Achromatization over wide spectral range

The calibration unit of the ESO SOXS telescope which Incident Angle is developing for FINCA at the time of writing this, operates over a wide spectral range from VIS to NIR. In order to achromatize the collimating lenses, the indices of refraction had to be recalculated.

Published 17.9.2018 by Jani Achrén, who implores you to read more, including all the publications he was awarded co-authorship from working on this project.

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Glass manufacturers for the photonics project could be chosen freely

Previously I have discussed an automated optimization method for designing a fast four lens refrative objective that uses symmetrically manufactured lenses (you can catch up about it from this downloadable pdf). The original development model used glass from Schott, but next I will discuss how it won’t make much difference which glass manufacturer one uses.

Published and promptly forgotten in 13.9.2018 by Jani Achrén, who likes to revisit old times here.

Case study: Using an achromatic objective as its own focal reducer

Commercial telescopes are more often than not provided with a focal reducer, which enables the customer to use the telescope also for astrophotography. Here I introduce two cases where a second objective unit identical to the primary unit serves as the focal reducer to the first unit which reduces not only focal length but also design and manufacturing costs.

Published 6.9.2018 by Jani Achrén, who would love to tell you more here.

Improving telescope objective with N-BK7 accessories

Giving new life to an old telescope design is quite possible and not necessarily expensive either.

I designed a generic Fraunhofer doublet telescope in order to design two accessories for it using nothing but Schott N-BK7 glass. Both accessories address the astigmatism in a doublet, flattening the image plane for a wider field of view of the original doublet.

Published 25.9.2015 by Jani Achrén. More marvels here!

New or improved for commercial telescope optics?

Commercial astronomical telescope optics development has followed a straight tangent for decades now. Focal lengths have shortened while image sizes have grown. Refractive telescopes houses five or even six lenses, making them more and more like over-sized camera optics, driving up manufacturing costs fast. Producing more and more expensive and generic products for smaller and smaller range of enthusiasts does not pay back development.

Published 20.3.2015 by Jani Achrén. More about the topic here.