CURRICULUM VITAE
`
`JOSE SASIAN
`
`CONTACT INFORMATION
`
`College of Optical Sciences
`University of Arizona
`Tucson, AZ 85721
`Tel: (520) 621 3733
`Fax: (520 621 3389
`E-mail: jose.sasian@optics.arizona.edu
`Web: http://www.optics.arizona.edu/Faculty/Resumes/Sasian.htm
`
`PROFESSIONAL AND RESEARCH INTERESTS
`
`Education and teaching optical sciences. Optical engineering in general. Optical
`instrumentation, optical design, optical fabrication and testing, illumination optics,
`astronomical optics, diffractive optics, opto-mechanical design, lithography optics, Optics
`in art and art in optics, light in gemstones and light propagation as a general subject.
`
`CHRONOLOGY OF EMPLOYMENT
`
` Professor of Optics and Astronomy, University of Arizona, 2001 to date.
` Associate Professor, University of Arizona, 1995 to 2001.
` Member of Technical Staff, AT&T Bell Laboratories, 1990-1995.
` Research Associate, University of Arizona, Optical Sciences Center, 1989-1990.
` Research Assistant, University of Arizona, Optical Sciences Center, 1984-1988.
` Optician, University of Mexico, Institute of Astronomy, Mexico, 1974-1984.
`
`CHRONOLOGY OF EDUCATION
`
` Ph. D. Optical Sciences, December 1988. University of Arizona
` Master of Science, May 1987. University of Arizona
` B. Sc. Physics, October 1982. University of Mexico (UNAM)
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`Curriculum Vitae
`Jose Sasian
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`SPECIAL ACHIEVEMENTS
`
`
` Committee member of OSA Kevin Thompson Award, 2018-2019
` Committee member, evaluation of the School of Opto-electronics at the Beijing Institute
`of Technology, 2017.
` Chair, “Optical System Alignment, Tolerancing and verification” SPIE Conference,
`2007-2019
` Member of the OSA and SPIE “Joseph Goodman Book Award” committee 2006-2008
` Topical Editor Applied Optics, 1998 to 2004
` Chair, “Novel Optical Systems Design and Optimization” SPIE Conference, 1995-2006
` Co Chair, “International Optical Design Conference,” 2002
` Co Chair, “Optical design and Testing Conference,” Shanghai, China 2002
` Co Chair, “Optical design and Testing Conference,” Beijing, China 2004
`
`Institute National for Astrophysics, Optics and Electronics (INAOE), Mexico, External
`Evaluating Committee, member 1996-2002
` Center for Research in optics (CIO), Mexico, External Evaluating Committee, member
`2001 to 2004.
` Committee member of OSA Joseph Goodman Award, 2010
` Committee member of OSA Joseph Franhoufer Medal, 2004
` Committee member of OSA Adolph Lomb Medal, 1997
` Capella Photonics, Technical Advisory board member, 2001-2003
` ETEC, Technical Advisory board member, 1998
` Rudolf Kingslake medal and prize, 1994, International Society for Optical Engineering
` Merit award, Riverside Telescope Makers Conference, 1988
`
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`PROFESSIONAL AFFILIATIONS
`
`
` Fellow of the International Society for Optical Engineering
` Optical Society of India, Lifetime member
` Fellow of the Optical Society of America
`
`
`OPTICS COURSES
`
`
` Lens Design OPTI-517 (1997-present)
`
`Introduction to Aberrations OPTI-518 (2005-present)
` Optical Shop Practices OPTI-597A (1996-present)
` Advanced Lens Design OPTI-696A (2008, 2012, 2017, 2018)
`
`Introduction to Opto-Mechanical Design OPTI-690 (1996-2000)
`
`Illumination optics Seminar (1997-2000)
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`Curriculum Vitae
`Jose Sasian
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`SPECIAL COURSES
`
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` Advanced Lens Design, CORE Utsonomya University, Japan 2014.
` Advanced Lens Design, CORE Utsonomya University, Japan 2016
` Advanced Lens Design, CORE Utsonomya University, Japan 2017
` Lens Design, LAPAN, Indonesia, 2017.
` Optical Engineering, Photonic Sensors and Algorithms, Spain, 2017
` Mirror System Design with Freeform Surfaces, SPIE 2019
`
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`GRADUATED STUDENTS 1996-2019
`
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`1. Zhenye Li, “Study of Fisheye Lens Attachments for Mobile Phone Lenses,” M.Sc., 2019.
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`2. Vanesa Ayala-Miranda, “Report for Aberrations as Functions of the Shape Factor,
`Conjugate Factor, and Index of Refraction,” M.Sc., 2019.
`
`3. Timothy Johnson, “Optical System Design and Distortion Control of Wide Field of View,
`All-Reflective Imagers,” Ph.D. 2019.
`
`4. Wei-Cheng Lai, “Designing a 3D Confocal System,” M.Sc. 2019.
