Please use this identifier to cite or link to this item: http://hdl.handle.net/2248/8004
Title: Experimental Validation of a Novel Concept to Reduce Optical Surface Wave Front Errors by Using Deformable Bushes at Opto-Mechanical Interfaces
Authors: Nagabhushana, S
Prasad, B. R
Nagesh, Suresh
Venkata Suresh, Narra
Sandeep, D. S
Kamath, P. U
Misra, Shalab
Hegde, Bhavana
Utkarsha, D
Sinha, Mrityunjay Kumar
Kathiravan, S
Natarajan, V
Pawan, Kumar
Amit Kumar
Keywords: Optical aberrations
RMS wave front errors
Optomechanical
Mirror
Finite element analysis
Interferometry
Issue Date: Mar-2022
Publisher: World Scientific Publishing
Citation: Journal of Astronomical Instrumentation, Vol. 11, No. 1, 2250003
Abstract: One of the major objectives of the optomechanics is to support large optics required for the purpose and also to maintain high dynamic stability in operation. This requirement calls for more number of supports, to support large optics. While addressing this issue, the mounting system tends to become non-kinematic and distorts the optical surface and leads to poor image quality. The distorted optical surfaces bring in increased RMS surface wavefront errors which will result in poor image quality. In this context, a new concept is proposed in our previous publication (Nagabhushana et al., 2021) which involves introduction of deformable bushes at the optomechanical interfaces. These are deformed by applied clamping forces and also enabling all degrees of freedom (DOF) to be arrested. This also ensures that the clamping force in axial DOF is limited to a minimal value. This technique enables to arrest of axial DOF without exerting the clamping force on the optomechanical assembly there by reduces optical aberrations and improves the mounting system’s dynamic stability. This is because deformable bushes absorb all the clamping forces and the strain has no impact on the mount and therefore does not lead deformation of the optical surface. The clamping forces are simulated by Finite Element (FE) methods. Further, in this paper, the concept is verified and validated by experiments. The simulation results are observed to be in close correlation with experiment results. Improved stability is also observed by additional constraints introduced to optomechanical mounts with no compromise in wavefront errors.
Description: Restricted access
URI: http://hdl.handle.net/2248/8004
ISSN: 2251-1725
Appears in Collections:Books Publication by IIAP

Files in This Item:
File Description SizeFormat 
ExperimentalValidationofaNovelConcepttoreduceopticalaberrationsusingdeformablebushes.pdf
  Restricted Access
1.88 MBAdobe PDFView/Open Request a copy


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.