Freeform imaging systems: Fermat’s principle unlocks “first time right” design

[1]  Rafael G. González-Acuña,et al.  Analytic solution of the eikonal for a stigmatic singlet lens , 2020, Physica Scripta.

[2]  Bernard C. Kress,et al.  Optical Architectures for Augmented-, Virtual-, and Mixed-Reality Headsets , 2020 .

[3]  G. Druart,et al.  An exploration of the freeform two-mirror off-axis solution space , 2019, Journal of Physics: Photonics.

[4]  Herbert Gross,et al.  Obscuration elimination in three-dimensional nonsymmetrical optical systems , 2019 .

[5]  Thierry Lépine,et al.  Comparing optimization algorithms for conventional and freeform optical design: erratum. , 2019, Optics express.

[6]  Chen Xu,et al.  Automatic optical path configuration variation in off-axis mirror system design. , 2019, Optics express.

[7]  G. Druart,et al.  Differential method for freeform optics applied to two-mirror off-axis telescope design. , 2019, Optics letters.

[8]  Furkan E. Sahin Open-source optimization algorithms for optical design , 2019, Optik.

[9]  T. Lépine,et al.  Comparing optimization algorithms for conventional and freeform optical design. , 2019, Optics express.

[10]  Antony Orth,et al.  Two-photon polymerisation 3D printed freeform micro-optics for optical coherence tomography fibre probes , 2018, Scientific Reports.

[11]  Jannick P. Rolland,et al.  Three-mirror freeform imagers , 2018, Optical Systems Design.

[12]  Christoph Menke,et al.  Application of particle swarm optimization to the automatic design of optical systems , 2018, Optical Systems Design.

[13]  Jose Sasian,et al.  Method for the design of nonaxially symmetric optical systems using free-form surfaces , 2018 .

[14]  Jannick P Rolland,et al.  Starting geometry creation and design method for freeform optics , 2018, Nature Communications.

[15]  E. Hugot,et al.  Innovative focal plane design for large space telescope using freeform mirrors , 2017 .

[16]  Rongguang Liang,et al.  IR-laser assisted additive freeform optics manufacturing , 2017, Scientific Reports.

[17]  Fabian Duerr,et al.  Freeform optical design for a nonscanning corneal imaging system with a convexly curved image. , 2017, Applied optics.

[18]  Stewart Wills,et al.  Freeform Optics: Notes from the Revolution , 2017 .

[19]  AVID,et al.  Combining freeform optics and curved detectors for wide field imaging : a polynomial approach over squared aperture , 2017 .

[20]  Guo-Fan Jin,et al.  Automated design of freeform imaging systems , 2017, Light: Science & Applications.

[21]  Herbert Gross,et al.  Initial system design method for non-rotationally symmetric systems based on Gaussian brackets and Nodal aberration theory. , 2017, Optics express.

[22]  José Sasián,et al.  Algorithm for designing free-form imaging optics with nonrational B-spline surfaces. , 2017, Applied optics.

[23]  Mark.,et al.  Notes From a Revolution , 2017 .

[24]  K. Thompson,et al.  Freeform spectrometer enabling increased compactness , 2017, Light: Science & Applications.

[25]  Ulrike Fuchs,et al.  Discussing design for manufacturability for two freeform imaging systems , 2016, Optical Engineering + Applications.

[26]  Haodong Shi,et al.  Analysis of nodal aberration properties in off-axis freeform system design. , 2016, Applied optics.

[27]  Harald Giessen,et al.  Two-photon direct laser writing of ultracompact multi-lens objectives , 2016, Nature Photonics.

[28]  Michael P. Chrisp,et al.  Imaging freeform optical systems designed with NURBS surfaces , 2016 .

[29]  H. Giessen,et al.  Sub-micrometre accurate free-form optics by three-dimensional printing on single-mode fibres , 2016, Nature Communications.

[30]  Amauri Silva Montes,et al.  Multi-objective approach for the automatic design of optical systems. , 2016, Optics express.

[31]  Sven Kiontke,et al.  Monolithic freeform element , 2015, SPIE Optical Engineering + Applications.

[32]  Wei Zhang,et al.  Miniature adjustable-focus endoscope with a solid electrically tunable lens. , 2015, Optics express.

[33]  D. M. Williamson Freeforms in EUV Lithography Projection Optics , 2015 .