`
`5. Xi Zhou, “A 7.5X Afocal Zoom Lens Design and Kernel Aberration Correction Using
`Reversed Ray Tracing Methods,” M.Sc., 2019.
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`6. Yufeng, Yan, “Selected Topics in Novel Optical Design,” Ph.D., 2019.
`
`7. Alex Felli, “Folded fisheye lens design for compact 360-dgree virtual reality camera,”
`M.Sc. 2018.
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`8. Slater Kirk, “Astigmatism in systems with double plane symmetry,” M.Sc. 2018.
`
`9. Ying Ting Liu, “Review and Design of a Mobile Phone Camera Lens for 21.4 Mega-
`Pixels Image Sensor,” M. Sc. Report, 2017.
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`10. Haosheng Hu, “Report for Reflective System Designs Based on Freeform Mirrors,” M.
`Sc. Thesis, 2017.
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`11. Luxin Nie, “Patent Review of Miniature Camera Lenses,” M. Sc. Report, 2017.
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`12. Clarissa Kenney Wylde, “The Art of Optical Aberrations,” M. Sc. Thesis, 2017.
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`13. Ruijuan Niu, “Overview of Microscope Objective Design,” M. Sc. Thesis, 2017.
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`Curriculum Vitae
`Jose Sasian
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`14. Yufeng Yan, M. Sc. Thesis, “Photographic Fisheye Lens Design for 35 mm Format
`Cameras,” 2016.
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`15. Jesse Ball, M.Sc. Thesis, “NCPA Optimizations at Gemini North using
`Focal Plane Sharpening,” 2016.
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`16. Gong Chen, M. Sc. Report “Design of a large a large working are F-theta lens,” 2016.
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`17. Emily Heaton, M.Sc. Report, “Interferometric Methods for Aligning and Measuring Test
`Surfaces,” 2016.
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`18. Andrew McCarron, M.Sc. Report, “Long wave infrared scan lens design and distortion
`correction,” 2016.
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`19. Taylor Davis Sorensen, M.Sc. “SWIR/MWIR Objective Lens,” Report 2016.
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`20. Rhiannon Katarina Jenkins, M.Sc. “MTF Lens Evaluation,” Report 2016.
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`21. Dmitry Reshidko, Ph.D. “Topics in Modern Lens Design,” Dissertation, 2016
`
`22. Douglas, “Shadow Imaging of Geosynchronous Satellites,” Ph.D. Dissertation 2014.
`
`23. Lori Ann Moore, “Plenoptic Cameras, Shack-Harman Wavefront Sensors, and Related
`Lens Array Based Optical Systems,” Ph.D. Dissertation 2014.
`
`24. Yuhao Wang, “Advanced Theory of Field Curvature.” Ph.D. Dissertation 2014.
`
`25. Adam Persia, M. Sc. Report 2014.
`
`26. Eric Herman, M. Sc Report 2014.
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`27. Akash Arora, M. Sc. Report 2014.
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`28. Mary Liang, Design of Custom Chromatic Reimaging Optics,” Ms. Sc. Thesis 2013.
`
`29. Oscar Martinez, “A Systematic Approach to Glass Selection for Complex Optical
`Systems.” Ms. SC. Thesis 2012.
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`30. Takashi Nakazawa, “Optical profilers,” Ph. D. Dissertation 2011.
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`31. Manit M. Limlamai, “ Optical systems in microlithography,” M. Sc. Report 2011.
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`Curriculum Vitae
`Jose Sasian
`32. Lirong Wang, “Design, modeling, and testing of optical surfaces in illumination optics,”
`Ph. D. Dissertation, 2010.
`
`33. Stacy Munger, “Spherical Aberration Study,” M. Sc. Thesis, 2010.
`
`34. Rong Lui, M. Sc. Report, 2010.
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`35. Ernest Fasse, “Image Motion Compensation,” M. Sc. Report, 2010.
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`36. Cheng Kuei-Yeh, “Cell phone zoom lens design and patent research,” M. Sc. Report, 2010.
`
`37. Rania Abd El-Maksoud, “Ghost image analysis in Optical Systems,” Ph.D. Dissertation,
`2009.
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`38. Ralph Shepard, “Optical Design with Negative Index Materials,” Ph. D. Dissertation,
`2009.
`
`39. Gerard Desroches, “Optical Design with Liquids,” M. Sc. Report 2009.
`
`40. Ryan Irving, “Optical Systems Design Considerations for Infrared Applications,” M. Sc.
`Report, 2009.
`
`41. Rachel Haynes, “Transferring FEA results into an optical design program,” M. Sc. Report
`2009.
`
`42. Tim Johnson, “Optical design and analysis of an X-ray telescope and reflection grating
`spectrometer system,” M. Sc. Report 2009.
`
`43. Jacob Egan, “Design of a space-based optical camera for an asteroid sample return
`mission,” M. Sc. Report, 2009.
`
`44. Sheng Yuan, “Aberrations of Anamorphic Optical Systems,” Ph. D. Dissertation. 2008.
