Abstract

A shear-joint deformable mirror (DM) is important in the high-power laser systems such as the National Ignition Facility (NIF). In this paper, the print-through high-frequency aberration (PT-HIFA) that arises from adhesive curing and is corresponding to the actuator array is reported to exist in the initial surface shape of a lab-made shear-joint NIF DM. Meanwhile, experimental results show that the PT-HIFA has a great modulation on the laser intensity. This PT-HIFA could not be corrected effectively by the DM and may result in dangerous damage in the high power laser systems. In order to eliminate the PT-HIFA, we investigate the influence of the structural parameters on the PT-HIFA in a shear-joint DM through simulation and experiment. Simulational results show that the structural parameters have different influences on the PT-HIFA. In the experiment, by optimizing the structural parameters, the PT-HIFA could be eliminated in the shear-joint NIF DM and the modulation effect on the laser intensity could be removed. This investigation could help other researchers to determine appropriate structural parameters and to achieve a fine surface shape in their own shear-joint DMs.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2018 (3)

2017 (1)

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

2015 (2)

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

P. Rausch, S. Verpoort, and U. Wittrock, “Unimorph deformable mirror for space telescopes: design and manufacturing,” Opt. Express 23(15), 19469–19477 (2015).
[Crossref] [PubMed]

2014 (1)

2011 (1)

2007 (1)

C. G. Grange, J. N. Barnier, C. Chappuis, and H. Cortey, “Design principle and first results obtained on the LMJ deformable mirror prototype,” Proc. SPIE 6584, 658403 (2007).
[Crossref]

2006 (1)

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

2004 (1)

R. A. Zacharias and N. R. Beer, “Alignment and wavefront control systems of the National Ignition Facility,” Opt. Eng. 43(12), 2873–2884 (2004).
[Crossref]

2003 (1)

2002 (2)

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

2000 (2)

R. Winsor, A. Sivaramakrishnan, and R. Makidon, “Low cost membrane type deformable mirror with high density actuator spacing,” SPIE 4007, 563–572 (2000).
[Crossref]

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

1999 (2)

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

1997 (1)

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Abouhamzeh, M.

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

Alaluf, D.

An, J.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Avicola, K.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Barnier, J. N.

C. G. Grange, J. N. Barnier, C. Chappuis, and H. Cortey, “Design principle and first results obtained on the LMJ deformable mirror prototype,” Proc. SPIE 6584, 658403 (2007).
[Crossref]

Bastaits, R.

Beeman, B. V.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Beer, N. R.

R. A. Zacharias and N. R. Beer, “Alignment and wavefront control systems of the National Ignition Facility,” Opt. Eng. 43(12), 2873–2884 (2004).
[Crossref]

Benedictus, R.

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

Bissinger, H. D.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Bliss, E.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Booth, M. J.

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

Bouchez, A. H.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Bozec, X.

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

Brase, J. M.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Brown, C. G.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Bruns, D. G.

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Burda, I.

Burgy, F.

G. Cheriaux, J. Rousseau, and F. Burgy, “Monomorph large aperture adaptive optics for high peak-power femtosecond lasers,” SPIE6584, (2007).

Burns, D.

Campbell, R. D.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Care, J. L.

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

Chappuis, C.

C. G. Grange, J. N. Barnier, C. Chappuis, and H. Cortey, “Design principle and first results obtained on the LMJ deformable mirror prototype,” Proc. SPIE 6584, 658403 (2007).
[Crossref]

Cheriaux, G.

G. Cheriaux, J. Rousseau, and F. Burgy, “Monomorph large aperture adaptive optics for high peak-power femtosecond lasers,” SPIE6584, (2007).

Chin, J. C. Y.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Chu, J.

Contos, A. R.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Cortey, H.

C. G. Grange, J. N. Barnier, C. Chappuis, and H. Cortey, “Design principle and first results obtained on the LMJ deformable mirror prototype,” Proc. SPIE 6584, 658403 (2007).
[Crossref]

Coustal, P.

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

Dai, W.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Danforth, P. M.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Deng, W.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Deng, X.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Dziechciarczyk, L.

