Abstract
ABSTRACT Laser was presented to science and industry in the 1960s and shortly became a useful tool in many areas, with applications based on its multiple characteristics such as coherence of light, which presents a phenomenon known as interference pattern, or speckle, when beam returns from an illuminated surface. Despite great application of speckle pattern, its residual presence, for example, in interferometric approaches was considered as a noise, demanding filtering. However, grains themselves became information as their dynamic changes in time started to be linked to biological sample activity. Dynamic laser speckle has been since then a phenomenon widely used to monitor biological activities in many areas from agriculture to medicine. It is known as biospeckle laser (BSL) when adopted in biological material, with high sensitivity to follow very tiny movements in biological tissues, linked to changes in speckle provided by scatterer activities inside and outside cells. Since the 1970s, biospeckle laser usage follows a crescent technologic spiral where technological developments opened room for new applications, while new demands regarding biological monitoring forced the development of new methodologies. Therefore, potential adoption of the phenomenon as a sensor, for instance, in agricultural and medical processes, as well as constant offer of new devices provided new turns in the BSL technologic spiral and opened room for technique improvement. In this study, I present a short history of biospeckle laser (BSL) with applications and development associated with challenges regarding its usage in portable and accessible devices or even in commercial equipment. And the history was packed in a temporal diagram identifying the breakpoints responsible for improvements in the use of the technique.
Highlights
Speckle pattern is an interference figure, useful in many interferometric techniques, though the presence of grains demands further elimination processing, for example, after obtaining fringes.By 1975 speckle pattern started to be useful as information to monitor small changes in illuminated objects (Briers, 1975), and it was named dynamic laser speckle or biospeckle laser (BSL) (Aizu; Asajura, 1991) when applied to biological material.BRAGA JÚNIOR, R
This review presents the history of biospeckle phenomenon as a tool to monitor biological activity in many areas of knowledge, highlighting breakpoints in the field and focusing on the engineering point of view
Dynamic laser speckle images became a source of information about a broad band of biological phenomena and a tool to monitor sample activities in areas from agriculture to medicine
Summary
Speckle pattern is an interference figure, useful in many interferometric techniques, though the presence of grains demands further elimination processing, for example, after obtaining fringes.By 1975 speckle pattern started to be useful as information to monitor small changes in illuminated objects (Briers, 1975), and it was named dynamic laser speckle or biospeckle laser (BSL) (Aizu; Asajura, 1991) when applied to biological material.BRAGA JÚNIOR, R. By 1975 speckle pattern started to be useful as information to monitor small changes in illuminated objects (Briers, 1975), and it was named dynamic laser speckle or biospeckle laser (BSL) (Aizu; Asajura, 1991) when applied to biological material. Applications in Biosystems (Rabal; Braga, 2008) became well known in the literature from medicine (Aizu; Asakura, 1991; Fujii et al, 1987) to agriculture (Oulamara; Tribillon; Duvernoy, 1989; Zdunek et al, 2014), measuring many sample attributes under observation.
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