`
`45. Rob Bates, “Design for Fabrication: Miniature Camera Lens Case Study,” M. Sc. Report,
`2008.
`
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`46. Alice Palmer, “Multiple Aperture Telescope Collector Considerations,” M. Sc. Report,
`2008.
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`47. Ming Lie, “Optics Industry Comparison between United States of America and People’s
`Republic of China, M. Sc. Report 2008.
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`Curriculum Vitae
`Jose Sasian
`48. George Duckett, “Fourth and Sixth-Order wavefront aberrations of common lens
`systems,” M. Sc. Report, 2008.
`
`49. Andrei Kazmierski, “Design and analysis of a confocal microscope utilizing and
`incoherent light source and reflective spatial light modulator,” M. Sc. Thesis 2008.
`
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`50. Jay Perlin, “Recent developments in optical fabrication,” M. Sc. Report, 2007.
`
`51. Chao-Wen Liang, “The grating-slit test,” Ph. D. Dissertation, 2006.
`
`52. Stevie Smith, “Examples of Lens Behavior Statistics under Fabrication Errors. M. Sc.
`Thesis, 2006.
`
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`53. Robert Sprowl, “Optical Testing,” M. Sc. Report, 2006.
`
`54. Kevin O’Shea, Lens Design Approach to Optical Relays,” M. Sc. Thesis, 2005.
`
`55. Josh Hudman, “Analysis of an Off-Axis Null Corrector and the Characterization of a 1
`Meter Liquid Flat, M. Sc. 2005.
`
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`56. Marguerite Green, “History of ray tracing algorithms,” M. Sc. 2004.
`
`57. Corrin Wilson, “Tracing rays through Double-Clad fibers to characterize absorption
`efficiency,” M. Sc. 2004.
`
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`58. Iwonka Palusinski, ‘Advances in Null Corrector Design and Certification,’ Ph. D.
`Dissertation, 2003.
`
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`59. Lenny Laughlin, “Optical Source modeling,” M. Sc. Report, 2003.
`
`60. Ryan Eckman,“Lens Design Requirements for CCD Imaging,” M. Sc. Thesis, 2003.
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`61. David Knap, “Conformal Optical Design,’ Ph. D. Dissertation, 2002.
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`62. Matt Dubin, ‘Polychromatic Image Noise in Rear Projection Screens,’ Ph. D.
`Dissertation, 2002.
`
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`63. Holden Chase, M. Sc. ‘Optical Design with Rotationally Symmetric Nurbs,’ M. Sc.
`Thesis, 2001.
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`64. McCarthy, Patrick L. M. Sc. “Aspheric optics,” Report, 2001.
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`Curriculum Vitae
`Jose Sasian
`65. Rex Kremer, M. Sc. ‘Null Corrector Design for White Light Scatter-plate Interferometry
`on a Large Conic Surface,’ M. Sc. Thesis, 2001.
`
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`66. Tony Lin, M. Sc. “Lens Design Guidelines for Coherence Studies in the Optical Design
`of a Lithographic System,” M. Sc. Thesis, 2001.
`
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`67. Scott Lerner, ‘Optical Design Using Novel Aspheric Surfaces,’ Ph. D. Dissertation, 2000.
`
`68. Rick Bomber, M. Sc. ‘Design of video camera lenses,’ M. Sc. Report, 2000.
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`69. Mike Pate, M. Sc. “Optical design of riflescopes,” M. Sc. Report, 2000.
`
`70. Scott Ellis, Ph. D., ‘The Optics of Ellipsoidal Domes,’ Ph. D. Dissertation, 1999.
`
`71. Jeremie Jackson, M. Sc. “Fiber optical amplifiers,” M. Sc. Report, 1999.
`
`72. Tom Mitchel, ‘Aberration Generation with Translating Aspheric Plates,’ M. Sc. Thesis,
`1998.
`
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`73. Rob Johnson, M. Sc., ‘Influence of pupil Aberration on the Relative Illumination of
`Optical Systems,’ M. Sc. Thesis, 1998.
`
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`74. Roland Sarlot, M. Sc., ‘Design Considerations for a Virtual Reality Retinal Scanning
`Device,’ M. Sc. Thesis, 1997
`
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`75. Scott Sparrold, M. Sc. ‘Correcting Dynamic Third-Order Astigmatism in Conformal
`Missile Domes with Gimbaled Seekers,’ M. Sc. Thesis, 1997.
`
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`76. Matt Novak, M. Sc., ‘Wavefront Deformation of Conformal Surfaces,’ M. Sc. Thesis,
`1997.
`
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`77. Jose Torres, M. Sc. ‘Opto-mechanical design of windows,” M. Sc. Report, 1996.
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`JOURNAL PUBLICATIONS
`
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`
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`1. Sasián, José, “Method of confocal mirror design,” Optical Engineering;
`10.1117/1.OE.58.1.015101; 2019.
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`2. Yufeng Yan, Xiaobo Tian, Rongguang Liang, and Jose Sasian, "Optical performance
`evaluation and chromatic aberration correction of a focus tunable lens used for 3D
`microscopy," Biomed. Opt. Express 10, 6029-6042, 2019.
