlo model. The Cole–Cole model was used to predict the variation with frequency of the physical properties of the sample and scattering was neglected. The two models were compared with measurements from a highly absorbing water-based phantom. The Monte Carlo model gave a prediction closer to experiment over 0.1 to 3 THz. Knowledge of the frequency-dependent physical properties, including the scattering characteristics, of the absorbing media is necessary. The thin film model is computationally simple to implement but is restricted by the geometry of the sample it can describe. The Monte Carlo framework, despite being initially more complex, provides greater flexibility to investigate more complicated sample geometries.
|Keywords:||Optical rectification, Dielectric-properties, Water, Spectrum, Crystals.|
|Full text:||Full text not available from this repository.|
|Publisher Web site:||http://dx.doi.org/10.1088/0031-9155/49/10/002|
|Record Created:||19 Dec 2006|
|Last Modified:||29 Apr 2009 10:30|
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