Reardon's Publications



  1. US Application(60/772,670) and (11/465,745), "Multi-Lens Array System and Method"
  2. US06392813, 5/21/2002, "Integrated Molded Plastic Optical System for a Laser Diode Collimating and Aberration Correction Configuration."
  3. US06183084, 2/6/2001, "Progressive Addition Lenses."
  4. US06000798, 12/14/1999, "Ophthalmic Optic Devices."


Publications, Refereed:

  1. Patrick Reardon, Fei Liu and Joseph Geary, "Schmidt-like corrector plate for cylindrical optics", Opt. Eng. 49, 053002 (2010)
    DOI #: 10.1117/1.3421652
  2. "Distortion compensation in interferometric testing of mirrors," B. Robinson, P.J. Reardon, Appl. Opt., Vol. 48 No. 3, pp. 560-565 (2009).
    DOI #: 10.1364/AO.48.000560
  3. "Geometric propagation of an axially symmetric optical wavefront in a homogeneous medium," B.M. Robinson, P.J. Reardon, K.B. Howell, Journal of Modern Optics, Vol. 56, No. 4, pp. 558 - 563, (2009).
    DOI #: 10.1080/09500340802650289
  4. "Determining parent radius and conic of an off-axis segment interferometrically with a spherical reference wave," Y. Pi., P.J. Reardon, Optics Letters, Vol. 32, Issue 9, pp. 1063-1065 (2007).
    DOI #: 10.1364/OL.32.001063
  5. "First-order motions in interferometric mirror testing: a linear transform approach," B. Robinson, P.J. Reardon, Journal of Modern Optics, Vol. 52, No. 18, p.2625, (2005).
    DOI #: 10.1080/09500340500260290
  6. "Multi-turn all-reflective optical gyroscope," Spencer Cole, Richard L. Fork, David Lamb, Patrick Reardon, Optics Express, Vol.7, No.8, p.285, (2000).
    DOI #: 10.1364/OE.7.000285
  7. "Regular Geometries for Folded Optical Modules," M.P Shamschula, P.J. Reardon, H.J. Caulfield, C.F. Hester, Applied Optics, Vol.34, No.5, pp.816-827 (1995).
    DOI #: 10.1364/AO.34.000816
  8. "Calculation of Rotationally Symmetric Multi-focal Lens Surface," P.J. Reardon, R.A. Chipman, S.F. Pietrzak, Journal of the American Optometric Assoc., Vol.63, No.2, pp. 140-144 (1992).
  9. "Maximum Power of Refractive Lenses: a Fundamental Limit," P.J. Reardon and R.A. Chipman, Optics Letters, Vol.15, No.23, pp.1409-1411(1991).
    DOI #: 10.1364/OL.15.001409
  10. "Buchdahl's Glass Dispersion Coefficients Calculated from Schott Equation Constants," P.J. Reardon and R.A. Chipman, Applied Optics, Vol.28, No.15, pp.3520-3523 (1989).
    DOI #: 10.1364/AO.28.003520
  11. "Buchdahl's Glass Dispersion Coefficients Calculated in the Near Infrared," R.A. Chipman and P.J. Reardon, Applied Optics, Vol.28, No.4, pp.694-698 (1989).
    DOI #: 10.1364/AO.28.000694


Publications, Unrefereed:

  1. "Cohering of multiple polariton lasers for sensing applications," R.L. Fork, L.A. Burgess, M.L. Davenport, D.M. Ramey, P.J. Reardon, D.B. Pollock, R.G. Lindquist, and D.M. Fork, Laser Source Technology for Defense and Security IV, M. Dubinskii, G.L. Wood, Eds., Proc. SPIE Vol. 6952, (2008).
    DOI #: 10.1117/12.777761
  2. "Multi-Confocal Paraboloidal Resonator," Fork, R.L., Reardon, P.J., Davenport, M.L., Cole, S.T., Burgess, L.A., Aiken, S.G., Directed Energy Symposium in Huntsville, AL November 7, 2007.
  3. Fork, R.L., Reardon, P.J., Cole, S.T., Burgess, L.A., Aiken, S.G., "Compact Monolithic Terawatt Laser," Directed Energy Symposium in Huntsville, AL November 7, 2007.
  4. "MCAO: a case study," J. M. Roche, P. J. Reardon, K. Pitalo, T. R. Rimmele, K. Richards, Advanced Wavefront Control: Methods, Devices, and Applications V, R.A. Carreras; J.D. Gonglewski; T.A. Rhoadarmer, Eds., Proc. SPIE Vol. 6711, (2007).
    DOI #: 10.1117/12.740986
  5. "Third order aberration solution using aberration polynomials for a general zoom lens design," H.K. An, J.L. Rayces, P.J. Reardon, Current Developments in Lens Design and Optical Engineering VIII, P.Z. Mouroulis; W.J. Smith; R.B. Johnson, Eds., Proc. SPIE Vol. 6667, (2007).
    DOI #: 10.1117/12.732206
  6. "Aerial Video Reconnaissance Using Large Sensor Arrays," Pollock, D.B., Reardon, P.J., Egnal, G., Rogers, T., Underwood. C., Klepfer, B., Bennett, B., Sensors, and Command, Control, Communications, and Intelligence (C3I) Technologies for Homeland Security and Homeland Defense VI, E.M. Carapezza, Ed., Proc. SPIE Vol. 6538, (2007).
    DOI #: 10.1117/12.719706
  7. "Novel in-space manufacturing concepts for the development of large space telescopes," Mooney, J. T., Reardon, P. J., Gregory, D., Manning, A., Blackmon, J.B., Howsman, T., Williams, P., Brantley, W., Rakoczy, J. M., Herren, K., Tucker, D., Sharma, A., Proc. SPIE Vol. 6265, (2006).
    DOI #: 10.1117/12.672255
  8. "Applying the Buchdahl dispersion model to infrared hybrid refractive-diffractive achromats," Pi, Y., Reardon, P.J.,. Pollock, D.B., Infrared Technology and Applications XXXII, B.F. Andresen; G.F. Fulop; P.R. Norton, Eds., Proc. SPIE Vol. 6206, (2006).
    DOI #: 10.1117/12.666072
  9. "Autonomous long-range open area fire detection and reporting," Engelhaupt, D.E., Reardon, P.J., Blackwell,, L., Warden, L., Ramsey B.D., Proc. SPIE Vol. 5782, (2005).
    DOI #: 10.1117/12.605926
  10. "Analysis of Mirror Image Spatial Resolution for Cryogenic Testing of the Advanced Mirror System Demonstrators," P.J. Reardon, J. Hadaway, SPIE Proc. 5532 (2004).
  11. "Unique aspects of designing & tolerancing an optical testing system," J. Hadaway, P.J. Reardon, SPIE Proc. 5523 (2004).
    DOI #: 10.1117/12.557321
  12. "Results of the beryllium AMSD mirror cryogenic optical testing," David M. Chaney, Robert J. Brown, Stephen E. Kendrick, Patrick J. Reardon, James B. Hadaway, Jay Carpenter, Ron Eng, Optical, Infrared, and Millimeter Space Telescopes, John C. Mather, Ed., SPIE Proc. 5487, (2004).
    DOI #: 10.1117/12.549956
  13. "Advanced mirror system demonstrator cryogenic test error budget," P.J. Reardon, J. Hadaway, J. Geary, B.M. Robinson, H.P. Stahl, R. Eng, IR Space Telescopes and Instruments, J.C. Mather, Ed., SPIE Proc. 4850, (2003)
    DOI #: 10.1117/12.461741
  14. "Cryogenic optical testing results for the Subscale Beryllium Mirror Demonstrator (SBMD)," J. Hadaway, J. Geary, P.J. Reardon, B.R. Peters, H.P. Stahl, R. Eng, J.W. Kegley, T. Reed, D. Byrd, IR Space Telescopes and Instruments, H.P. Stahl, Ed., SPIE Proc. 4451, (2001).
    DOI #: 10.1117/12.453625
  15. "AMSD test error budget sensitivity analysis," P.J. Reardon, J. Hadaway, J. Geary, B.R. Peters, H.P. Stahl, R. Eng, J. Keidel, J. Kegley, Optical Manufacturing and Testing IV, H.P. Stahl, Ed., SPIE Proc. 4451, (2001).
    DOI #: 10.1117/12.453642
  16. "Preliminary investigation of an active PLZT lens," B. R. Peters, P. J. Reardon, J. K. Wong, Integrated optics Devices V, G.C.Righini, S. Honkanen, Eds., SPIE Proc. 4277, (2001).
    DOI #: 10.1117/12.426800
  17. "Fabrication, metrology and modeling of the space-based lidar telescope for SPARCLE," B. R. Peters, P. J. Reardon, F. Amzajerdian, T. S. Blackwell, Lidar Remote Sensing for Industry and Environment Monitoring, Upendra N. Singh, Toshikazu Itabe, Nobuo Sugimoto, Eds., SPIE Proc. 4153, (2000).
