Patents
- 9,238,577, Dynamic Laser Beam Shaping Methods and Systems, T.J. Suleski, J. Shultz, and P.J. Smilie (2016).
- 7,855,046, Method and apparatus for fabricating shaped structures and shaped structures including one-, two-, or three-dimensional patterns incorporated therein, T.J. Suleski (2010).
- EP 1,110,124, Method of making optical replicas by stamping in photoresist and replicas formed thereby, T.J. Suleski, M. Feldman, and B. Harden (2008) (Europe).
- CP 2,336,467, Method of making optical replicas by stamping in photoresist and replicas formed thereby, T.J. Suleski, M. Feldman, and B. Harden (2008) (Canada).
- 6,952,507, Multi-mode fiber coupler, system and associated methods, E.G. Johnson, M.R. Feldman, and T.J. Suleski (2005).
- 6,869,754, Transfer of optical element patterns on a same side of a substrate already having a feature thereon, T.J. Suleski, R.R. Boye, W.F. Delaney, H. Miller, Harris, J. Morris, H. Han, and J. Mathews (2005)
- 6,788,423, Conic constant measurement methods for refractive microlenses, A.D. Kathman, T.J. Suleski, A. Cruz-Cabrera, and G. Brady (2004)
- 6,683,295, Reduced noise wavelength locker module, A. Cruz-Cabrera, T.J. Suleski, and J. B. Hammond (2004).
- 6,638,667, Fabricating optical elements using a photoresist formed using a gray level mask, T.J. Suleski, W.F. Delaney, and M.R. Feldman (2003).
- 6,530,697, Multi-mode fiber coupler, system and associated methods, E.G. Johnson, M.R. Feldman, and T.J. Suleski (2003).
- 6,420,073, Fabricating optical elements using a photoresist formed from proximity printing of a gray level mask, T.J. Suleski, W.F. Delaney, and M.R. Feldman (2002).
- 6,071,652, Fabricating optical elements using a photoresist formed from contact printing of a gray level mask, M.R. Feldman, T.J. Suleski, and W.F. Delaney, and (2000).
- 6,027,595, Method of making optical replicas by stamping in photoresist and replicas formed thereby, T.J. Suleski, B. Baggett, and B. Harden (2000).
Books and Book Chapters
- Diffractive Optics: Design, Fabrication, and Test, with D.C. O’Shea, A.D. Kathman, and D. Prather, (SPIE Press, Bellingham, WA), (2003).
- “Diffractive Optics Fabrication,” in Encyclopedia of Optical Engineering, R.G. Driggers, Ed., (Marcel Dekker, New York), pp. 374-387 (2003).
- “The Talbot Effect: Fresnel diffraction of amplitude and phase gratings,” Ph.D dissertation, School of Physics, Georgia Institute of Technology (1996).
Edited Volumes
- Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics IV, with J. Wang and W. Schoenfeld, M. Loncar, Proceedings of SPIE (Bellingham, WA), Vol. 7927 (2011).
- Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics III, with J. Wang and W. Schoenfeld, M. Loncar, Proceedings of SPIE (Bellingham, WA), Vol. 7591 (2010).
- Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics II, with J. Wang and W. Schoenfeld, Proceedings of SPIE (Bellingham, WA), Vol. 7205 (2009).
- Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics, with J. Wang and W. Schoenfeld, Proceedings of SPIE (Bellingham, WA), Vol. 6883 (2008).
- Micromachining Technology for Micro-Optics and Nano-Optics V, with E.G. Johnson and G.P. Nordin, Proceedings of SPIE (Bellingham, WA), Vol. 6462 (2007).
- Micromachining Technology for Micro-Optics and Nano-Optics IV, with E.G. Johnson and G.P. Nordin, Proceedings of SPIE (Bellingham, WA), Vol. 6110 (2006).
- Micromachining Technology for Micro-Optics and Nano-Optics III, with E.G. Johnson and G.P. Nordin, Proceedings of SPIE (Bellingham, WA), Vol. 5720 (2005).
- Gradient Index, Miniature, and Diffractive Optical Systems III, Proceedings of SPIE (Bellingham, WA), Vol. 5177 (2003).
- Gradient Index, Miniature, and Diffractive Optical Systems II, Proceedings of SPIE (Bellingham, WA), Vol. 4437 (2001).
Manuscripts and Proceedings
2024
- Luke A. DeMars, Aaron Bauer, Bryan D. Stone, Jannick P. Rolland, and Thomas J. Suleski, “Workflow for modeling of generalized mid-spatial frequency errors in optical systems,” Opt. Express 32, 2688-2703 (2024). https://doi.org/10.1364/OE.511349
2023
- Luke A. DeMars and Thomas J. Suleski, “Use of pupil-difference moments for predicting optical performance impacts of generalized mid-spatial frequency surface errors,” Opt. Express 31, 36337-36349 (2023). https://doi.org/10.1364/OE.503735
- Jonathan Koerber, Thomas J. Suleski, Daniel Gibson, Jasbinder Sanghera, Shyam Bayya, Brandon Swartz, Jason Valentine, and Gregory T. Forcherio “Advanced optics for EO/IR applications”, Proc. SPIE 12665, Novel Optical Systems, Methods, and Applications XXVI, 126650C. https://doi.org/10.1117/12.2677684
- L. A. DeMars, S. Rueda, M. A. Alonso, and T. J. Suleski, “Fitting Mid-Spatial Frequency Surface Errors with a Rapidly Decaying Fourier Series,” in Optica Design and Fabrication Congress 2023 (IODC, OFT), Technical Digest Series (Optica Publishing Group, 2023), paper OW4B.1
- L. A. DeMars, S. Rueda, and T. J. Suleski, “MSFLib: A Data Library of Mid-Spatial Frequency Surface Errors for Optical Modeling and Specification,” in Optica Design and Fabrication Congress 2023 (IODC, OFT), Technical Digest Series (Optica Publishing Group, 2023), paper OW4B.2.
