Dating carl zeiss microscopes
It was Abbe who would become Zeiss partner and help launch the name Zeiss into the stratosphere of optics.
Many of those who would become the most successful minds in optics were taught at the University at Jena, and then employed at the Zeiss Works.
He went to graduate school at the University of Göttingen where he received a Doctorate in thermodynamics.
In 1863 Abbe joined the faculty at the University of Jena where he lectured on physics, and later where he would serve his professorship.
Among Abbe's most significant breakthroughs was the formulation in 1872 of what a wave theory of microscopic imaging that became known as the "Abbe Sine Condition".
This approach made possible the development of a new range of seventeen microscope objectives - three of these were of the immersion type, all were designed based on mathematical modeling.
Realizing that the improvement of optical instruments demanded advances in optical theory (Zeiss noted "the only remaining function of the working hand should be that of precisely implementing the forms and dimensions of all construction elements as determined by the design computation"), Zeiss engaged Ernst Abbe (b. 14 January 1905 in Jena) as a free-lance research worker when he was a 26 years young lecturer of physics and mathematics at the University of Jena.
And it would be one man to bring this combination together to create a concern of unrivaled accomplishment. Friedrich K�rner, becoming well familiar with the operation of fine tools and machinery to make microscopes and scientific instruments.
K�rner was a machinist who provided such instruments to the German court.
Abbe earned his way through school by gaining scholarships, and with some assistance from his father's employer.
As an undergraduate Abbe studied physics and mathematics at the University of Jena.
Abbe laid out the framework of what would become the modern computational optics development approach.