Sigmadyne's latest release of SigFit, an optical pre & post processor for MSC Nastran, allows optical response quantities to be written in MSC Nastran input format. This allows MSC Nastran's optimization capability to utilize optical behavior in the structural optimization of optical systems.
Optical performance is degraded by the distortion of reflective and refractive surfaces, and the characterization of such deformations is essential to performing optical performance evaluation. The best-fit polynomial characterizations of the predicted distortions of such optical surfaces can be generated by SigFit in the form of MSC Nastran multipoint constraint (MPC) equations. This feature allows engineers to characterize deformed optical surfaces within MSC Nastran using polynomial types commonly used in optical design. These equations now include enhancements to expand their usability to a wider array of applications involving significant lateral surface growth making them accurate for thermo-elastic load conditions.
Many modern telescopes include deformable mirrors to correct for unwanted optical surface figure errors induced by thermal or structural loading. A common design problem is to determine the optimum number and locations of the actuators required to correct these figure errors. MSC Nastran can be used to determine predictions of the disturbed optical surfaces and the influence functions for a large set of candidate actuator locations.
SigFit also provides many other options to use MSC Nastran in the analysis of optical systems. SigFit takes MSC Nastran analysis results and writes their effect in native formats for direct input to a variety of optical design programs. Examples include the temperature and stress changes in the index of refraction, including stress birefringence. The combination of MSC Nastran and SigFit provide a useful combination for the design of precision optical systems.
Dr. Victor Genberg, PE, President of Sigmadyne, stressed the key capabilities of MSC Nastran as instrumental in his business, "MSC Nastran is a great tool for multidisciplinary analysis because the analysis inputs and outputs are easily accessed. Execution of SigFit requires model geometry, displacements, temperatures and stresses for employment of its full array of optomechanical analysis types, and the simplicity in accessing this data from MSC Nastran streamlines the process of combining it with the power of SigFit."
Sigmadyne, located in Rochester, NY, specializes in optomechanical consulting services with decades of experience in many photonics markets. Their special expertise is in the application of finite element methods to the analysis of optical systems. SigFit is a commercial software package which interfaces finite element results with optical design programs. To learn more about Sigmadyne, please visit http://www.sigmadyne.com. SigFit is a trademark of Sigmadyne, Inc.
About MSC Software
MSC Software is one of the ten original software companies and the worldwide leader in multidiscipline simulation. As a trusted partner, MSC Software helps companies improve quality, save time and reduce costs associated with design and test of manufactured products. Academic institutions, researchers, and students employ MSC technology to expand individual knowledge as well as expand the horizon of simulation. MSC Software employs 1,000 professionals in 20 countries. For additional information about MSC Software's products and services, please visit: www.mscsoftware.com.
The MSC Software corporate logo, Simulating Reality, Adams, Dytran, Easy5, Marc, MD Adams, MD Nastran, Patran, Mentat, MSC, Masterkey, Masterkey Plus, MSC Nastran, Mvision, SimDesigner, SimManager, and SimXpert are trademarks or registered trademarks of the MSC Software Corporation in the United States and/or other countries. NASTRAN is a registered trademark of NASA. All other trademarks belong to their respective owners.
Press Contact: Leslie Rickey Email Contact