Jason D. Mudge, “Range Correcting Radiometric Lens, Method of Optical Design, and Range Finding System Using Same,” U.S. Patent No. 11,874,478 , Awarded 16 January, 2024.

Jason Mudge and Richard L. Kendrick, “Spatial aliasing quantification and analysis of existing imaging sensors: NASA’s Hubble space telescope, OrbView-3 OHRIS and commercial-off-the-shelf camera for autonomous robots,” SPIE, Opt. Eng., Vol. 62, Iss. 11, pp. 113104-1-13, OE-20230452G, 21 Nov., 2023.

Jason Mudge, “Spatial aliasing quantification and sampling frequency selection in optical imaging sensors,” Optica, Applied Optics, Vol. 62, No. 13, pp. 3260-3264, 20 April, 2023.

Jason Mudge, Adam Phenis, Andrew Nichols, Alicia Maccarrone, Alexander Cheff Halterman, “Polarization uncertainty and error equivalent radiance for an ultra- broadband, wide field-of-view push- broom imaging radiometer,” Proc. of SPIE, Earth Observing Systems XXVII, Vol. 12232, No. 1223206, 30 September, 2022.

Adam Phenis, Alexander Cheff Halterman, Andrew Nichols, Alicia Maccarrone, and Jason Mudge, “Design of an Ultra Broadband, Wide-Field-of-View Push-Broom Imaging Radiometer,” Proc. of SPIE, International Optical Design Conference (IODC) 2021, Vol. 12078, No. 120781J, 19 November, 2021.

Adam Phenis and Jason Mudge, “Review of Optical Manufacturing 2000 to 2020,” SPIE Press, Vol. PM334, Chap. 6, PDF ISBN: 9781510645370, Print ISBN: 9781510645363, Bellingham, WA, 2021.

Adam Phenis, Alexander Cheff Halterman, Andrew Nichols, Jason Mudge, and Alicia Maccarrone, “Design of an Ultra Broadband, Wide-Field-of-View Push-Broom Imaging Radiometer,” Optical Society of America, International Optical Design Conference (IODC) 2021, Analysis and Application, 2-pg conference abstract, IW5A.3, June, 2021.

Jason Mudge and Adam Phenis, “Range-compensating lens design, implementation, and experimental results,” Proc. of SPIE, Laser Radar Technology and Applications XXVI, Vol. 11744, No. 117440F, 12 April, 2021.

Jason Mudge, “Wavelength selection approach for an incoherent optical detection sensor (LiDAR),” Optical Society of America, Applied Optics, Vol. 59, No. 33, pp. 10396-10405, 20 November 2020.

Jason Mudge, “Back-of-the-envelope image resolution estimation using an aberrated Rayleigh criterion,” Optical Society of America, Applied Optics, Vol. 59, No. 33, pp. 10236-10242, 20 November, 2020.

Jason Mudge, “Designing an incoherent optical detection sensor (LiDAR) utilizing a range-compensating lens,” Optical Society of America, Applied Optics, Vol. 59, No. 20, pp. 6076-6084, 8 July, 2020.

Jason Mudge, “Specular return through a range-compensating lens,” Optical Society of America, Applied Optics, Vol. 59, No. 12, pp. 3568-3574, 20 April, 2020.

Jason Mudge, “Incoherent detection sensor design approach using Gaussian optics,” Optical Society of America, Applied Optics, Vol. 59, No. 7, pp. 1939-1947, 1 March, 2020.

Adam Phenis and Jason Mudge, “A variety of range compensating lens designs for active optical systems,” Proc. of SPIE, Industrial Optical Devices and Systems, Vol. 11125, No. 111250J, 30 August, 2019.

Jason Mudge, “Range-compensating lens for non-imaging active optical systems,” Optical Society of America, Applied Optics, Vol. 58, No. 28, pp. 7921-7928, 1 October, 2019.