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`Curriculum Vitae
`Jose Sasian
`3. W. Gao, R. N. Youngworth, J. Sasian, “Method to evaluate surface figure error
`budget for optical systems,’ Optical Engineering, 57(10), 10.1117/1.OE.58.1.015101;
`2019.
`
`4. Miguel Olvera-Angeles, Alfonso Padilla-Vivanco, José Sasian, Jim Schwiegerling,
`Justo Arines and Eva Acosta ,“Effect of spherical aberration in trefoil phase plates on
`color wavefront coding,” Japanese Journal of Applied Physics, Volume 57, Number
`8S2, 2018.
`
`5. Dmitry Reshidko, Jose Sasian, “Method for the design of nonaxially symmetric
`optical systems using free-form surfaces,” Optical Engineering, 57(10), 101704
`(2018).
`6. Rengmao Wu, José Sasián, and Rongguang Liang, “Algorithm for designing free-
`form imaging optics with nonrational B-spline surfaces,” Applied Optics, Vol. 56 (9),
`pp. 2517-2522, (2017).
`
`7. Dmitry Reshidko, Jose Sasian, “Geometrical irradiance changes in a symmetric
`optical
`system,”
`Optical
`Engineering,
`56(1),
`015104
`(2017).
`doi:10.1117/1.OE.56.1.015104
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`8. Jose Sasian; Weichuan Gao and Yufeng Yan, “Method to design apochromat and
`superachromat objectives,”
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`9. Optical Engineering, 56(10), 105106 (2017). doi:10.1117/1.OE.56.10.105106
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`10. Yufeng Yan; Jose Sasian, “Photographic zoom fisheye lens design for DSLR
`cameras,” Optical Engineering, 56(9), 095103 (2017). i:10.1117/1.OE.56.9.095103
`
`11. D. Reshidko and J. Sasian, “Role of aberrations in the relative illumination of a lens
`system,”
`-
`Opt.
`Eng.
`55(11),
`115105
`(Nov
`29,
`2016).
`doi:10.1117/1.OE.55.11.115105.
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`12. Jose Sasian, Dmitry Reshidko, and Chia-Ling Li, “Aspheric/freeform optical surface
`description for controlling illumination from point-like light sources,” Opt. Eng.
`55(11), 115104 (Nov 25, 2016). doi:10.1117/1.OE.55.11.115104.
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`13. Sara Chamadoira, Jose Sasian, Eva Acosta, “Interferometric Local Measurements of High-
`Order Aberrations in Progressive Addition Lenses,” Optom. Vis. Sci. Nov; 92(11):1047-55,
`2015.
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`14. Dmitry Reshidko, Jose Sasian, “Optical analysis of miniature lenses with curved imaging
`surfaces,” Appl. Opt. Oct. 54(28):E216-23, 2015.
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`Curriculum Vitae
`Jose Sasian
`15. Eric Herman, Jose Sasian, “Aberration considerations in lens tolerancing,” Appl. Opt.
`53(3):341. January 2014.
`
`16. Jose Sasian, Eva Acosta, “Generation of spherical aberration with axially translating
`phase plates via extrinsic aberration,” Opt. Express 2014 Jan; 22(1):289-294.
`
`17. Chia-Ling Li and Jose Sasian “Adaptive dispersion formula for index interpolation
`and chromatic aberration correction,” Opt Express 2014 Jan; 22(1):1193-202.
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`18. Eva Acosta and Jose Sasian, “Micro-Alvarez lenses for a tunable-dynamic-range
`Shack–Hartmann wavefront sensor,” Japanese Journal of Applied Physics, Volume
`53 Number 8S2, 2014.
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`19. Sukmock Lee, Byongoh Kim, Jiyeon Lee, and Jose Sasian, “Accurate determination
`of distortion for smart phone cameras,” Applied Optics, Vol. 53, Issue 29, pp. H1-H6
`(2014)
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`20. Lucimara Cristina Nakata Scaduto, Jose Sasian, Mario Antonio Stefani, and Jarbas
`Caiado de Castro Neto, “Two-mirror telescope design with third-order coma
`insensitive to decenter misalignment,” Optics Express, Vol. 21, Issue 6, pp. 6851-
`6865 (2013).
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`21. Tamer T. Elazhary, Masatsugu Nakano, and José Sasián , “Hyper numerical aperture
`imaging lens using a thin multi reflection Catadioptric optical element,”Optics
`Express, Vol. 21, Issue 13, pp. 15809-15814 (2013).
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`22. Braulio Fonseca Carneiro de Albuquerque Jose Sasian, Fabiano Luis de Sousa, and
`Amauri Silva Montes, “Method of glass selection for color correction in optical
`system design,” Optics Express, Vol. 20, Issue 13, pp. 13592-13611 (2012).
