Abstract
A new device (BIOSCOPE) for noninvasive assessment ofphysiological statebiological systems of biological objects is created. The principle of operation of device (sensor) is based on the estimation of the intensity oflaser light scattered from two interfaces. Note that from the first interface (lower bound of glass-vacuum) coherent light is reflected, while from the second interface which includes the upper bound of glass and an opaque hackly material covering it, a light is reflected diffusely. In the work are presented the results of various experiments with different kinds of biosystems (plants, animals, humans) which have been conducted on the distance on which is absent the electromagnetic or other interactions. The device does not respond to the inanimate objects having room temperature. The physiological significance of the device’s signals is discussed in detail. The device can be used as a new diagnosis tool in medicine and biology.
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Sargsyan, R.S., Gevorkyan, A.S., Karamyan, G.G., Vardanyan, V.T., Manukyan, A.M., Nikogosyan, A.H. (2011). Bioscope: New Sensor for Remote Evaluation of The Physiological State of Biological Systems. In: Bonca, J., Kruchinin, S. (eds) Physical Properties of Nanosystems. NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-0044-4_24
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DOI: https://doi.org/10.1007/978-94-007-0044-4_24
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