After successfully funding the 'legendary' Biotar 78mm F1.5 lens through Kickstarter, newly-minted company Oprema Jena is trying to pull off yet another resurrection. This time the crowdfunding platform is Indiegogo, and the lens they're bringing back is the Biotar 58mm F2: the world's only lens with a 'historic' 17-blade aperture.

Oprema isn't holding back when it comes to describing this lens in the most epic of terms:

Reengineered to its true historic 17 aperture blade version it will change how you feel about photography. With its unique design the Biotar 58 balances the need for sharpness and bokeh in one lens like no other. It is truly an enchanting miracle bokeh wonder lens for all your photographic situations.

"Miracle bokeh wonder lens" .... there's a tagline for you. And if that's not enough, here's an overly-dramatic introduction to this lens complete with inspiring music and over-zealous presenter voice:

Joking aside, people seem very excited about this old lens coming back. The original design dates back to 1927, and it was introduced to the public around 1937. Unfortunately, due to the war, the original Biotar 58 was only produced in small numbers, and later versions never quite recaptured the original's flare for dramatic bokeh.

Until (at least according to Oprema Jena) now.

Oprema identified the models that were "most outstanding" from the Biotar's history, and recreated those while adding in some modern conveniences like rangefinder coupling for Leica users, and modern-day lens mounts for everyone else. Here are some web resolution sample photos so you can judge for yourself if they succeeded in creating a lens worth dropping a grand on:

Already over 150% funded, it looks like the Biotar 58mm F2 will come to be whether or not anybody else decides to pledge their money and pick one up. But if you want to learn more about this lens and/or drop the $950 it'll take to buy one in either Silver or Black (Super Early Bird level, still 180 available), head over to the Indiegogo campaign by clicking here.