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22 November 2000 Controlling the phase response of a phased-array system
Stephen P. Morgan, Kai Y. Yong
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Proceedings Volume 4160, Photon Migration, Diffuse Spectroscopy, and Optical Coherence Tomography: Imaging and Functional Assessment; (2000) https://doi.org/10.1117/12.407629
Event: EOS/SPIE European Biomedical Optics Week, 2000, Amsterdam, Netherlands
Abstract
Phased array techniques, based on interference of diffuse photon density waves, have been demonstrated to be a sensitive method of detecting and localizing objects embedded in heavily scattering media. They have also been used as a sensitive method of detecting functional changes in the brain. Previous experiments using anti-phase sources have shown that the phase response to the scan of an object through the medium is (pi) radians regardless of object size. This provides information about the position of an object but none about the size. In this paper we demonstrate that controlling the relative phase between the sources enables different phase gradients to be set within the medium. The consequence of this is that the phase response is dependent on the size of an object while still maintaining the localization information. Furthermore, it is demonstrated that the phase response can be tuned to be most sensitive to the object size under investigation. The effect of source separation on the system response is also investigated. It is demonstrated that there is an optimum source separation to produce the maximum signal to noise ratio. Sources positioned close together provide too much destructive interference whereas sources well separated do not provide enough interference.
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Stephen P. Morgan and Kai Y. Yong "Controlling the phase response of a phased-array system", Proc. SPIE 4160, Photon Migration, Diffuse Spectroscopy, and Optical Coherence Tomography: Imaging and Functional Assessment, (22 November 2000); https://doi.org/10.1117/12.407629
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KEYWORDS
Signal detection
Phased arrays
Sensors
Modulation
Phase shifts
Signal to noise ratio
Tissues
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