Technology in the study of light / Spherical lens aberration

Gif_Aberración esférica.gif


Greetings my dear friends of the Hive platform, especially to the members of the Project.Hope community, we continue observing around us in order to evaluate any kind of operation of any technological application in our lives, this in order to highlight the great task between science and technology, and thus continue to express that technology is nothing more than applied science.

In previous articles we have been related to the phenomenon of light and its application in different types of machines, tools or devices of artificial origin, among which we have found the lenses, and the same are essential elements of various optical instruments to treat the light rays incident on these, it is important to note that the light rays are responsible for transporting any type of images to a particular receiving screen or photosensitive surface to the light of any optical device and likewise to our eyes, more specifically to our natural receiving screen as is the retina.

When we refer to particular optical systems such as lenses it is important to always keep in mind the phenomenon of refraction, refraction is observed when light passes from one medium to another, and where the speed of its propagation is affected causing the rays to bend or refract by the loss of speed, this is done by the lenses, that is, refract the light rays once they pass through them.

In some cases we can find that the lenses have some kind of inconvenience when projecting the image that carry the rays that they refract, this is called aberrations of the lenses, and in previous articles we analyzed the chromatic aberration and this time we will analyze in general the spherical aberration of convergent lenses, this type of lens converge the light rays at a single point which we call focal point, but sometimes this does not happen in this way, and therefore, secondary focal points are generated.

This phenomenon is generally due to the degree of sphericity of such converging lenses, therefore, the rays closer to the central axis will converge at the same point or as close as possible, however, the opposite will occur with those rays closer to the edge of such lenses resulting in the spherical aberration of a converging lens, whose formation and correction is observed in the gif at the beginning of this article with the combination of a converging lens (biconvex) with a diverging lens (plano-concave).


The study of light has provided us with essential knowledge in any type of phenomenon developed in the process of generating images both in artificial devices and in our own natural optical system, these learnings transformed and applied by the field of technology in different elements such as the lenses that we see in the gif at the beginning of this article.

In this way we continue to demonstrate that the science-technology nexus has a great influence in any area of our existence, and we notice this with each passing day with greater force due to the constant evolution of new techniques in the generation of materials for the manufacture of any component element of certain optical instruments, whether individual or composite.

Until another opportunity my dear and appreciated readers.

Note: The images are of my authorship, made using the Power Point application, and the animated gif was made with the Photoscape application.

Recommended Bibliographic Reference

[1]Spherical Aberration.



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