- Luke A. Demars and Thomas J. Suleski, “Pupil-difference moments for estimating relative modulation from general mid-spatial frequency surface errors,” Opt. Lett. 48, 2492-2495 (2023). (Editor’s Pick). https://doi.org/10.1364/OL.491408
- Sara Moein, Dustin Gurganus, Matthew A. Davies, Glenn D. Boreman, and Thomas J. Suleski, “Fabrication and characterization of freeform phase plates for extended depth of field imaging,” Opt. Continuum 2, 769-782 (2023). https://doi.org/10.1364/OPTCON.480895
2022
- Shohreh Shadalou, Dustin Gurganus, William J. Cassarly, Matthew A. Davies, and Thomas J. Suleski, “Design, fabrication, and characterization of a tunable LED-based illuminator using refractive freeform arrays,” Opt. Express 30, 42749-42761 (2022). https://doi.org/10.1364/OE.474842
- Sara Moein, Shohreh Shadalou, and Thomas J. Suleski, “PSF engineering with variable logarithmic phase plates for the extended depth of field,” Opt. Continuum 1, 1579-1592 (2022). (Editor’s Pick). https://doi.org/10.1364/OPTCON.465138
- Shohreh Shadalou and Thomas J. Suleski, “General design method for dynamic freeform optics with variable functionality,” Opt. Express 30, 19974-19989 (2022). https://doi.org/10.1364/OE.460078
- Ana Hiza Ramirez-Andrade, Shohreh Shadalou, Dustin Gurganus, Matthew A. Davies, Thomas J. Suleski, Konstantinos Falaggis, “Vision ray metrology: a new versatile tool for the metrology and alignment of optics,” Proc. SPIE 12223, Interferometry XXI, 1222304 (2022); https://doi.org/10.1117/12.2634327
- J. Koerber, G.D. Boreman, and T.J. Suleski, “Reduction of retrace error from broadband variable transmission spheres in Fizeau interferometry,” Opt. Continuum 1, 1067-1076 (2022). https://doi.org/10.1364/OPTCON.458860
- J. Koerber, G.D. Boreman, and T.J. Suleski, “Broadband Variable Transmission Sphere for Fizeau Interferometry,” Optics 3, 88-98 (2022). https://doi.org/10.3390/opt3010011
2021
- Jannick P. Rolland, Matthew A. Davies, Thomas J. Suleski, Chris Evans, Aaron Bauer, John C. Lambropoulos, and Konstantinos Falaggis, “Freeform optics for imaging,” Optica 8, 161-176 (2021). https://doi.org/10.1364/OPTICA.413762
- Ana Hiza Ramirez-Andrade, Shohreh Shadalou, Dustin Gurganus, Matthew A. Davies, Thomas J. Suleski, and Konstantinos Falaggis, “Vision ray metrology for freeform optics,” Opt. Express 29, 43480-43501 (2021). https://doi.org/10.1364/OE.443550
- Sara Moein and Thomas J. Suleski, “Freeform optics for variable extended depth of field imaging,” Opt. Express 29, 40524-40537 (2021). https://doi.org/10.1364/OE.439980
- Shohreh Shadalou, William J. Cassarly, and Thomas J. Suleski, “Tunable illumination for LED-based systems using refractive freeform arrays,” Opt. Express 29, 35755-35764 (2021). https://doi.org/10.1364/OE.441304
- Shohreh Shadalou, William J. Cassarly, Thomas J. Suleski, “Tunable LED-based illuminator using freeform arrays,” Proc. SPIE 12078, International Optical Design Conference 2021, 120780I (2021);https://doi.org/10.1117/12.2603627
- T. J. Suleski, “Towards Conformally Nanostructured Freeform Optics,” in OSA Optical Design and Fabrication 2021 (Flat Optics, Freeform, IODC, OFT), OSA Technical Digest (Optical Society of America, 2021), paper JW3D.1.
- S. Moein and T. J. Suleski, “Position Tolerancing of Freeform Phase Plates for Variable Extended Depth of Field Imaging,” in OSA Optical Design and Fabrication 2021 (Flat Optics, Freeform, IODC, OFT), OSA Technical Digest (Optical Society of America, 2021), paper JTh3A.3.
- J. Koerber and T. J. Suleski, “Broadband Variable Transmission Sphere for Fizeau Interferometry of Spherical Surfaces,” in OSA Optical Design and Fabrication 2021 (Flat Optics, Freeform, IODC, OFT), OSA Technical Digest (Optical Society of America, 2021), paper OW3B.6.
- L. A. DeMars and T. J. Suleski, “Separating and Estimating Impacts of Anisotropic Mid- Spatial Frequency Errors,” in OSA Optical Design and Fabrication 2021 (Flat Optics, Freeform, IODC, OFT), OSA Technical Digest (Optical Society of America, 2021), paper OW3B.2.
- S. Shadalou and T. J. Suleski, “Tunable LED-based Illuminator Using Freeform Arrays,” in OSA Optical Design and Fabrication 2021 (Flat Optics, Freeform, IODC, OFT), OSA Technical Digest (Optical Society of America, 2021), paper ITh2A.3.
