Larsen and Toubro Limited (L&T), Mumbai, India and Indian Institute of Astrophysics/India TMT Coordination Centre signed a contract on 31 December 2018 at IIA Campus, Koramangala, Bangalore, India for manufacturing Segment Support Assemblies for TMT’s Primary Mirror. Front (left to right): Mr. Arun Ramchandani, Vice President & Head, Product & Technology Development, L&T Defense, and Professor Jayant Murthy, Director Pasadena, CA – February 6, 2019 – The Indian Institute of Astrophysics (IIA), on behalf of India TMT, recently signed a contract with Larsen & Toubro (L&T) to manufacture 100 Segment Support Assemblies (SSA) for the TMT. L&T is one of the largest leading construction engineering companies in India. Meeting Participants at TMT-L&T Contract Signature for TMT Primary Mirror Segment Support Production on 31 December 2018 at IIA Campus, Bengaluru, India. The 30-meter diameter primary mirror, which will be made of 492 individual hexagonal segments each measuring 1.44 meters across corners, will be one of the largest ever made for an optical telescope. The telescope will integrate the 492 segments into a single light-gathering surface that is 30-meters wide. The SSA is a system of complex optomechanical sub-assemblies on which each hexagonal mirror is mounted. SSAs also provide precise real-time 3-D positioning and alignment of each segment to deliver the best possible imaging capability. The design of the segment support for TMT is based on a moving frame concept: A fixed frame is attached to the mirror while a moving frame provides the base for the axial and lateral support assemblies. Each segment is supported axially by a 27-point “whiffletree,” which is a network of thin rods attached to the back of the mirror and providing a mechanical support structure designed to evenly distribute the weight of the glass. The lateral support of each segment, a critical requirement when the telescope points toward low elevations, is provided by a central metallic diaphragm recessed into the glass. The SSAs include active mechanisms and sensors, notably the segment warping harnesses and their actuators. Each segment has 21 warping harness assemblies comprising 21 actuators. Each segment support assembly hosts a total of 537 precision mechanical components, sensors and actuators and weighs nearly 58kg. Each individual glass-ceramic segment weighs 153kg. Representatives from L&T and the TMT project offices in Pasadena and India met on 30 January 2019 to answer final questions before the start of work. They discussed technical details and set up a process of regular meetings going forward to keep the teams informed of work updates. The meeting took place in L&T’s Coimbatore facility, which is dedicated to precision and heavy engineering business supply and equipment to defense, nuclear power and aerospace. TMT Primary Mirror System leaders at L&T facility in Coimbatore, India – January 2019.TMT and L&T team participated in a kick-off meeting on 30 January 2019 to produce TMT Mirror Segment Support Assemblies. Professor Eswar Reddy, the Programme Director of India-TMT, expressed his delight with the current progress of the SSAs: “L&T is starting to manufacture complex SSA pieces and key subsystems for the TMT main mirror. L&T shall be responsible for the procurement of raw materials, manufacturing, inspection and assembly of the SSA components, as per TMT prescribed requirements.” [From this year, India set to manufacture key components for largest ground-based observatory. The IndianExpress February 9, 2019 - https://indianexpress.com] Initially, there will be a production qualification phase of the SSAs, over which tests will be performed to evaluate the quality of the fabrication procedures and method of assembling. The first qualification units from L&T are expected at the end of 2020. After production, the manufactured SSAs will be shipped to the newly built India TMT Optics Fabricating Facility (ITOFF) at the IIA Centre for Research and Education in Science and Technology (CREST) campus near Bengaluru. SSAs will also be dispatched throughout China, Japan and USA, where polished mirror segments will be mounted to proceed to final optical precision testing. All SSAs, sensors and actuators for the TMT primary mirror are key instrumentation components and will be developed and manufactured in India. TMT Segment Support Assembly Module. First of 492 Primary Mirror Segment Support active mechanisms and sensors assemblies for the telescope at TMT Laboratory in California. First of 492 Primary Mirror Segment Support Assemblies built by TMT Opto-Mechanical and Quality Assurance engineers from India and North America – TMT laboratory in California, March 2018.

Pasadena, CA - Sept. 25, 2018 – The TMT Project Office recently held a conceptual design review to evaluate the design study for the TMT’s Adaptive Secondary Mirror (AM2) system. The main goals of the study were to: Develop a conceptual design that meets the TMT requirements, including a preliminary analysis of the system reliability and maintainability. One of the main challenges of the TMT secondary mirror is that it is large (~3.2m) and convex. Identify the challenges of the design, the technical risks and potential showstoppers. Develop a project plan, including cost and schedule to complete the design, manufacture and test of such a system. The AM2 design study was executed by the ADOPTICA Italian consortium, which is composed of Microgate Engineering and A.D.S. international. ADOPTICA has successfully deployed several adaptive secondary mirrors for very large astronomical facilities, such as MMT, LBT, and ESO VLT, and is currently manufacturing the large 2.4m flat M4 deformable mirror for the ESO E-ELT. The ADOPTICA AM2 design consists of a ~3.2m convex deformable mirror assembly mounted on a positioning system, which includes a segmented thin shell mirror controlled by 3,828 contactless voice coil actuators, a reference body and the deformable mirror cell. The mirror thin shell layout is composed of seven segments: six petals arranged around a central hexagonal segment. The AM2 Conceptual Design review (CoDR) was successfully completed; no showstoppers were identified, making it possible to mature the current concept as part of a potential future preliminary design study phase. The AM2S and the TMT conventional Secondary Mirror System (M2S) are designed to be interchangeable. While the M2S is a passive mirror, the current AM2 design is a deformable mirror dedicated to correct for relatively low order modes of wavefront aberrations caused by atmospheric turbulences. Adaptive optics systems work by rapidly deforming mirrors in real-time, precisely counteracting the effect of the distortion produced by the passage of light through the Earth’s atmosphere. Specifically, an adaptive secondary mirror for the TMT will correct the turbulences located within the lower layers of the Earth’s atmosphere (commonly named the “ground layers”), improving the image quality for instruments that would otherwise return seeing-limited images. “We are pleased by the outstanding work done by ADOPTICA on the very advanced conceptual design of the adaptive secondary mirror system,” said Corinne Boyer, TMT Adaptive Optics group leader. “TMT’s adaptive secondary system is a technological challenging system, but it will undeniably provide some real benefits to the TMT science programs.” The AM2 mounted on the TMT telescope top end. The AM2 layout showing the mirror thin shell, the reference body, a subset of the actuators, the mirror and reference body cell, and the positioner