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`23. Lin-Yao Liao, F.C. Bráulio de Albuquerque, Robert E. Parks and José M. Sasian,
`“Precision
`focal-length measurement using
`imaging Conjugates,” Optical
`Engineering 113604-1 /Vol. 51(11), 2012.
`
`24. Rania H. Abd El-Maksoud, Matthias Hillenbrand, Stefan Sinzinger and Jose Sasian,
`“Optical performance of coherent and incoherent imaging systems in the presence of
`ghost images,”Appl. Opt. Vol. 51, No. 30 / 20, 2012.
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`25. Eva Acosta, and Jose Sasian, “Phase plates for generation of variable amounts of
`primary spherical aberration,” OPTICS EXPRESS Volume: 19 , Issue: 14 , Pages:
`13171-13178 , July 4 2011.
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`Curriculum Vitae
`Jose Sasian
`26. Design of a wide-angle, lightweight head-mounted display using free-form optics
`tiling Cheng Dewen; Wang Yongtian; Hua Hong; et al. OPTICS LETTERS Volume:
`36 Issue: 11 Pages: 2098-2100 June 2011.
`
`27. Chun-Che Hsueh, Tamer Elazhary, Masatsugu Nakano and Jose Sasian, “Closed-
`form sag solutions for Cartesian oval surfaces,”
`, Journal of Optics DOI:
`10.1007/s12596-011-0050-0, 2011.
`
`28. El-Maksoud R.H.A.; Sasian J., “Modeling and analyzing ghost images for incoherent
`optical systems,” Applied Optics Volume: 50 Issue: 15 Pages: 2305-15 DOI:
`10.1364/AO.50.002305, 20 May 2011
`
`29. Nakazawa Takeshi; Sasian Jose; Abraham Francy, “ High-speed inline profiler using
`a modified Fourier transform method for measuring integrated circuit surface profiles
`,” Optical Engineering Volume: 50 Issue: 5 Article Number: 053603 DOI:
`10.1117/1. May 2011.
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`30. Hsueh, Chun-Che, Ling, Psang Dain, J. Sasián, “Worst-case-based methodology for
`tolerance analysis and tolerance allocation of optical systems,” Applied Optics, v 49,
`n 31, p 6179-6188, 2010.
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`31. Chao-Wen, Liang, Ou, Chien-Fu, J. Sasian, “Phase shifting grating-slit test with a
`cross slit, Optics Letters, v 35, n 4, p 496-498, 2010.
`
`32. Yuan, Sheng, J. Sasian, “Aberrations of anamorphic optical systems III: The primary
`aberrations theory for toroidal anamorphic systems,” Applied Optics, v 49, n 35, p
`6802-6807, 2010.
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`33. J. Sasian, “Theory of sixth-order wave aberrations,” Applied Optics, Vol. 49, Issue
`16, pp. D69-D95 (2010).
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`34. J. Sasian, “Erratum: Theory of sixth-order wave aberrations,” Applied Optics, Vol.
`49, n 33, pp. 5603-6503 (2010).
`
`35. S. Yuan and J. Sasian, “Aberrations of anamorphic optical systems. II. primary
`aberration theory for cylindrical anamorphic systems,” Applied Optics, v 48, n 15, p
`2836-2841, May 20, 2009.
`
`36. S. Yuan and J. Sasian, “Aberrations of anamorphic optical systems. I: The first-order
`foundation and method for deriving the anamorphic primary aberration coefficients,”
`Applied Optics, v 48, n 13, p 2574-2584, May 1, 2009.
`
`37. Y. Bo, Y. Wang, Y. Lie, J. Sasian, J. Koshel, “ Efficient ray-tracing for free-form
`reflectors,” Optik, v 120, n 1, p 40-44, January 2009.
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`Curriculum Vitae
`Jose Sasian
`38. L. Sukmock and J. Sasian, “Ronchigram quantification via a non-complementary
`dark-space effect,” Optics Express, v 17, n 3, p 1854-1858, February 2, 2009.
`
`39. L. Moore, A. Hvisc, and J. Sasian, “Aberration fields of a combination of plane
`symmetric systems” Optics Express, Vol. 16, Issue 20, pp. 15655-15670, (2008).
`
`40. J. Sasian, J. Quick, J. Sheffield, J. Caudill, and P. Yantzer, “Evaluation of brilliance,
`fire, and scintillation in round brilliant gemstones, “ Optical Engineering (2007).
`
`41. Chao-Wen Liang, Jose Sasian, “Geometrical optics modeling of the grating-slit test,”
`Optics Express (2007).
`
`42. B. DeBoo, J. Sasian, R. Chipman, “Depolarization of several diffusely reflecting
`manmade objects,” Applied Optics, Vol. 44 Issue 26 Page 5434-5445 (2005).
`
`43. P. Su, J. Hudman, J. M. Sasian, and W. J. Dallas, "Dual beam generation at a ray
`caustic by a multiplexing computer-generated hologram," Opt. Express 13, 4843-
`4847
`(2005),
`http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-13-4843
`
`44. Iwona Palusinski, Jose Sasian, “Sag and phase descriptions for null corrector
`certifiers,” Optical Engineering, Vol. 43(03), p 697-701, 2004.