G. Vdovin, O. Soloviev, M. Loktev, S. Savenko, and L. Dziechciarczyk, “Optimal correction and feedforward control of low-order aberrations with piezoelectric and membrane deformable mirrors,” SPIE8165, (2011).

Erbert, G. V.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Feldman, M.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Friedman, H. W.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Gavel, D. T.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Girkin, J.

Grange, C. G.

C. G. Grange, J. N. Barnier, C. Chappuis, and H. Cortey, “Design principle and first results obtained on the LMJ deformable mirror prototype,” Proc. SPIE 6584, 658403 (2007).
[Crossref]

Grey, A.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Guo, Y.

Hartman, S. K.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

He, T.

Henesian, M.

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Horodinca, M.

Hu, D.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Huang, L.

Huang, W.

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

Jansen, K. M. B.

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

Jiang, Y.

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

Jing, F.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Johansson, E. M.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Juskaitis, R.

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

Kanz, K.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Koch, J.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Lafiandra, C.

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Lafon, R. E.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Lawson, J.

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Lewis, H.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Li, B.

Li, Y.

Liu, M. C.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Liu, Y.

Loktev, M.

G. Vdovin, O. Soloviev, M. Loktev, S. Savenko, and L. Dziechciarczyk, “Optimal correction and feedforward control of low-order aberrations with piezoelectric and membrane deformable mirrors,” SPIE8165, (2011).

Luo, L.

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

Ma, J.

Macintosh, B.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Makidon, R.

R. Winsor, A. Sivaramakrishnan, and R. Makidon, “Low cost membrane type deformable mirror with high density actuator spacing,” SPIE 4007, 563–572 (2000).
[Crossref]

Marsh, P.

Martic, G.

Max, C. E.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Meeker, S. R.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Michelin, J. L.

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

Mignant, D. L.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Neeb, K. P.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Neil, M. A. A.

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

Olivier, S. S.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Patience, J.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Pennington, D. M.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Prada, C. M.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Preumont, A.

Rausch, P.

Roberts, L. C.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Rodrigues, G.

Romanescu, I.

Rousseau, J.

G. Cheriaux, J. Rousseau, and F. Burgy, “Monomorph large aperture adaptive optics for high peak-power femtosecond lasers,” SPIE6584, (2007).

Sacks, R.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Salmon, T.

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Savenko, S.

G. Vdovin, O. Soloviev, M. Loktev, S. Savenko, and L. Dziechciarczyk, “Optimal correction and feedforward control of low-order aberrations with piezoelectric and membrane deformable mirrors,” SPIE8165, (2011).

Shao, C.

Shelton, J. C.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Sinke, J.

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

Sivaramakrishnan, A.

R. Winsor, A. Sivaramakrishnan, and R. Makidon, “Low cost membrane type deformable mirror with high density actuator spacing,” SPIE 4007, 563–572 (2000).
[Crossref]

Soloviev, O.

G. Vdovin, O. Soloviev, M. Loktev, S. Savenko, and L. Dziechciarczyk, “Optimal correction and feedforward control of low-order aberrations with piezoelectric and membrane deformable mirrors,” SPIE8165, (2011).

Stolz, C.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

Stomski, P. J.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Summers, D. M.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Sun, C.

Sun, L.

Sun, Z.

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

Toeppen, J.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Van Atta, L.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

van Dam, M. A.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Vdovin, G.

G. Vdovin, O. Soloviev, M. Loktev, S. Savenko, and L. Dziechciarczyk, “Optimal correction and feedforward control of low-order aberrations with piezoelectric and membrane deformable mirrors,” SPIE8165, (2011).

Verpoort, S.

Waltjen, K. E.

C. E. Max, S. S. Olivier, H. W. Friedman, J. An, K. Avicola, B. V. Beeman, H. D. Bissinger, J. M. Brase, G. V. Erbert, D. T. Gavel, K. Kanz, M. C. Liu, B. Macintosh, K. P. Neeb, J. Patience, and K. E. Waltjen, “Image improvement from a sodium-layer laser guide star adaptive optics system,” Science 277(5332), 1649–1652 (1997).
[Crossref]

Wang, D.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Wang, X.