- L. A. DeMars and T.J. Suleski, “Differentiation of Mid-Spatial Frequency Surface Errors Using Areal Power Spectral Density,” Proceedings ASPE Spring Topical Meeting: Freeform and Structured Surfaces, 26 (2021).
- S. Shadalou and T.J. Suleski, “Freeform arrays for dynamically tunable illumination systems,” Proceedings ASPE Spring Topical Meeting: Freeform and Structured Surfaces, 25 (2021).
2020
- J. Koerber and T. J. Suleski, “Design of a Broadband Variable Transmission Sphere,” in Frontiers in Optics / Laser Science, B. Lee, C. Mazzali, K. Corwin, and R. Jason Jones, eds., OSA Technical Digest (Optical Society of America, 2020), paper FM1A.7. https://www.osapublishing.org/abstract.cfm?URI=FiO-2020-FM1A.7
- S. Shadalou, T. J. Suleski, “Freeform optics for dynamic illumination,” Proc. SPIE 11495, Nonimaging Optics: Efficient Design for Illumination and Solar Concentration XVII, 114950B; https://doi.org/10.1117/12.2568785
- S. Moein, T. J. Suleski, “Variable extended depth of field imaging using freeform optics,” Proc. SPIE 11483, Novel Optical Systems, Methods, and Applications XXIII, 114830G; https://doi.org/10.1117/12.2568723
2019
- Hamidreza Aryan, Glenn D. Boreman, and Thomas J. Suleski, “Simple methods for estimating the performance and specification of optical components with anisotropic mid-spatial frequency surface errors,” Opt. Express 27(22), 32709-32721 (2019). https://doi.org/10.1364/OE.27.032709.
- Hamidreza Aryan, Glenn D. Boreman, and Thomas J. Suleski, “The Minimum Modulation Curve as a tool for specifying optical performance: application to surfaces with mid-spatial frequency errors,” Opt. Express 27, 25551-25559 (2019). https://doi.org/10.1364/OE.27.025551.
- Hamidreza Aryan, Kevin Liang, Miguel A. Alonso, and Thomas J. Suleski, “Predictive models for the Strehl ratio of diamond-machined optics,” Appl. Opt. 58, 3272-3276 (2019). https://doi.org/10.1364/AO.58.003272.
- H. Aryan and T. J. Suleski, “Non-Directional Modulation Transfer Function for Optical Surfaces with Anisotropic Mid-Spatial Frequency Errors,” in Optical Design and Fabrication 2019 (Freeform, OFT), OSA Technical Digest (Optical Society of America, 2019), paper OT1A.2.
- H. Aryan and T. J. Suleski, “Specification of Optical Surfaces with Anisotropic Mid-Spatial Frequency Errors,” in Optical Design and Fabrication 2019 (Freeform, OFT), OSA Technical Digest (Optical Society of America, 2019), paper OM4A.5.
- S. Moein and T. J. Suleski, “Design of Freeform Phase Plate Pairs for Variable Extended Depth of Field in Imaging Systems,” in Optical Design and Fabrication 2019 (Freeform, OFT), OSA Technical Digest (Optical Society of America, 2019), paper FW4B.2.
2018
- F. Hadavandmirzaee, D. Williams, T.J. Suleski, and R. Porras, “Arbitrary phase shifting in diffraction common path interferometry,” Proc. SPIE 10749, Interferometry XIX, 107490V (2018).
2017
- J.D. Owen, J.A. Shultz, T.J. Suleski, M.A. Davies, Error correction methodology for ultra-precision three-axis milling of freeform optics, CIRP Annals – Manufacturing Technology, Volume 66, Issue 1, 2017, Pages 97-100, ISSN 0007-8506, http://dx.doi.org/10.1016/j.cirp.2017.04.031.
- Di Xu, J.D. Owen, J.C. Papa, J. Reimers, T.J. Suleski, J.R. Troutman, M.A. Davies, K.P. Thompson, and J.P. Rolland, “Design, fabrication, and testing of convex reflective diffraction gratings,” Opt. Express 25, 15252-15268 (2017).
- S.T. Glass and T.J. Suleski, “Balancing diffraction efficiency and laser damage in diffractive optics,” Proc. SPIE 10374, Optical Modeling and Performance Predictions IX, 103740C (2017).
- D. Xu, J. Reimers, J. C. Papa, J. Owen, M. Davies, T. J. Suleski, K. Thompson, and J. P. Rolland, “Testing of a Convex Reflective Diffraction Grating,” in Optical Design and Fabrication 2017 (Freeform, IODC, OFT), OSA Technical Digest (online) (Optical Society of America, 2017), paper OM2B.3.
- J. Owen, M. Davies, and T. J. Suleski, “Diamond Milling of IR Materials,” in Optical Design and Fabrication 2017 (Freeform, IODC, OFT), OSA Technical Digest (online) (Optical Society of America, 2017), paper OTu1B.5.
- H. Aryan, C. J. Evans, and T. J. Suleski, “On the Use of ISO 10110-8 for Specification of Optical Surfaces with Mid-Spatial Frequency Errors,” in Optical Design and Fabrication 2017 (Freeform, IODC, OFT), OSA Technical Digest (online) (Optical Society of America, 2017), paper OW4B.2.
- J.A. Shultz, M. Davies, and T. J. Suleski, “Simplified Tolerancing of Alignment Errors in Dynamic Freeform Optical Systems,” in Optical Design and Fabrication 2017 (Freeform, IODC, OFT), OSA Technical Digest (online) (Optical Society of America, 2017), paper JTh1C.3.