`
`45. B. DeBoo, J. Sasian, R. Chipman, “Degree of polarization surfaces and maps for
`analysis of depolarization,” Optics Express, Vol. 12, Issue 20, p. 4941, 2004.
`
`46. Xuemin Cheng, Yongtian Wang, Qun Hao, Jose Sasian, “Expert system for
`generating initial layouts of zoom systems with multiple moving lens groups,”
`Optical Engineering, Vol. 44, 2004.
`
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`47. X. Cheng, Y. Wang, Q, Hao, and J. Sasian, “Automatic element addition and deletion
`in lens optimization,” Appl. Opt. Vol. 42(7), 1309-1317, 2003
`
`48. R. Kremer, B. DeBoo, and J. Sasian, ‘Null corrector design for white light scatter-
`plate interferometry on a large conic surface,’ Opt. Eng. 41 (11) 2869-2875, 2002.
`
`49. Erin M. Sabatke and Jose M. Sasian, ‘Phase Theory for Multiple Aperture Systems,’
`Opt. Eng. 41(3), 647-655, March 2002.
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`50. Sasian J. M., Lerner S. A., Lin, T. Y., and Laughlin, L., “Ray and Van Citter-Zernike
`characterization of Spatial Coherence,” Appl. Opt. 40(7), 1037-1043, March 2001.
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`Curriculum Vitae
`Jose Sasian
`51. Liang, C., Descour, M., Sasian, J., and Lerner, S., “Multilayer-coating-induced
`aberrations in extreme-ultraviolet lithography optics,” Appl. Opt. 40(1), 129-135,
`January 2001.
`
`52. Scott A. Lerner and Jose M. Sasian, ’Use of implicitly defined optical surfaces for
`the design of imaging and illumination systems,’ Opt. Eng. 39(7) 1796-1801, 2000.
`
`53. Scott A. Lerner, Jose M. Sasian, and Michael R. Descour, ‘Design Approach and
`Comparison of Projection Cameras for EUV Lithography,’ Opt. Eng. 39(3) 792-802,
`2000.
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`54. Jose M. Sasian, ‘Aberrations from a prism and a grating,’ Applied Optics 39(1), 34-
`39, 2000.
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`55. José M. Sasián, Michael B. North-Morris, Geoffrey L. Wruck, Gregory A. Williby,
`and John E. Greivenkamp, “Rock and Roll polishing: a process for optical polishing,”
`Opt. Eng. 38 (12), 2089-2092, 1999.
`
`56. J. M. Sasian, ‘Passive pupil correction as applied to annular field systems,’ Opt. Eng.
`38 (4) 646-649, 1999.
`
`57. J. M. Sasian and M. Mansuripur, ‘Design Approaches with a Lenslet Array and a
`Single, High-Numerical-Aperture Annular-Field Objective Lens for Optical Data
`Storage Systems that Incorporate Large Numbers of Parallel Read-Write-Erase
`Channels,’ Appl. Opt. 38(7), 1163 – 1168, 1999.
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`58. Palusinski, J. M. Sasian, and J. E. Greivenkamp, ‘Lateral shift variable aberration
`generators,’ Appl. Opt. 38(1), 86-90, 1999.
`
`59. J. M. Sasian and Michael Descour, ‘Power distribution and symmetry in lens
`systems,’ Optical Engineering, 37(3), 1001-1004, 1998.
`
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`60. J. M. Sasian, ‘Annular surfaces in annular field systems,’ Optical Engineering,
`36(12), 3401-3403, 1997.
`
`61. D. J. Reiley and J. M. Sasian, ‘Optical design of a free-space photonic switching
`system,’ Applied Optics. Vol. 36 (19),4497-4504, 1997.
`
`62. R. E. Gerber, M. Mansuripur, and J. M. Sasian, ‘Versatile objective lens with
`adjustable correction for different wavelengths and substrate thicknesses for testing
`optical disks,’ Applied Optics, 39(11), 2414-2420, 1997.
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`Curriculum Vitae
`Jose Sasian
`63. J. M. Sasian, ‘Double-curvature Surfaces in Mirror System Design.’ Optical
`Engineering, 36(1), 183-188, (1997).
`
`64. A. L. Lentine, D. J. Reiley, R. A. Novotny, R. L. Morrison, J. M. Sasian, M. G.
`Beckman, D. B. Buchholz, S. J. Hinterlong, T. J. Cloonan, G. W. Richards, and F. B.
`McCormick, ‘Asynchronous transfer mode distribution network by use of an
`optoelectronic VLSI
`switching chip,” Applied Optics, 36(8), 1804-1814, (1997).
`
`65. Sasian, J. M., and Douglas A. Baillie, “Simple technique for out-of-focus feature
`alignment,” Opt. Eng., February 1995.