Wang, Y.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Wei, X.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Wilson, T.

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

Winsor, R.

R. Winsor, A. Sivaramakrishnan, and R. Makidon, “Low cost membrane type deformable mirror with high density actuator spacing,” SPIE 4007, 563–572 (2000).
[Crossref]

Winters, S.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Wittrock, U.

Wizinowich, P. L.

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Woods, B.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Wu, X.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Wu, Y.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Xue, Q.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Yang, Y.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Yao, L.

L. C. Roberts, C. M. Prada, J. C. Shelton, S. R. Meeker, L. Yao, Y. Wu, and X. Wu, “Testing and characterization of deformable mirrors testing and characterization of deformable mirrors,” Proc. SPIE 10703, 1070375 (2018).

Ythier, R. M.

X. Bozec, R. M. Ythier, J. L. Care, P. Coustal, and J. L. Michelin, “Preliminary design of the cavity end deformable mirror of the Laser MégaJoule,” Proc. SPIE 3492, 693–701 (1999).
[Crossref]

Yuan, Q.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Zacharias, R.

R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
[Crossref]

R. Zacharias, E. Bliss, M. Feldman, A. Grey, M. Henesian, J. Koch, J. Lawson, R. Sacks, T. Salmon, J. Toeppen, L. Van Atta, S. Winters, B. Woods, C. Lafiandra, and D. G. Bruns, “The National Ignition Facility(NIF) wavefront control system,” Proc. SPIE 3492, 678–692 (1999).
[Crossref]

Zacharias, R. A.

R. A. Zacharias and N. R. Beer, “Alignment and wavefront control systems of the National Ignition Facility,” Opt. Eng. 43(12), 2873–2884 (2004).
[Crossref]

Zhang, X.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Zhao, J.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Zheng, W.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Zheng, Y.

Zhou, W.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Zhu, Q.

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Appl. Opt. (2)

Compos. Struct. (1)

M. Abouhamzeh, J. Sinke, K. M. B. Jansen, and R. Benedictus, “Kinetic and thermo-viscoelastic characterisation of the epoxy adhesive in GLARE,” Compos. Struct. 124, 19–28 (2015).
[Crossref]

J. Electron. Mater. (1)

Z. Sun, W. Huang, Y. Jiang, and L. Luo, “Evolution of residual-inplane stress during adhesive curing and recuring in chip-on-board packages,” J. Electron. Mater. 31(8), 887–894 (2002).
[Crossref]

Opt. Commun. (1)

D. Wang, D. Hu, Q. Yuan, Q. Xue, W. Zhou, Y. Yang, X. Zhang, X. Deng, Y. Wang, J. Zhao, W. Deng, X. Wei, W. Dai, F. Jing, Q. Zhu, and W. Zheng, “Wavefront control of main-amplifier system in the SG-III laser facility,” Opt. Commun. 394, 92–97 (2017).
[Crossref]

Opt. Eng. (1)

R. A. Zacharias and N. R. Beer, “Alignment and wavefront control systems of the National Ignition Facility,” Opt. Eng. 43(12), 2873–2884 (2004).
[Crossref]

Opt. Express (3)

Opt. Lett. (1)

PASP (1)

P. L. Wizinowich, D. L. Mignant, A. H. Bouchez, R. D. Campbell, J. C. Y. Chin, A. R. Contos, M. A. van Dam, S. K. Hartman, E. M. Johansson, R. E. Lafon, H. Lewis, P. J. Stomski, D. M. Summers, C. G. Brown, P. M. Danforth, C. E. Max, and D. M. Pennington, “The W. M. Keck Observatory laser guide star adaptive optics system: overview,” PASP 118(840), 297–309 (2006).
[Crossref]

Proc. Natl. Acad. Sci. U.S.A. (1)