- J.A. Shultz and T. J. Suleski, “Design of a Variable Toric Lens Using Laterally Shifted Freeform Elements,” in Optical Design and Fabrication 2017 (Freeform, IODC, OFT), OSA Technical Digest (online) (Optical Society of America, 2017), paper JW2C.2.
- J.D Owen, J. Troutman, D. Gurganus, N. Sizemore, R. Shanmugam, J.A. Shultz, T.J. Suleski, and M.A. Davies, “An overview of ultraprecision diamond machining of freeform optics,” Proceedings ASPE/ASPEN Spring Topical Meeting: Manufacture and Metrology of Structured and Freeform Surfaces for Functional Applications (2017).
- J.A. Shultz, P.J. Smilie, M.A. Davies, and T.J. Suleski, “Optomechanical tolerancing of dynamic freeform optical systems,” Proceedings ASPE/ASPEN Spring Topical Meeting: Manufacture and Metrology of Structured and Freeform Surfaces for Functional Applications (2017).
- J.A. Shultz, H. Aryan, J.D. Owen, M.A. Davies, and T.J. Suleski, “Impacts of sub-aperture manufacturing techniques on the performance of freeform optics,” Proceedings ASPE/ASPEN Spring Topical Meeting: Manufacture and Metrology of Structured and Freeform Surfaces for Functional Applications (2017).
2016
- John R. Troutman, Daniel L. Barnhardt, Jason A. Shultz, Joseph D. Owen, Scott DeFisher, Matthew A. Davies, Thomas J. Suleski, “Machining and Metrology of a Chalcogenide Glass Freeform Lens Pair,” Procedia Manufacturing 5, 669-683 (2016).
- J. Troutman, D. Barnhardt, J. Owen, J. Shultz, M. Davies, T. Suleski, “Diamond machining of a 14th order Alvarez lens for IR applications,” Proceedings of the 31st ASPE Annual Meeting (2016).
- J. Owen, J. Troutman, J. Schultz, D. Barnhardt, M. Davies, T. Schmitz, T. Suleski, “High-speed machining of brittle materials for infrared freeform optics,” Proceedings of the 31st ASPE Annual Meeting (2016).
- Troutman, D.L. Barnhardt, J. Shultz, J. Owen, S. DeFisher, M. Davies and T.J. Suleski, “Slow Tool Servo Machining and Metrology of a Chalcogenide Glass Freeform Lens Pair,” Transactions of NAMRI/SME, v.44, 2016.
2015
- J.A. Shultz, M. Davies, and T. J. Suleski, “Effects of MSF errors on performance of freeform optics: Comparison of diamond turning and diamond milling,” in Imaging and Applied Optics 2015, OSA Technical Digest (online) (Optical Society of America, 2015), paper FT4B.3.
- M.A. Davies, J. Owen, J. R. Troutman, D. L. Barnhardt, and T. J. Suleski, “Ultra-Precision Diamond Machining of Freeform Optics for the IR,” in Imaging and Applied Optics 2015, OSA Technical Digest (online) (Optical Society of America, 2015), paper FM1B.1.
2014
- Jinxin Huang, Qun Yuan, Buyun Zhang, Ke Xu, Patrice Tankam, Eric Clarkson, Matthew A. Kupinski, Holly B. Hindman, James V. Aquavella, Thomas J. Suleski, and Jannick P. Rolland, “Measurement of a multi-layered tear film phantom using optical coherence tomography and statistical decision theory,” Biomed. Opt. Express 5, 4374-4386 (2014).
- S.A. Shojaee, T.A. Harriman, Y. Qi, D.A. Lucca, B.S. Dutterer, M.A. Davies, T.J. Suleski, “Spatial variations in stress and crystal quality in diamond turned ZnSe surfaces measured by Raman spectroscopy,” Manufacturing Letters, 2(2), 35-39 (2014)
- J.L. Lineberger, B.S. Dutterer, P.J. Smilie, T.A. Harriman, M.A. Davies, T.J. Suleski, and D.A. Lucca, “Diamond Milling of an Alvarez Lens in Germanium,” Precision Engineering 38(2), 398-408 (2014).
- T.J. Suleski, J. A Shultz, and P.J. Smilie, “Dynamic beam shaping with freeform optics,” Proc. SPIE 9194, 91940K (2014).
- J.A Shultz, P.J. Smilie, B.S. Dutterer, M.A. Davies, and T.J. Suleski, “Experimental characterization of variable output refractive beam shapers using freeform elements,” Proc. SPIE 9194, 91940M (2014).
- M. Liu, J.A. Shultz, J.D. Owen, M.A. Davies, and T.J. Suleski, “Moth’s eye anti-reflection gratings on germanium freeform surfaces,” Proc. SPIE 9192, 91920L (2014).
- J.D. Owen, M.A. Davies, M. Liu, and T.J. Suleski, “Micro-ruling into complex surfaces in Germanium,” Proceedings ASPE/ASPEN Summer Topical Meeting: Manufacture and Metrology of Freeform and Off-Axis Aspheric Surfaces, 17-21 (2014).
2013
- T.J. Suleski, J. Shultz, and P.J. Smilie, “Design of Dynamic Freeform Optics,” in Renewable Energy and the Environment, OSA Technical Digest (online) (Optical Society of America, 2013), paper FW2B.2.
2012
- A.T. Cannistra, R.A. Hudgins, and T.J. Suleski, “Fabrication and Characterization of a Biomimetic Polarization Selective Lens,” Opt. Letters, 37(6) 1088-1090 (2012).
- P.J. Smilie, B.S. Dutterer, J.L. Lineberger, M.A. Davies and T.J. Suleski, “Design and Characterization of an Infrared Alvarez Lens,” Opt. Engineering 51(1), 013006 (2012).