[34]  Guofan Jin,et al.  Nodal aberration properties of coaxial imaging systems using Zernike polynomial surfaces. , 2015, Journal of the Optical Society of America. A, Optics, image science, and vision.

[35]  B. Said-Houari Power Series Solution , 2015 .

[36]  Pablo Benítez,et al.  Single freeform surface imaging design with unconstrained object to image mapping. , 2014, Optics express.

[37]  Hao Zhu,et al.  Design of a dual-band MWIR/LWIR circular unobscured three-mirror optical system with Zernike polynomial surfaces , 2014, Photonics Asia.

[38]  Christopher B Croke,et al.  Solution to the bundle-to-bundle mapping problem of geometric optics using four freeform reflectors. , 2014, Journal of the Optical Society of America. A, Optics, image science, and vision.

[39]  Tong Yang,et al.  Design method of freeform off-axis reflective imaging systems with a direct construction process. , 2014, Optics express.

[40]  Fengzhou Fang,et al.  Manufacturing and measurement of freeform optics , 2013 .

[41]  Kyle Fuerschbach,et al.  Extending nodal aberration theory to include mount-induced aberrations with application to freeform surfaces. , 2012, Optics express.

[42]  Jannick P. Rolland,et al.  Freeform Optical Surfaces: A Revolution in Imaging Optical Design , 2012 .

[43]  Hugo Thienpont,et al.  Analytic free-form lens design in 3D: coupling three ray sets using two lens surfaces. , 2012, Optics express.

[44]  Hugo Thienpont,et al.  Analytic design method for optimal imaging: coupling three ray sets using two free-form lens profiles. , 2012, Optics express.

[45]  K. Thompson,et al.  A new family of optical systems employing φ-polynomial surfaces. , 2011, Optics express.

[46]  Scott Partnership Optical simulation software , 2010 .

[47]  C. Wagner,et al.  EUV lithography: Lithography gets extreme , 2010 .

[48]  Kevin P Thompson,et al.  Multinodal fifth-order optical aberrations of optical systems without rotational symmetry: the comatic aberrations. , 2010, Journal of the Optical Society of America. A, Optics, image science, and vision.

[49]  F. Bociort,et al.  Instabilities and fractal basins of attraction in optical system optimization. , 2009, Optics express.

[50]  Kevin P Thompson,et al.  Multinodal fifth-order optical aberrations of optical systems without rotational symmetry: spherical aberration. , 2009, Journal of the Optical Society of America. A, Optics, image science, and vision.

[51]  R Andrew Hicks,et al.  Controlling a ray bundle with a free-form reflector. , 2008, Optics letters.

[52]  Herbert Gross,et al.  Aberration theory and correction of optical systems , 2007 .

[53]  Herbert Gross,et al.  Handbook of Optical Systems: Volume 3: Aberration Theory and Correction of Optical Systems , 2006 .

[54]  K. Thompson Description of the third-order optical aberrations of near-circular pupil optical systems without symmetry. , 2005, Journal of the Optical Society of America. A, Optics, image science, and vision.

[55]  Julio Chaves,et al.  Simultaneous multiple surface optical design method in three dimensions , 2004 .

[56]  Brian Matsumoto,et al.  Spherical Aberration , 2003 .

[57]  Andrew Rakich,et al.  Method for deriving the complete solution set for three-mirror anastigmatic telescopes with two spherical mirrors. , 2002, Journal of the Optical Society of America. A, Optics, image science, and vision.

[58]  B D Stone,et al.  Imaging with three spherical mirrors. , 2000, Applied optics.

[59]  B D Stone,et al.  Imaging with four spherical mirrors. , 2000, Applied optics.

[60]  Robert Rennie Shannon,et al.  The Art and Science of Optical Design , 1997 .

[61]  Charles L. Lawson,et al.  Solving least squares problems , 1976, Classics in applied mathematics.

[62]  R. Barry Johnson,et al.  A historical perspective on understanding optical aberrations , 1992, LASE.

[63]  G. Turner,et al.  The History of Optical Instruments , 1969, History of science; an annual review of literature, research and teaching.

[64]  Richard Barakat,et al.  The Aberrations of Non-rotationally Symmetric Systems and Their Diffraction Effects , 1966 .

[65]  Donald P. Feder,et al.  Automatic Optical Design , 1963 .

[66]  Francis R. Maddison,et al.  Early Astronomical and Mathematical Instruments , 1963 .