M. J. Booth, M. A. A. Neil, R. Juskaitis, and T. Wilson, “Adaptive aberration correction in a confocal microscope,” Proc. Natl. Acad. Sci. U.S.A. 99(9), 5788–5792 (2002).
[Crossref] [PubMed]

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[Crossref]

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[Crossref]

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R. Zacharias, E. Bliss, S. Winters, R. Sacks, M. Feldman, A. Grey, J. Koch, C. Stolz, J. Toeppen, L. Van Atta, and B. Woods, “Wavefront control of high-power laser beams in the National Ignition Facility (NIF),” Proc. SPIE 3889, 332–343 (2000).
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SPIE (1)

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[Crossref]

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G. Cheriaux, J. Rousseau, and F. Burgy, “Monomorph large aperture adaptive optics for high peak-power femtosecond lasers,” SPIE6584, (2007).

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Figures (31)

Fig. 1
Fig. 1 Structure sketch of a butt-joint DM.
Fig. 2
Fig. 2 Structure sketch of a shear-joint NIF DM.
Fig. 3
Fig. 3 Lab-made prototypical DM. (a) DM after assembly. (b) Shear-joint detail.
Fig. 4
Fig. 4 Interferometer measurement results of the prototypical DM. PV = 777.39nm. (a) Two-dimensional color temperature diagram. (b) Three-dimensional color temperature diagram. (c) Interference fringe diagram.
Fig. 5
Fig. 5 Laser beam intensity modulated by the prototypical DM. (a) Intensity distribution on the photographic paper. (b) Intensity distribution on the camera.
Fig. 6
Fig. 6 Structural parameters in a shear-joint DM.
Fig. 7
Fig. 7 Simulational result of the prototypical DM. (HG = 12mm, HH = 12mm, DH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa). (a) Two-dimensional initial surface shape. (b) Three-dimensional initial surface shape. (c) Residual surface shape.
Fig. 8
Fig. 8 Initial surface shape with a varying mirror thickness (HG). (a) HG = 11mm. (b) HG = 12mm. (c) HG = 13mm. (d) HG = 14mm. (e) HG = 15mm. (HH = 12mm, DH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 9
Fig. 9 (a) PV values of the initial and the residual surface shape with varying mirror thickness. (b) Zernike coefficient of the initial surface shape for HG = 11mm. (c) Zernike coefficient of the initial surface shape for HG = 15mm.
Fig. 10
Fig. 10 Initial surface shape with a varying mirror thickness (HG). (a) HG = 11mm. (b) HG = 12mm. (c) HG = 13mm. (d) HG = 14mm. (e) HG = 15mm. (HH = 12mm, DH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 11
Fig. 11 Initial surface shape with varying residual stress (S). (a) S = 2MPa. (b) S = 4MPa. (c) S = 6MPa. (d) S = 8MPa. (e) S = 10MPa. (HG = 12mm, HH = 12mm, DH = 20mm, HC = 11mm, DS = 20mm).
Fig. 12
Fig. 12 (a) PV values of the initial and the residual surface shape with varying residual stress. (b) Zernike coefficient of the initial surface shape for S = 2MPa. (c) Zernike coefficient of the initial surface shape for S = 10MPa.
Fig. 13
Fig. 13 Initial surface shape with varying residual stress (S). (a) S = 2MPa. (b) S = 4MPa. (c) S = 6MPa. (d) S = 8MPa. (e) S = 10MPa. (HG = 12mm, HH = 12mm, DH = 20mm, HC = 11mm, DS = 20mm).
Fig. 14
Fig. 14 Initial surface shape with a varying post length (HH). (a) HH = 12mm. (b) HH = 15mm. (c) HH = 20mm. (d) HH = 25mm. (e) HH = 30mm. (HG = 15mm, DH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 15
Fig. 15 (a) PV values of the initial and the residual surface shape with varying post length. (b) Zernike coefficient of the initial surface shape for HH = 12mm. (c) Zernike coefficient of the initial surface shape for HH = 30mm.