- M.A Davies, B.S. Dutterer, T.J. Suleski, J.F. Silny, E.D. Kim, “Diamond flycutting of diffraction gratings for imaging spectrometers,” Precision Engineering, 36(2) 334-338 (2012).
- T.J. Suleski, M.A. Davies, B.S. Dutterer, “Diamond machining of freeform infrared optics,” in Optical Fabrication and Testing, OSA Technical Digest (Optical Society of America, 2012), paper OW2D.4 (Invited).
- M. Lanclos, A.M. Ferrara, M.A. Davies, C.J. Evans, T.J. Suleski, “Collaborative work within Optical Engineering: Ethnography and curricular development,” in Optical Fabrication and Testing, OSA Technical Digest (Optical Society of America, 2012), paper JTu5A.1.
- M.A. Davies, T.J. Suleski, B.S. Dutterer, J. Owen, A.T. Cannistra, “Can Multi-Scale Optics be Fabricated by Ultraprecision Systems – Hierarchical Fabrication Across Seven Orders of Magnitude?” NSF CMMI Grantees Conference, Paper NSF 0927621 (2012).
2011
- P.J. Smilie and T.J. Suleski, “Variable-diameter refractive beam shaping with freeform optical surfaces,” Opt. Letters, 36 (21) 4170-4172 (2011).
- A.T. Cannistra, M.K Poutous, E.G. Johnson, and T.J. Suleski, “Performance of conformal guided mode resonance filters,” Opt. Letters, 36 (7) 1155-1157 (2011).
- Y.-C. Chuang and T.J. Suleski, “Photonic crystals for broadband, omnidirectional self-collimation,” J. Opt. 13 035103 (2011).
- J.L. Lineberger, B.S. Dutterer, M.A. Davies, P. Smilie, T.J. Suleski, “High Speed Micro-Milling of an Alvarez Optic”, ASPE Topical Meeting on Structured and Freeform Surfaces, Session V, Paper 1 (2011).
- A.T. Cannistra, B.S. Dutterer, M.A. Davies, T.J. Suleski, “Structured Surfaces for Biomimetic Micro-Optical Systems”, ASPE Topical Meeting on Structured and Freeform Surfaces, Session 1, Paper 3 (2011).
- A. T. Cannistra, M. K. Poutous, E. G. Johnson and T. J. Suleski, “Fabrication of guided mode resonance filters on conformal surfaces“, Proc. SPIE 7927, 79270Y (2011).
- P.J. Smilie, B.S. Dutterer, J.L. Lineberger, M.A. Davies and T.J. Suleski, “Freeform micromachining of an infrared Alvarez lens“, Proc. SPIE 7927, 79270K (2011).
2010
- B.C. Bergner, T.A. Germer, and T.J. Suleski, “Effective medium approximations for modeling optical reflectance from gratings with rough edges,” J. Opt. Soc. Am. A 27, 1083-1090 (2010)
- A.T. Cannistra and T.J. Suleski, “Characterization of hybrid molding and lithography for SU-8 micro-optical components,” J. Micro/Nanolith. MEMS MOEMS, Vol. 9, 013025 (2010)
- Y.-C. Chuang and T.J. Suleski, “Complex rhombus lattice photonic crystals for broadband all-angle self collimation,” J. Opt. 12 035102 (2010).
2009
- B.C. Bergner, T.A. Germer, and T.J. Suleski, “Effect of line-width roughness (LWR) on optical scatterometry measurements,” in Metrology, Inspection, and Process Control for Microlithography XXIII, Proc. SPIE 7272 (2009).
- Y.-C. Chuang and T.J. Suleski, “Optical characteristics of photonic crystals based on the fractional Talbot effect,” in Photonic and Phononic Crystal Materials and Devices VIII, Proc. SPIE 7223 (2009).
- Cannistra and T.J. Suleski, “Characterization of hybrid molding and lithography for SU-8 micro-optical components,” in Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics II, Proc. SPIE 7205 (2009).
- M. Shokooh-Saremi, R. Magnusson, T. J. Suleski and E. G. Johnson, “Design of Silicon-based Leaky-mode Resonant Nanopatterned Devices Using Inverse Numerical Methods,” in 2009 NSTI Nanotechnology Conference, Paper TU81.905 (2009).
2008
- Cannistra, P. Srinivasan, E.G. Johnson, T.J. Suleski, “Microtransfer molding of SU-8 micro-optics,” in Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics, Proc. SPIE 6883, 688311 (2008).
- M.L. Barkman, B. Dutterer, M.A. Davies, T.J. Suleski, ” Free-form machining for micro-imaging systems,” in Advanced Fabrication Technologies for Micro/Nano-Optics & Photonics, Proc. SPIE 6883, 688315 (2008).
- Davies, M. A., Dutterer, B. S., Suleski, T. J., Barkman, M. L., “Manufacturing and measurement of precision milli- and micro-scale germanium optics array for novel thermal imaging systems,” 23rd ASPE Annual Meeting and 12th ICPE, Paper 2556, Portland Oregon, October 21, 2008.
- M.L. Barkman, B.S. Dutterer, T.J. Suleski, M.A. Davies, “Ultra-Precision Machining of a Milli-Scale Germanium Optics Array,” CIRP STC-P Proceedings, Paris, France January 21, 2008.
2007
- P. Batoni, E.B. Stokes, T.K. Shah, M.D. Hodge, and T.J. Suleski, “Self-induced surface texturing of Al2O3 by means of Inductively Coupled Plasma Reactive Ion Etching in Cl2 chemistry,” International Journal of High Speed Electronics and Systems, International Journal of High Speed Electronics and Systems, 17(1), 35-38 (2007).
