C. Jiao, S. Li, and X. Xie, “Algorithm for ion beam figuring of low-gradient mirrors,” Appl. Opt. 48, 4090-4096 (2009).

[CrossRef]

C. Miao, S. N. Shafrir, J. C. Lambropoulos, J. Mici, and S. D. Jacobs, “Shear stress in magnetorheological finishing for glasses,” Appl. Opt. 48, 2585-2594 (2009).

[CrossRef]

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

M. Yu, L. Yang, and Y. Wan, “Optimizing analysis of dwell-time parameters,” Opt. Optoelectron. Technol. 4, 5-7 (2006).

X. Peng, Y. Dai, and S. Li, “Material removal model of magnetorheological finishing,” Chin. J. Mech. Eng. 40(04), 67-70 (2004).

H. M. Pollicove, E. M. Fess, and J. M. Schoen, “Deterministic manufacturing processes for precision optical surfaces,” Proc. SPIE 5078, 90-96 (2003).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

P. M. Shanbhag, M. R. Feinberg, G. Sandri, M. N. Horenstein, and T. G. Bifano, “Ion beam machining of millimeter scale optics,” Appl. Opt. 39, 599-611 (2000).

[CrossRef]

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

M. Buijs and K. Korpel-Van Houten, “A model for lapping of glass,” J. Mater. Sci. 28, 3014-3020 (1993).

[CrossRef]

T. Izumitani and S. Harada, “Polishing mechanism of optical glasses,” Glass Technol. 12(5), 131-135 (1971).

F. W. Preston, “The theory and design of plate glass polishing machines,” J. Soc. Glass Technol. 11, 214-256 (1927).

M. Buijs and K. Korpel-Van Houten, “A model for lapping of glass,” J. Mater. Sci. 28, 3014-3020 (1993).

[CrossRef]

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

X. Peng, Y. Dai, and S. Li, “Material removal model of magnetorheological finishing,” Chin. J. Mech. Eng. 40(04), 67-70 (2004).

J. E. DeGroote, “Surface interactions between nanodiamonds and glass in magnetorheological finishing (MRF),” Ph.D. dissertation (University of Rochester, 2007).

T. W. Drueding, “Precision ion figuring system for optical components,” Ph.D. dissertation (Boston University, 1995).

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

H. M. Pollicove, E. M. Fess, and J. M. Schoen, “Deterministic manufacturing processes for precision optical surfaces,” Proc. SPIE 5078, 90-96 (2003).

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

T. Izumitani and S. Harada, “Polishing mechanism of optical glasses,” Glass Technol. 12(5), 131-135 (1971).

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

T. Izumitani and S. Harada, “Polishing mechanism of optical glasses,” Glass Technol. 12(5), 131-135 (1971).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

C. Miao, S. N. Shafrir, J. C. Lambropoulos, J. Mici, and S. D. Jacobs, “Shear stress in magnetorheological finishing for glasses,” Appl. Opt. 48, 2585-2594 (2009).

[CrossRef]

A. B. Shorey, S. D. Jacobs, W. I. Kordonski, and R. F. Gans, “Experiments and observations regarding the mechanisms of glass removal in magnetorheological finishing,” Appl. Opt. 40, 20-33 (2001).

[CrossRef]

J. C. Lambropoulos, S. D. Jacobs, and J. Ruckman, “Material removal from grinding to polishing,” in *Finishing of Advanced Ceramics and Glasses*, Vol. 102 of Ceramic Glasses, R. Sabia, V. A. Greenhut, and C. G. Pantano, eds. (American Ceramic Society, 1999), pp. 113-128.

C. Jiao, S. Li, and X. Xie, “Algorithm for ion beam figuring of low-gradient mirrors,” Appl. Opt. 48, 4090-4096 (2009).

[CrossRef]

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

A. B. Shorey, S. D. Jacobs, W. I. Kordonski, and R. F. Gans, “Experiments and observations regarding the mechanisms of glass removal in magnetorheological finishing,” Appl. Opt. 40, 20-33 (2001).

[CrossRef]

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

M. Buijs and K. Korpel-Van Houten, “A model for lapping of glass,” J. Mater. Sci. 28, 3014-3020 (1993).

[CrossRef]

C. Miao, S. N. Shafrir, J. C. Lambropoulos, J. Mici, and S. D. Jacobs, “Shear stress in magnetorheological finishing for glasses,” Appl. Opt. 48, 2585-2594 (2009).

[CrossRef]

J. C. Lambropoulos, S. D. Jacobs, and J. Ruckman, “Material removal from grinding to polishing,” in *Finishing of Advanced Ceramics and Glasses*, Vol. 102 of Ceramic Glasses, R. Sabia, V. A. Greenhut, and C. G. Pantano, eds. (American Ceramic Society, 1999), pp. 113-128.

C. Jiao, S. Li, and X. Xie, “Algorithm for ion beam figuring of low-gradient mirrors,” Appl. Opt. 48, 4090-4096 (2009).

[CrossRef]

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

X. Peng, Y. Dai, and S. Li, “Material removal model of magnetorheological finishing,” Chin. J. Mech. Eng. 40(04), 67-70 (2004).

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

X. Peng, Y. Dai, and S. Li, “Material removal model of magnetorheological finishing,” Chin. J. Mech. Eng. 40(04), 67-70 (2004).

H. M. Pollicove, E. M. Fess, and J. M. Schoen, “Deterministic manufacturing processes for precision optical surfaces,” Proc. SPIE 5078, 90-96 (2003).