Fig. 16
Fig. 16 Residual surface shape with a varying post length (HH). (a) HH = 12mm. (b) HH = 15mm. (c) HH = 20mm. (d) HH = 25mm. (e) HH = 30mm. (HG = 15mm, DH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 17
Fig. 17 Initial surface shape with a varying post diameter (DH). (a) DH = 10mm. (b) DH = 15mm. (c) DH = 20mm. (d) DH = 25mm. (e) DH = 30mm. (HG = 15mm, HH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 18
Fig. 18 (a) PV values of the initial and the residual surface shape with varying post diameter. (b) Zernike coefficient of the initial surface shape for DH = 10mm. (c) Zernike coefficient of the initial surface shape for DH = 30mm.
Fig. 19
Fig. 19 Residual surface shape with a varying post diameter (DH). (a) DH = 10mm. (b) DH = 15mm. (c) DH = 20mm. (d) DH = 25mm. (e) DH = 30mm. (HG = 15mm, HH = 20mm, HC = 11mm, DS = 20mm, S = 10MPa).
Fig. 20
Fig. 20 Initial surface shape with a varying cup length (HC). (a) HC = 15mm. (b) HC = 16mm. (c) HC = 17mm. (d) HC = 18mm. (e) HC = 19mm. (HG = 15mm, HH = 20mm, DH = 10mm, DS = 20mm, S = 10MPa).
Fig. 21
Fig. 21 (a) PV values of the initial and the residual surface shape with varying cup length. (b) Zernike coefficient of the initial surface shape for HC = 15mm. (c) Zernike coefficient of the initial surface shape for HC = 19mm.
Fig. 22
Fig. 22 Residual surface shape with a varying cup length (HC). (a) HC = 15mm. (b) HC = 16mm. (c) HC = 17mm. (d) HC = 18mm. (e) HC = 19mm. (HG = 15mm, HH = 20mm, DH = 10mm, DS = 20mm, S = 10MPa).
Fig. 23
Fig. 23 Initial surface shape with a varying spring flexure diameter (DS). (a) DS = 6mm. (b) DS = 7mm. (c) DS = 8mm. (d) DS = 9mm. (e) DS = 10mm. (HG = 15mm, HH = 20mm, DH = 10mm, HC = 8mm, S = 10MPa).
Fig. 24
Fig. 24 (a) PV values of the initial and the residual surface shape with varying spring flexure diameter. (b) Zernike coefficient of the initial surface shape for DS = 6mm. (c) Zernike coefficient of the initial surface shape for DS = 10mm.
Fig. 25
Fig. 25 Residual surface shape with a varying spring flexure diameter (DS). (a) DS = 6mm. (b) DS = 7mm. (c) DS = 8mm. (d) DS = 9mm. (e) DS = 10mm. (HG = 15mm, HH = 20mm, DH = 10mm, HC = 8mm, S = 10MPa).
Fig. 26
Fig. 26 Simulational result of the optimized DM. (HG = 15mm, HH = 20mm, DH = 10mm, HC = 8mm, DS = 6mm, S = 10MPa). (a) Two-dimensional initial surface shape. (b) Three-dimensional initial surface shape. (c) Residual surface shape.
Fig. 27
Fig. 27 Surface shapes of the DMs with a 1μm displacement in the central actuator. (a) Prototypical DM, coupling coefficiency = 10.5%. (b) Optimized DM, coupling coefficiency = 19.5%.
Fig. 28
Fig. 28 Correction ability of the prototypical DM and the optimized DM.
Fig. 29
Fig. 29 Shear-joint detail in an optimized DM.
Fig. 30
Fig. 30 Interferometer measurement results of the optimized DM. PV = 528.57nm. (a) Two-dimensional color temperature diagram. (b) Three-dimensional color temperature diagram. (c) Interference fringe diagram.
Fig. 31
Fig. 31 Laser beam intensity modulated by the optimized DM. (a) Intensity distribution on the photographic paper. (b) Intensity distribution on the camera.

Tables (4)

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Table 1 Structural parameters of the prototypical DM

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Table 2 Material parameters in finite element simulation

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Table 3 Structural parameters of the prototypical DM

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Table 4 Parameters of the optimized DM

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