- P.C. Deguzman, Y. Cao, T.J. Suleski, M. A. Fiddy, R. Jones, R. Te Kolste, and J. Morris, “A wafer-based diffractive polarizer design for low-reflectivity applications,” Optical Engineering 46 (3) 038001 (1 March 2007).
- S. Grego, Y. Cao, C.A. Bower, B.R. Stoner, and T.J. Suleski, ” Optical waveguide biosensor based on two-dimensional diffractive elements obtained by nano-imprint lithography,” in Integrated Optics: Devices, Materials, and Technologies XI, Proc. SPIE 6475, 647504 (2007).
- Y. Cao, J. Schenk, T. Suleski, and M. Fiddy, “Form-Birefringent Slow Light Optical Limiter,” in Slow and Fast Light, OSA Technical Digest (CD) (Optical Society of America, 2007), paper STuB5.
- M. Testorf, J. Carter, M. Fiddy, and T. Suleski, “Multi-Aperture Diversity Imaging: Physical Limitations to the Generalized Sampling Theorem (GST),” in Adaptive Optics: Analysis and Methods/Computational Optical Sensing and Imaging/Information Photonics/Signal Recovery and Synthesis Topical Meetings on CD-ROM, OSA Technical Digest (CD) (Optical Society of America, 2007), paper CMA5.
- Y. Cao, J. Schenk, T.J. Suleski, M. A. Fiddy, J. Raquet, K. Burbank, M. Graham, and P. Sanger, ” Metamaterial Exhibiting Degenerate Band Edge: Reduced Group Velocity and Local Field Enhancement,”Metamaterials and Nonlinear Materials Technical Digest (2007).
- B. C. Bergner and T. J. Suleski, “Application of perturbation methods in optical scatterometry,” in Metrology, Inspection, and Process Control for Microlithography XXI, Proc. SPIE 6518, 651829 (2007).
- Y. Cao, R. Hudgins, T.J. Suleski, M. A. Fiddy, J. Ballato, K. Burbank, M. Graham, and P. Sanger, “Design and experimental verification of a novel anisotropic photonic crystal band edge device,” in Photonic Crystal Materials and Devices VI, Proc. SPIE 6480, 64800E (2007).
2006
- M. Testorf, T. J. Suleski, and Y. -C. Chuang, “Design of Talbot array illuminators for three-dimensional intensity distributions,” Opt. Express 14, 7623-7629 (2006). http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-17-7623
- P. Batoni, T.K. Shah, M.D. Hodge, T.J. Suleski, and E.B. Stokes, ” Self-induced surface texturing of Al2O3 by means of Inductively Coupled Plasma Reactive Ion Etching in Cl2 chemistry,” 2006 Lester Eastman Conference on High Performance Devices Technical Digest, p.121.
- Y. Cao, R. Hudgins, T. J. Suleski, M. A. Fiddy, J. Raquet, K. Burbank, M. Graham, and P. Sanger, “1-D Photonic Crystal Exhibiting Degenerate Band Edge to Slow Light,” in Slow and Fast Light, Technical Digest (CD) (Optical Society of America, 2006), paper ME16.
- T.J. Suleski, Y.-C. Chuang, D.J. Spivey, P. Batoni, and E.B. Stokes, “Nanotexturing in Ultraviolet Light-Emitting Diodes for Enhanced Light Extraction,” in Integrated Photonics Research and Applications/Nanophotonics 2006 Technical Digest (Optical Society of America, Washington, DC, 2006), Paper NWC2.
- M.E. Testorf, T.J. Suleski, and Y.-C. Chuang, “Optimization of diffractive elements for fabricating 3-D photonic crystals with interference lithography,” in Integrated Photonics Research and Applications/Nanophotonics 2006 Technical Digest (Optical Society of America, Washington, DC, 2006), Paper NWA5.
- Y. Cao, R. Hudgins, T.J. Suleski, M.A. Fiddy, J. Raquet, K. Burbank, M. Graham, and P. Sanger, “1D periodic microwave structure exhibiting reduced group velocity,” in Optics in the Southeast Technical Digest, p. 57 (2006).
- P.C Deguzman, Y. Cao, T.J. Suleski, M.A. Fiddy, R. Jones, R.D TeKolste, and J. Morris, “Diffractive polarizer design for low reflectivity applications,” in Optics in the Southeast Technical Digest, p. 95 (2006).
- B.C. Bergner and T.J. Suleski, ” Scatterometry for Process Control in Nanoimprint Lithography,” in Optics in the Southeast Technical Digest, p. 135 (2006).
- Y-.C. Chuang, M. Testorf, and T.J. Suleski, “Using the Fractional Talbot Effect to Synthesize Light for 3D Microlithography,” in Optics in the Southeast Technical Digest, p. 91 (2006).
- S. Grego, A.M. Patel, B.R. Stoner, Y. Cao, and T.J. Suleski,” Novel grating-based optical waveguide device for sensor applications,” in Chemical and Biological Sensing VII, Proc. SPIE 6218, pp. 255-265 (2006).
- N.P. Pitsianis, A. Portnoy, X. Sun and D.J. Brady, T. Suleski, and M. A. Fiddy, B. Te Kolste and M. Feldman, “Compressive Imaging Sensors,” in Intelligent Integrated Microsystems, Proc. SPIE 6232, pp. 43-51 (2006).