F. W. Preston, “The theory and design of plate glass polishing machines,” J. Soc. Glass Technol. 11, 214-256 (1927).

J. C. Lambropoulos, S. D. Jacobs, and J. Ruckman, “Material removal from grinding to polishing,” in *Finishing of Advanced Ceramics and Glasses*, Vol. 102 of Ceramic Glasses, R. Sabia, V. A. Greenhut, and C. G. Pantano, eds. (American Ceramic Society, 1999), pp. 113-128.

H. M. Pollicove, E. M. Fess, and J. M. Schoen, “Deterministic manufacturing processes for precision optical surfaces,” Proc. SPIE 5078, 90-96 (2003).

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

M. Yu, L. Yang, and Y. Wan, “Optimizing analysis of dwell-time parameters,” Opt. Optoelectron. Technol. 4, 5-7 (2006).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

C. Jiao, S. Li, and X. Xie, “Algorithm for ion beam figuring of low-gradient mirrors,” Appl. Opt. 48, 4090-4096 (2009).

[CrossRef]

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

M. Yu, L. Yang, and Y. Wan, “Optimizing analysis of dwell-time parameters,” Opt. Optoelectron. Technol. 4, 5-7 (2006).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

X. Zhou, “Study on techniques in computer-controlled grinding and polishing for large and medium aspheric surfaces,” Ph.D. dissertation (National University of Defence Technology, 2007), in Chinese.

W. J. Rupp, “The development of optical surfaces during the grinding process,” Appl. Opt. 4, 743-748 (1965).

[CrossRef]

W. J. Rupp, “Loose-abrasive grinding of optical surfaces,” Appl. Opt. 11, 2797-2810 (1972).

[CrossRef]

R. A. Jones, “Computer controlled polisher demonstration,” Appl. Opt. 19, 2072-2076 (1980).

[CrossRef]

R. A. Jones, “Computer-controlled grinding of optical surface,” Appl. Opt. 21, 874-877 (1982).

[CrossRef]

P. M. Shanbhag, M. R. Feinberg, G. Sandri, M. N. Horenstein, and T. G. Bifano, “Ion beam machining of millimeter scale optics,” Appl. Opt. 39, 599-611 (2000).

[CrossRef]

C. Jiao, S. Li, and X. Xie, “Algorithm for ion beam figuring of low-gradient mirrors,” Appl. Opt. 48, 4090-4096 (2009).

[CrossRef]

A. B. Shorey, S. D. Jacobs, W. I. Kordonski, and R. F. Gans, “Experiments and observations regarding the mechanisms of glass removal in magnetorheological finishing,” Appl. Opt. 40, 20-33 (2001).

[CrossRef]

C. Miao, S. N. Shafrir, J. C. Lambropoulos, J. Mici, and S. D. Jacobs, “Shear stress in magnetorheological finishing for glasses,” Appl. Opt. 48, 2585-2594 (2009).

[CrossRef]

X. Peng, Y. Dai, and S. Li, “Material removal model of magnetorheological finishing,” Chin. J. Mech. Eng. 40(04), 67-70 (2004).

F. Shi, Y. Dai, X. Peng, and C. Song, “Three-dimensional material removal model of magnetorheological finishing (MRF),” China Mech. Eng. 20, 644-648 (2009).

T. Izumitani and S. Harada, “Polishing mechanism of optical glasses,” Glass Technol. 12(5), 131-135 (1971).

M. Buijs and K. Korpel-Van Houten, “A model for lapping of glass,” J. Mater. Sci. 28, 3014-3020 (1993).

[CrossRef]

F. W. Preston, “The theory and design of plate glass polishing machines,” J. Soc. Glass Technol. 11, 214-256 (1927).

L. Zhou, Y. Dai, X. Xie, C. Jiao, and S. Li, “Model and method to determine dwell time in ion beam figuring,” Nanotechnol. Precision Eng. 5, 107-112 (2007).

M. Yu, L. Yang, and Y. Wan, “Optimizing analysis of dwell-time parameters,” Opt. Optoelectron. Technol. 4, 5-7 (2006).

F. Zhang, X. Zhang, J. Yu, Q. Wang, and P. Guo, “Foundation of mathematics model of magnetorheological finishing,” Opt. Technique 26, 190-192 (2000).

D. Golini, W. I. Kordonski, P. Dumas, and S. J.Hogan, “Magnetorheological finishing (MRF) in commercial precision optics manufacturing,” Proc. SPIE 3782, 80-91 (1999).

D. Golini, S. Jacobs, W. Kordonski, and P. Dumas, “Precision optics fabrication using magnetorheological finishing,” Proc. SPIE CR67, 251-274 (1997).

H. M. Pollicove, E. M. Fess, and J. M. Schoen, “Deterministic manufacturing processes for precision optical surfaces,” Proc. SPIE 5078, 90-96 (2003).

X. Zhou, “Study on techniques in computer-controlled grinding and polishing for large and medium aspheric surfaces,” Ph.D. dissertation (National University of Defence Technology, 2007), in Chinese.

A. B. Shorey, “Mechanisms of the material removal in magnetorheological finishing (MRF) of glass,” Ph.D. dissertation (University of Rochester, 2000).

J. C. Lambropoulos, S. D. Jacobs, and J. Ruckman, “Material removal from grinding to polishing,” in *Finishing of Advanced Ceramics and Glasses*, Vol. 102 of Ceramic Glasses, R. Sabia, V. A. Greenhut, and C. G. Pantano, eds. (American Ceramic Society, 1999), pp. 113-128.

T. W. Drueding, “Precision ion figuring system for optical components,” Ph.D. dissertation (Boston University, 1995).

J. E. DeGroote, “Surface interactions between nanodiamonds and glass in magnetorheological finishing (MRF),” Ph.D. dissertation (University of Rochester, 2007).