    DOI #: 10.1117/12.417103
  18. "Lightweight lidar telescopes for space applications," B.R. Peters, P.J. Reardon, F.Amzajerdian, T.S. Blackwell, Lidar Remote Sensing for Industry and Environment Monitoring, Upendra N. Singh, Toshikazu Itabe, Nobuo Sugimoto, Eds., SPIE Proc. 4153, (2000).
    DOI #: 10.1117/12.417068
  19. "Construction and Space-qualification of a Lidar Telescope," F. Amzajerdian, T.S. Blackwell, B.R. Peters, P.J. Reardon, R. Young, 20th International Laser Radar Conference, Vichy, France, (2000).
  20. "Optical Testing of NGST developmental mirrors," J.B. Hadaway, J.M. Geary, P.J. Reardon, B.R. Peters, J. Keidel, G. Chavers, SPIE Proc. 4013, (2000).
  21. "A Compact Solid Polarization Phase Shifting Mach-Zehnder Interferometer," P.J. Reardon, J.L. Howard, G. Lawson, A. McPherson, M. Wells, SPIE Proc. 3754, (1999).
  22. "SPARCLE Optical System Design and Operational Characteristics," F. Amzajerdian, B.R. Peters, Y. Li, T.S. Blackwell, P.J. Reardon, Tenth Biennial Coherent Laser Radar Technology and Applications Conference, Mt. Hood, OR, p. 284-287, (1999).
  23. "Optical Design and Analysis of SPARCLE Telescope," Y. Li, F. Amzajerdian, B.R. Peters, T.S. Blackwell, P.J. Reardon, Tenth Biennial Coherent Laser Radar Technology and Applications Conference, Mt. Hood, OR, p. 288-291, (1999).
  24. "Thermal Considerations for the SPARCLE Optical System," P.J. Reardon, B.R. Peters, F. Amzajerdian, Laser Radar Technology and Applications IV, G.W. Kamerman, C. Werner, Eds., SPIE Proc. 3707, p. 244-255, (1999).
    DOI #: 10.1117/12.351348
  25. "Compact optical interconnect module," B.R. Peters, P.J. Reardon, J.V. Reardon, Microelectronic Structures and MEMS for Optical Processing III, M.E. Motamedi; H.P. Herzig, Eds., SPIE Proc. 3226, p.67-74, (1997).
    DOI #: 10.1117/12.284569
  26. "Compact Infrared Zoom Lens for the 3-5 um Spectral Band," R.B. Johnson, A. Mann, P.J. Reardon, B.R. Peters, Infrared Technologies and Applications XXII. B.F. Andresen, M.S. Scholl, Eds., SPIE Proc. 2744, p.181-192, (1996) (Invited)
  27. "Diffractives Go Industrial," D.H. Hochmuth, P.J. Reardon, Lasers and Optronics, Vol. 14, No.11, p.35, (1995).
  28. "Diffractive Optics Gives Lasers a New Twist," D.H. Hochmuth, P.J. Reardon, Photonics Spectra, Vol.29, Iss.8, p.95, (1995).
  29. "Application of Binary Optics to Producing Nondiffracting Beams," P.J. Reardon, A. D. Kathman, D.R. Brown, Optical Engineering for data Storage and Laser Imaging, M.E. Motamedi, L. Beiser, Eds., SPIE Proc. 2383, p.352-361, p.116-123, (1995).
    DOI #: 10.1117/12.209038
  30. "Design and Fabrication of a Compact Solid Optical Correlator for Optical Computing," P.J. Reardon, J.S. Pawley, T.S. Blackwell, J.P. Wilson, Properties and Characteristics of Optical Glass III. A.J. Marker, Ed., SPIE Proc. 2287, p. 116-123, (1994). (Invited)
    DOI #: 10.1117/12.190939
  31. "Proposed Applications of Monolithic Microlens Array Technology to Enhance IR Detector Performance," J.P. Wilson, P.J. Reardon, Infrared Technology XX, B.F. Anderson, Ed., SPIE Proc. 2269, p.348-355, (1994).
    DOI #: 10.1117/12.188650
  32. "Fabrication Considerations for Diffractive Ophthalmic Lenses," J.W. Foreman,Jr., A.D. Kathman, B.R. Peters, P.J. Reardon, Ophthalmic Lens Design and Fabrication II. D.M. Silberman, Ed., SPIE Proc. 2127, p.111-118, (1994). (Invited)
    DOI #: 10.1117/12.176832
  33. "Lens Measurement in Fundamental Units of Length and Power," P.J. Reardon and R.A. Chipman, Design of Optical Instruments, D.M. Aikens, V.L. Genberg, G.C. Krumweide, M.J. Thomas, Eds., SPIE Proc. 1690, p.4-10, (1992).
    DOI #: 10.1117/12.137993
  34. "Lens with Maximum Power Occupying a Given Cylindrical Volume," P.J. Reardon and R.A. Chipman, 1990 International Lens Design Conference Proceedings, G.N.Lawrence, Ed., SPIE Proc. 1354, p.234-239, (1990).
    DOI #: 10.1117/12.47891
  35. "Lens with Maximum Power for a Given Cylindrical Volume," P.J. Reardon and R.A. Chipman, Technical Digest on Lens Design, 1990. Optical Society of America, (1990).
  36. "Solid Optics," P. Reardon, R.A. Chipman, and H.J. Caulfield, Proceedings of the Workshop on Electronics and Electro-Optical Materials for Smart Munitions, GACIAC PR 87-01, (1987).