2005
- T.J. Suleski and R.D. Te Kolste, “Fabrication trends for free-space micro-optics”, J. Lightwave Tech., 23(2), 633-646 (2005). (Invited Tutorial)
- A.D. Portnoy, J. Guo, N. Pitsianis, B. Guenther, D.J. Brady, R.D. Te Kolste, M.R. Feldman, M.A. Fiddy, T.J. Suleski, “Multi-Aperture Visible High Resolution Thin Imager,” in Frontiers in Optics 2005/Laser Science XXI (Optical Society of America, Washington, DC, 2005), Paper FWU2.
- M.A. Fiddy, T.J. Suleski, D.J. Brady, and N. Pistsianis, “Compressive sampling for feature-specific compact imagers,” in Frontiers in Optics 2005/Laser Science XXI (Optical Society of America, Washington, DC, 2005), Paper FWU4.
- M.E. Testorf, T.J. Suleski, and Y.-C. Chuang, “Diffractive elements for 3D wavefields and the fractional Talbot effect,” in Frontiers in Optics 2005/Laser Science XXI (Optical Society of America, Washington, DC, 2005), Paper FWS3.
- D.J. Brady, M.A. Fiddy, U. Shahid, and T.J. Suleski, “Compressive Optical MONTAGE Photography Initiative: Noise and Error Analysis,” in Computational Optical Sensing and Imaging, OSA Technical Digest (CD edition), Paper CMB3 (2005).
- Y.-C. Chuang, D.J. Spivey, and T.J. Suleski, “Design of Nanotextured Ultraviolet Light Emitting Diodes for Enhanced Light Extraction,” in Optics in the Southeast Technical Digest, p. 129 (2005).
- T.J. Suleski, Y-.C. Chuang, P.C. Deguzman, and R.A. Barton, “Fabrication of optical microstructures through fractional Talbot imaging,” in Micromachining Technology for Micro-Optics and Nano-Optics III, Proc. SPIE 5720, pp. 86-93 (2005).
2004
- T. J. Suleski and Y.-C. Chuang, “Use of Fractional Talbot Images for Fabrication of Diffractive Optical Elements,” in Diffractive Optics and Micro-Optics, OSA Technical Digest (CD edition), Paper DWA4 (2004).
- T.J. Suleski, Y-.C. Chuang, P.C. Deguzman, and R.A. Barton, “Optical Micro- and Nanofabrication through Interferometric Phase Lithography,” in Optics in the Southeast Technical Digest, p. 109 (2004).
- D.C. O’Shea and T.J. Suleski, “After Image: Transition from Fresnel to Fraunhofer Diffraction,” Optics and Photonics News, 15 (10), 72 (Oct. 2004).
2003
- T.J. Suleski. “Micro-optics for photonic networks,” J. Microlith. Microfab. and Microsystems. 2(4) 292 (2003).
- E.G. Johnson, J. Stack, T.J. Suleski, C. Koehler, and W. Delaney, “Fabrication of micro optics on coreless fiber segments,” Appl. Opt. 42, 785-791 (2003).
- I. Reineck, J. DeAnna, T.J. Suleski, S.A. Lee, and A. Rupprecht, “A Raman Study of the Hydration of Wet-Spun Films of Li-hyaluronate,” J. of Biomolecular Structure & Dynamics, 21(1), 153-157 (2003).
- T.J. Suleski, “Future Requirement and Directions for Micro-Optics Fabrication,” in Optics in the Southeast Technical Digest, Paper SE05-C3 (2003).
1991-2002
- T.J. Suleski, A.D. Kathman, J.B. Hammond, H. Han, and M.R. Feldman, “Hybrid integration of micro-optical sub-assemblies,” in Diffractive Optics and Micro-Optics, OSA Technical Digest (Optical Society of America, Washington DC, 2002), pp. 72-74. (Invited)
- I. Reineck, T.J. Suleski, S.A. Lee, A. Rupprecht, “Raman scattering study of the phase transition in wet-spun films of lithium hyaluronate,” Proceedings of the American Physical Society March Meeting, Paper A30.013 (2002).
- T.J. Suleski and R.D TeKolste, “A roadmap for micro-optics fabrication,” in Lithographic and Micromachining Techniques for Optical Component Fabrication, Proc. SPIE 4440, pp. 1-15 (2001). (Invited)
- D.C. O’Shea, T.J. Suleski, A.D. Kathman, and D.W. Prather, “Diffracting light,” OE Magazine, 1(5), 35-37 (May 2001).
- T.J. Suleski, B Baggett, H.R. Miller, W.F Delaney, and J. Pagan, “Wafer scale replication of glass micro-optics for optical communications,” in Diffractive Optics and Micro-Optics, OSA Technical Digest (Optical Society of America, Washington DC, 2000), pp. 231-233.
- E.G. Johnson, J. Stack, C. Koehler, and T.J. Suleski, “Diffractive vortex lens for mode-matching graded index fiber,” in Diffractive Optics and Micro-Optics, OSA Technical Digest (Optical Society of America, Washington DC, 2000), pp. 205-207.
- E.G. Johnson, J. Stack, C. Koehler, and T.J. Suleski, “Integration of micro-optics into gigabit ethernet patchcords for enhanced performance,” in Optoelectronic Interconnects VII; Photonics Packaging and Integration II, Proc. SPIE 3952, pp, 346-353 (2000).
- T.J. Suleski, J.G. Pagan, B. Baggett, H.R. Miller, and W.F Delaney, “Replication of glass micro-optics on a macro scale,” in Optics in the Southeast Technical Digest, p. 113 (2000).
- T. J. Suleski, B. Baggett, W. F. Delaney, C. Koehler, and E. G. Johnson, “Fabrication of high-spatial-frequency gratings through computer-generated near-field holography,” Opt. Lett. 24, 602-604 (1999).
