Zernike generation with a non-contact, thermally actuated deformable mirror

GJM Schutten; R Saathof; JW Spronck; RH Munnig Schmidt

Zernike generation with a non-contact, thermally actuated deformable mirror

GJM Schutten, R Saathof, JW Spronck, RH Munnig Schmidt

Mechatronic Systems Design

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

Wavefront aberrations are commonly expressed in a series of orthogonal Zernike polynomial terms [1]. Each of these Zernike polynomials mathematically describes a certain typical deviation from an ideal wavefront. To correct for optical aberrations a deformable mirror must be able to actuate the shapes corresponding to these terms. This paper presents the results of experiments to actuate a deformable mirror surface, using a non-contact thermal actuation principle. Thermal radiation induces a temperature distribution on the mirror substrate which causes mirror surface deformation. In the experiments, shapes are actuated up to Z3³ with amplitudes ~ 60 [nm] and ~ 3 [nm] root mean square (RMS) shape error.

Original language	English
Title of host publication	Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden
Editors	P Shore, H Spaan, T Burke
Place of Publication	Stockholm, Sweden
Publisher	EUSPEN
Pages	439-442
Number of pages	4
ISBN (Print)	978-0-9566790-0-0
Publication status	Published - 2012
Event	12th international conference of the european society for precision engineering and nanotechnology (euspen), Stockholm, Sweden - Stockholm, Sweden Duration: 4 Jun 2012 → 7 Jun 2012

Publication series

Name
Publisher	Euspen

Name
Volume	1

Conference

Conference	12th international conference of the european society for precision engineering and nanotechnology (euspen), Stockholm, Sweden
Period	4/06/12 → 7/06/12

Keywords

conference contrib. refereed
Conf.proc. > 3 pag

Cite this

Schutten, GJM., Saathof, R., Spronck, JW., & Munnig Schmidt, RH. (2012). Zernike generation with a non-contact, thermally actuated deformable mirror. In P. Shore, H. Spaan, & T. Burke (Eds.), Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden (pp. 439-442). EUSPEN.

Schutten, GJM ; Saathof, R ; Spronck, JW et al. / Zernike generation with a non-contact, thermally actuated deformable mirror. Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden. editor / P Shore ; H Spaan ; T Burke. Stockholm, Sweden : EUSPEN, 2012. pp. 439-442

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title = "Zernike generation with a non-contact, thermally actuated deformable mirror",

abstract = "Wavefront aberrations are commonly expressed in a series of orthogonal Zernike polynomial terms [1]. Each of these Zernike polynomials mathematically describes a certain typical deviation from an ideal wavefront. To correct for optical aberrations a deformable mirror must be able to actuate the shapes corresponding to these terms. This paper presents the results of experiments to actuate a deformable mirror surface, using a non-contact thermal actuation principle. Thermal radiation induces a temperature distribution on the mirror substrate which causes mirror surface deformation. In the experiments, shapes are actuated up to Z3³ with amplitudes ~ 60 [nm] and ~ 3 [nm] root mean square (RMS) shape error.",

keywords = "conference contrib. refereed, Conf.proc. > 3 pag",

author = "GJM Schutten and R Saathof and JW Spronck and {Munnig Schmidt}, RH",

year = "2012",

language = "English",

isbn = "978-0-9566790-0-0",

publisher = "EUSPEN",

pages = "439--442",

editor = "P Shore and H Spaan and T Burke",

booktitle = "Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden",

note = "12th international conference of the european society for precision engineering and nanotechnology (euspen), Stockholm, Sweden ; Conference date: 04-06-2012 Through 07-06-2012",

}

Schutten, GJM, Saathof, R , Spronck, JW & Munnig Schmidt, RH 2012, Zernike generation with a non-contact, thermally actuated deformable mirror. in P Shore, H Spaan & T Burke (eds), Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden. EUSPEN, Stockholm, Sweden, pp. 439-442, 12th international conference of the european society for precision engineering and nanotechnology (euspen), Stockholm, Sweden, 4/06/12.

Zernike generation with a non-contact, thermally actuated deformable mirror. / Schutten, GJM; Saathof, R ; Spronck, JW et al.
Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden. ed. / P Shore; H Spaan; T Burke. Stockholm, Sweden: EUSPEN, 2012. p. 439-442.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Zernike generation with a non-contact, thermally actuated deformable mirror

AU - Schutten, GJM

AU - Saathof, R

AU - Spronck, JW

AU - Munnig Schmidt, RH

PY - 2012

Y1 - 2012

N2 - Wavefront aberrations are commonly expressed in a series of orthogonal Zernike polynomial terms [1]. Each of these Zernike polynomials mathematically describes a certain typical deviation from an ideal wavefront. To correct for optical aberrations a deformable mirror must be able to actuate the shapes corresponding to these terms. This paper presents the results of experiments to actuate a deformable mirror surface, using a non-contact thermal actuation principle. Thermal radiation induces a temperature distribution on the mirror substrate which causes mirror surface deformation. In the experiments, shapes are actuated up to Z3³ with amplitudes ~ 60 [nm] and ~ 3 [nm] root mean square (RMS) shape error.

AB - Wavefront aberrations are commonly expressed in a series of orthogonal Zernike polynomial terms [1]. Each of these Zernike polynomials mathematically describes a certain typical deviation from an ideal wavefront. To correct for optical aberrations a deformable mirror must be able to actuate the shapes corresponding to these terms. This paper presents the results of experiments to actuate a deformable mirror surface, using a non-contact thermal actuation principle. Thermal radiation induces a temperature distribution on the mirror substrate which causes mirror surface deformation. In the experiments, shapes are actuated up to Z3³ with amplitudes ~ 60 [nm] and ~ 3 [nm] root mean square (RMS) shape error.

KW - conference contrib. refereed

KW - Conf.proc. > 3 pag

M3 - Conference contribution

SN - 978-0-9566790-0-0

SP - 439

EP - 442

BT - Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden

A2 - Shore, P

A2 - Spaan, H

A2 - Burke, T

PB - EUSPEN

CY - Stockholm, Sweden

T2 - 12th international conference of the european society for precision engineering and nanotechnology (euspen), Stockholm, Sweden

Y2 - 4 June 2012 through 7 June 2012

ER -

Schutten GJM, Saathof R , Spronck JW, Munnig Schmidt RH. Zernike generation with a non-contact, thermally actuated deformable mirror. In Shore P, Spaan H, Burke T, editors, Proceedings of the 12th international conference of the european society for precision engineering and nanotechnology (euspen), June 4th-7th 2012, Stockholm, Sweden. Stockholm, Sweden: EUSPEN. 2012. p. 439-442

Zernike generation with a non-contact, thermally actuated deformable mirror

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Publication series

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