`
`66. Sasian, J. M., R. A. Novotny, M. B. Beckman, S. L. Walker and S. J. Hinterlong,
`"Fabrication of optical fiber bundles for free-space photonic switching systems," Opt.
`Eng. Sept. (1994).
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`67. Sasian, J. M., "How to approach the design of a bilateral symmetrical optical system,"
`Opt. Eng. June (1994).
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`68. McCormick, F. B., T. J. Cloonan, A. L. Lentine, J. M. Sasian, R. L. Morrison, M. G.
`Beckman, S. L. Walker, M. J. Wojcik, S. J. Hinterlong, R. J. Crisci, R. A. Novotny,
`and H. S. Hinton, "Five-stage free space optical switching network with field-effect
`transistor self-electro-optic-effect-device smart-pixel arrays," Appl. Opt. 33 (8),
`1601-1618 (1994).
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`69. Cloonan, T. J., G. W. Richards, R. L. Morrison, A. L. Lentine, J. M. Sasian, F. B.
`McCormick, S. J. Hinterlong, and H. S. Hinton, "Shuffle-equivalent interconnection
`topologies based on computer-generated binary-phase gratings," Appl. Opt. 33 (8),
`1405-1430 (1994).
`
`70. Sasian, J. M., F. B. McCormick, R. Webb, R. J. Crisci, K. O. Mersereau, and R. P.
`Stawicki, "Design, assembly, and testing of an objective lens for a free-space
`photonic switching system," Opt. Eng. 32 (8), 1871-1878 (1993).
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`71. Sasian, J. M. and R. A. Chipman, "The staircase lens: a diffractive field curvature
`corrector," Appl. Opt. 22 (1), 66-66 (1993).
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`72. McCormick, F. B., T. J. Cloonan, F. A. P. Tooley, A. L. Lentine, J. M. Sasian, J. L.
`Brubaker, R. L. Morrison, S. L. Walker, R. J. Crisci, R. A. Novotny, S. J. Hinterlong,
`H. S. Hinton, and E. Kerbis, "Six-stage digital free-space optical switching network
`using symmetric self-electro-optic-effect devices," Appl. Opt. 32 (26), 5153-5171
`(1993).
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`Curriculum Vitae
`Jose Sasian
`73. McCormick, F. B., F. A. P. Tooley, T. J. Cloonan, J. M. Sasian, and H. S. Hinton,
`"Optical interconnections using microlens arrays," Optical and Quantum Electronics
`24, S465-S477 (1992).
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`74. McCormick, F. B., F. A. P. Tooley, J. L. Brubaker, J. M. Sasian, T. J. Cloonan, A. L.
`Lentine, R. L. Morrison, R. J. Crisci, S. L. Walker, S. J. Hinterlong, and M. J. Herron,
`"Design and Tolerancing comparisons for S-seed-based free-space switching fabrics,"
`Opt. Eng. 31 (12), 2667-2711 (1992).
`
`75. McCormick, F. B., F. A. P. Tooley, T. J. Cloonan, J. L. Brubaker, A. L. Lentine, R.
`L. Morrison, S. J. Hinterlong, M. J. Herron, S. L. Walker, and J. M. Sasian,
`"Experimental investigation of a free-space optical switching network by using
`symmetric self-electro-optic-effect devices," App. Opt. 31 (28), 5431-5446 (1992).
`
`76. Sasian, J. M., "Image plane tilt in optical systems," Opt. Eng. 31 (3), 527-532 (1992).
`
`77. Sasian, J. M., "Four-mirror optical system for large telescopes," Opt. Eng. 29 (10),
`1181-1185 (1990).
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`78. McCormick, F. B., F. A. P. Tooley, J. M. Sasian, J. L. Brubaker, A. L. Lentine, T. J.
`Cloonan, R. L. Morrison, S. L. Walker, and R. J. Crisci, "Parallel interconnection of
`two 64 x 32 symmetric self electro-optic effect device arrays," Electron. Lett. 27 (20),
`1869-1871 (1991).
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`79. Sasian, J. M., "Design of a Schwarzschild flat-field, anastigmatic, unobstructed, wide-
`field telescope," Opt. Eng. 29 (1), 1-5 (1990).
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`80. Sasian, J. M., "Design of null lens correctors for the testing of astronomical optics,"
`Opt. Eng. 27 (12), 1051-1056 (1988).
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`81. Sasian, J. M., "Flat-field, anastigmatic, four-mirror optical system for large
`telescopes," Opt. Eng. 26 (12), 1197-1199 (1987).
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`82. Jacobs, S. F., S. C. Johnston, J. M. Sasian, M. Watson, J. D. Tagorve, and D. Bass,
`"Surface figure changes due to thermal cycling hysteresis," App. Opt. 26 (10), 4438-
`4442 1987.
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`83. Noble, R., F. Cobos, F. Diego, and J. Sasian, "Optical characteristics of the UNAM 2-
`M Ritchey-Chretien telescope," Appl. Opt. 17 (9), 3181-3183 (1982).
