After over a decade of competitive prototyping and knowledge development, the TNO design solution has been adopted by ESO for the 39-meter E-ELT telescope consisting of almost 798 hexagonal segments each with a diameter of 1.4 meters. TNO and its partners, VDL and NOVA, were recently awarded the contract to build the full series of ELT M1 structures.
To ensure stability and high stiffness each of the parabolic shaped segments is supported on a structure with three whiffletrees providing a total of 27 support points. The whiffletrees are supported by three actuators which are used to actively position the mirror segments. Different actuators embedded within the whiffletrees are used to compensate for the elastic gravity deformation of the telescope structure when the telescope pointing elevation is changed. This system has been proven to maintain a 25 nm surface form in any pointing angle and over a wide range of temperatures.
A membrane mounted inside a pocket of the mirror segment itself is used for the lateral support. Themembrane itself is supported by the moving frame. Its position in piston and tip/tilt is also controlled by the actuators. The lateral displacement and clocking of the moving frame is controlled by three leaf springs which are connected to the fixed telescope structure. The moving frame isolates the mirror segment from the elastic loads induced by the leaf spring deflections.
TNO has also performed design studies for the ELT M2 and M3, as well as for the TMT M2 corrective mirror mounts. Our Astronomy technology roadmap targets the combining of these technologies with our Deformable Mirror technology (link to Deformable Mirror page) to build some of the largest, most accurate and most reliable adaptive optics systems for astronomy.
Please contact us to discuss adapting these extremely accurate and active mirror mount technologies to your requirements.