- T.J. Suleski, B. Baggett, H. Miller, and W. F. Delaney, “Emerging fabrication methods for diffractive optical elements,” in Optical Technology in the Carolinas Technical Digest, p. 5 (1999).
- J.B. Hammond, T.J. Suleski, E.G. Johnson, C.S. Koehler, J.E. Childers, and M.M. Johnson, “Diffractive-optics-based micromirror scanning system,” in Optical Scanning: Design and Applications, Proc. SPIE 3787, pp. 96-104 (1999).
- T. J. Suleski, B. Baggett, W. F. Delaney, and A.D. Kathman, “Emerging fabrication methods for diffractive optical elements,” in Diffractive/Holographic Technologies, Systems, and Spatial Light Modulators VI, Proc. SPIE 3633, pp. 26-34 (1999).
- E.G. Johnson, C. Koehler, T.J. Suleski, J. Stack, and M.R. Feldman, “Diffractive micro-rods for fiber optic applications,” in Diffractive/Holographic Technologies, Systems, and Spatial Light Modulators VI, Proc. SPIE 3633, pp. 182-186 (1999).
- J.B. Hammond, E.G. Johnson, C. Koehler, J. Stack, T.J. Suleski, A. Kar, and W, Guo, “Diffractive optics for laser welding and bonding,” in Diffractive/Holographic Technologies, Systems, and Spatial Light Modulators VI, Proc. SPIE 3633, pp. 206-213 (1999).
- T.J. Suleski, “Emerging fabrication methods for diffractive optical elements,” in SPIE International Holography Technical Group Newsletter, Vol. 10, No. 1, (June 1999).
- T.J. Suleski, “Effects of fabrication errors on Talbot array illuminators,” in Diffractive Optics and Micro-Optics, Vol. 10, OSA Technical Digest Series, (Optical Society of America, Washington DC, 1998), pp. 288-290.
- E.G. Johnson, C. Koehler, T.J. Suleski, J. Stack, and M.R. Feldman, “Micro-diffractive optics for integration with single-mode fibers,” in Micro-Optics Integration and Assemblies, Michael R. Feldman, Yung Cheng Lee, Editors, Proc. SPIE 3289, pp. 76-82 (1998).
- T.J. Suleski, “Generation of Lohmann images from binary phase Talbot array illuminators,” Appl. Opt. 36, 4686-4691 (1997).
- K. Tatah, A. Fukumoto, T.J. Suleski, and D.C. O’Shea, “Photoablation and lens damage from fractional Talbot images of Dammann gratings,” Appl. Opt. 36, 3577-3580 (1997).
- T.J. Suleski and M.R. Feldman, “Miniaturizing and packaging diffractive optics for opto-electronic systems,” Lasers & Optronics 16, 35-36 (Sept. 1997).
- T.J. Suleski and D.C. O’Shea, “Experimental Studies of Talbot array illuminators,” in Diffractive Optics and Micro-Optics, Vol. 5, 1996 OSA Technical Digest Series, (Optical Society of America, Washington DC, 1996), pp. 300-303.
- T.J. Suleski and D. C. O’Shea, “Gray-scale masks for diffractive-optics fabrication: I. Commercial slide imagers,” Appl. Opt. 34, 7507-7517 (1995).
- T.J. Suleski and D. C. O’Shea, “Fidelity of PostScript generated masks for diffractive optics fabrication,” Appl. Opt. 34, 627-635 (1995).
- T.J. Suleski, W.S. Rockward, and D.C. O’Shea, “Diffractive optics fabrication using grayscale masks,” in SPIE Photonics in Computing II, Leo J. Irakliotis, Editor, pp. 15-24 (1995).
- D.C. O’Shea, T.J. Suleski, and W.S. Rockward, “Low cost techniques for generation of kinoforms with a single etching step,” Workshop on Diffractive Optics Technical Digest, Prague, Czech Republic, (1995).
- K. Tatah, A. Fukumoto, T. Suleski, and D. O’Shea, “Photoablation and lens damage from fractional Talbot images of Dammann gratings,” Workshop on Diffractive Optics Technical Digest, Prague, Czech Republic, (1995).
- T.J. Suleski, J.W. Powell, T. Smith, S.A. Lee, and A.R. Rupprecht, “Infrared and Raman studies of wet-spun films of hyaluronate with Li+, K+, Rb+, and Cs+ counterions” Bull. Am. Phys. Soc. 40, 469 (1995).
- D.C. O’Shea and T.J. Suleski, “Grayscale masks for diffractive optics: II. Commercial slide imagers,” in Diffractive Optics and Micro-Optics, Vol. 11, 1994 OSA Technical Digest Series, (Optical Society of America, Washington, DC, 1994), pp. 123-125.
- S.A. Lee, L.C. Myers, J.W. Powell, T.J. Suleski, and A. Rupprecht, “Raman and infrared studies of wet-spun films of Na-Hyaluronate,” J. of Biomolecular Structure & Dynamics, 11(1), 191-202 (1993).
- D.C. O’Shea and T.J. Suleski, “Fidelity of PostScript-generated masks for diffractive optics fabrication,” in Optical Design for Photonics Technical Digest, 1993 (Optical Society of America, Washington, DC, 1993),Vol. 9, pp. 65-66.
- Lee, S. A., Myers, L. C., Powell, J. W., Smith, T., Suleski, T. J., and Rupprecht, A. R., “Raman and infrared studies of wet-spun films of Na-hyaluronate” Bull. Am. Phys. Soc. 36, 403 (1991).