Abstract

In an effort to optimize the hydrodynamic radial (HyDRa) polishing process for applications where the amount of material that has to be removed implies long polishing times, we have developed a method to determine the optimum correction fraction that has to be made for a given error map, in terms of the level of determinism of the process, the number of iterations, and their associated polishing runs as well as run times.

© 2013 Optical Society of America

HyDRa: control of parameters for deterministic polishing

E. Ruiz, L. Salas, E. Sohn, E. Luna, J. Herrera, and F. Quiros
Opt. Express 21(17) 20334-20345 (2013)

HyDRa: polishing with a vortex

Erika Sohn, Elfego Ruiz, Luis Salas, Esteban Luna, and Joel Herrera
Appl. Opt. 52(25) 6146-6152 (2013)

Static and dynamic removal rates of a new hydrodynamic polishing tool

Jorge González-García, Alberto Cordero-Dávila, Esteban Luna, Manuel Núñez, Elfego Ruiz, Luis Salas, Victor H. Cabrera-Peláez, Irene Cruz-González, and Erika Sohn
Appl. Opt. 43(18) 3623-3631 (2004)

Optimization and application of influence function in abrasive jet polishing

Zhaoze Li, Shengyi Li, Yifan Dai, and Xiaoqiang Peng
Appl. Opt. 49(15) 2947-2953 (2010)

Correction of remounting errors by masking reference points in small footprint polishing process

Tan Wang, Haobo Cheng, Yong Chen, Yunpeng Feng, Zhichao Dong, and Honyuen Tam
Appl. Opt. 52(33) 7851-7858 (2013)