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`Curriculum Vitae
`Jose Sasian
`
`BOOKS
`
`
`Jose Sasian, “Introduction to Aberrations in Optical Imaging Systems,” Cambridge
`University Press, 2013.
`
`Jose Sasian, “Introduction to Lens Design, “Cambridge University Press, 2019.
`
`CHAPTERS
`
`
`J. Sasian, “Aberrations in Optical Systems,” in Handbook of Visual Optics, Pablo Artal
`Editor, CRC Press, 2018.
`
`
`BOOKS (Proceedings)
`
`
`1. M. Kahan, J. Sasian, Optical Modeling and System Alignment,” Proceedings SPIE, Vol.
`11103, 2019.
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`2. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification
`XII,’ Proceedings SPIE, Vol. 10747, 2018.
`
`3. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification
`X1,’ Proceedings SPIE, Vol. 10377, 2017.
`
`4. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification X,’
`Proceedings SPIE, Vol. 9951, 2016.
`
`5. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification IX,’
`Proceedings SPIE, Vol. 9582, 2015.
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`6. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification
`VIII,’ Proceedings SPIE, Vol. 8844, 2014.
`
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`7. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification
`VII,’ Proceedings SPIE, Vol. 8844, 2013.
`
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`8. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification VI,’
`Proceedings SPIE, Vol. 8491, 2012.
`
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`9. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification V,’
`Proceedings SPIE, Vol. 8131, 2011.
`
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`10. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification IV,’
`Proceedings SPIE, Vol. 7793, 2010
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`Curriculum Vitae
`Jose Sasian
`
`
`11. J. Sasian, R. Youngworth, ‘Optical System Alignment, Tolerancing, and Verification III,’
`Proceedings SPIE, Vol. 7433, 2009.
`
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`12. J. Sasian, R. Youngworth, ‘Optical System Alignment and Tolerancing II,’ Proceedings
`SPIE, Vol. 7068, 2008.
`
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`13. J. Sasian, Mitchell Ruda, “Optical System Alignment and Tolerancing,” SPIE
`Proceedings SPIE Vol. 6676. 2007
`
`14. J. M. Sasian, Mary Turner, ‘Novel Optical Systems Design and Optimization IX,’
`Proceedings SPIE, Vol. 6289, 2006.
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`15. J. M. Sasian, R. John Koshel, and Richard Juergens, ‘Novel Optical Systems Design and
`Optimization VIII,’ Proceedings SPIE, Vol. 5875, 2005.
`
`16. J. M. Sasian, R. John Koshel, Paul Manhart, and Richard Juergens, ‘Novel Optical
`Systems Design and Optimization VII,’ Proceedings SPIE, Vol. 5524, 2004.
`
`17. J. M. Sasian, R. John Koshel and Paul Manhart, ‘Novel Optical Systems Design and
`Optimization VI,’ Proceedings SPIE, Vol. 5174, 2003.
`
`18. International Optical Design Conference 2002, Paul K. Manhart, Jose M. Sasian, Eds.
`Proceedings of SPIE Volume: 4832, 2002.
`
`19. Novel Optical Systems Design and Optimization V, Proceedings of SPIE Volume: 4768,
`Editor(s): Sasian, Jose M.; Koshel, R. John, 2002.
`
`20. Novel Optical Systems Design and Optimization IV, Proceedings of SPIE Volume:
`4442 Editor(s): Sasian, Jose M.; Manhart, Paul K., 2001.
`
`21. Novel Optical Systems Design and Optimization III, Proceedings of SPIE Volume:
`4092 Editor(s): Sasian, Jose M.; 2000.
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`22. Novel Optical Systems and Large-Aperture Imaging, Proceedings of SPIE Volume: 3430,
`Editor(s): Bell, Kevin D.; Powers, Michael K.; Sasian, Jose M. 1998.
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`23. Novel Optical Systems Design and Optimization, Proceedings of SPIE Volume: 2537,
`Editor(s): Sasian, Jose M. 1995.
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`Curriculum Vitae
`Jose Sasian
`
`
`
`PAPERS IN PROCEEDINGS
`
`
`1. J. Sasian, “Aberrations of zoom lens Kernel,” Proc. SPIE 11106, Zoom Lenses VI, 2019,
`https://doi.org/10.1117/12.2530491.
`
`2. Miguel Olvera-Angeles, Alfonso Padilla-Vivanco, Karina Ortega, José Sasian, Jim
`Schwiegerling, Justo Arines, Eva Acosta, ,”Optimizing trefoil phase plates design for
`color wavefront coding,” Proceedings SPIE Volume 10745, Current Developments in
`Lens Design and Optical Engineering XIX; 1074515 (2018).
`
`3. Jose Sasian, “The method of confocal mirror design,” Proceedings SPIE Volume 10690,
`Optical Design and Engineering VII; 1069015 (2018).
`
`4. José Sasián, "Joseph Petzval lens design approach," Proc. SPIE 10590, International
`Optical Design Conference
`2017,
`1059017
`(27 November
`2017);
`doi