Publications of Glenn Edwards     :recent first  combined  bibtex listing:

Books
  1. G. Edwards, Physical Mechanisms that Govern the Ablation of Biological Tissue, in Experimental Methods in the Physical Sciences., Volume 30: Laser Desorption and Ablation, edited by J.C. Miller and R.F. Haglund. R. Celotta and T. Lucatorto, treatise editors (January, 1998), Academic Press .
  2. M.L. Copeland, R. J. Maciunas, and G.S. Edwards, Use of the Free-Electron Laser for Metastatic Brain Tumors, in Neurosurgical Topics: Advanced Techniques in Central Nervous System Metastases, The Anerican Association of Neurological Surgeons, edited by R.J. Maciunas (January, 1998) .
Papers Published
  1. Wolfgang Wagner, Adam Sokolow, Robert Pearlstein, and Glenn Edwards, Thermal Vapor Bubble and Pressure Dynamics During Infrared Laser Ablation of Tissue, Applied Physics Letters, vol. 94 no. 013901 (2009) .
  2. W.D. Bush, J. Garguilo, F. A. Zucca, C. Bellei, R.J. Nemanich, G.S. Edwards, L. Zecca, and J. Simon, Neuromelanins Isolated From Different Regions of the Brain Exhibit a Common Surface Photoionization Threshold, Photochemistry and Photobiology, vol. 85 (2009), pp. 387-390 .
  3. Yusuke Toyama, Xomalin Peralta, Adrienne Wells, Dan Kiehart, and Glenn Edwards, Apoptotic Force and Tissue Dynamics During Drosophila Embryogenesis, Science, vol. 321 (2008), pp. 1683-1686 .
  4. Glenn Edwards, Wolfgang Wagner, Adam Sokolow, and Robert Pearlstein, Pressure (mechanical) effects in infrared tissue ablation, Proceedings of SPIE, Invited Paper., vol. 6854 (2008), pp. 685410 .
  5. Alice Rodriguez-Diaz, Yusuke Toyama, Daniel L. Abravanel, John M. Winemann, Adrienne R. Wells, U. Serdar Tulu, Glenn S. Edwards, and Daniel P. Kiehart, Actomyosin purse strings: renewable resources that make morphogenesis robust and resilient, Human Frontier Science Program Journal, vol. 2 (2008), pp. 220-237 .
  6. X.G. Peralta, Y. Toyama, D.P. Kiehart, and G.S. Edwards, Emergent Properties During Dorsal Closure in Drosophila Morphogenesis, Physical Biology, vol. 5 (2008), pp. 015004(Invited Paper, Focus issue on the "Physical Aspects of Developmental Biology: 21st Century Perspectives on Growth and Form.".) .
  7. X.G. Peralta, Y. Toyama, M.S. Hutson, R. Montague, S. Venakides, D.P. Kiehart. and G.S. Edwards, Upregulation of forces and morphogenic asymmetries in dorsal closure during Drosophila development, Biophysical Journal, vol. 92 (2007), pp. 2583-2596 .
  8. Jacob Garguilo, Lian Hong, Glenn S. Edwards, Robert J. Nemanich, and John D. Simon, The Surface Oxidation Potential of Eumelanosomes Measured by Free Electron Laser Photoelectron Emission Microscopy, Photochemistry and Photobiology, vol. 83 (2007), pp. 692-697 .
  9. G.S. Edwards, R.D. Pearlstein, M.L. Copeland, M.S. Hutson, K. Latone, A. Spiro, and G. Pasmanik, 6450-nm Wavelength Tissue Ablation Using a Nanosecond Laser Based on Difference Frequency Mixing and Stimulated Raman Scattering, Optics Letters, vol. 32 (2007), pp. 1426-1428 .
  10. Tong Ye, Lian Hong, Jacob Garguilo, Anna Pawlak, Glenn S. Edwards, Robert J. Nemanich, Tadeusz Sarna and John D. Simon, Photoionization Thresholds of Melanins Obtained From Free-Electron Laser Photoelectron Emission Microscopy, Femtosecond Transient Absorption Spectroscopy, and EPR Measurements of Oxygen Photoconsumption, Photochemistry and Photobiology, vol. 82 (2006), pp. 733-737 .
  11. W.D. Bush, J. Garguilo, F.A. Zucca, A. Albertini, L. Zecca, G.S. Edwards, R.J. Nemanich, and J.D. Simon, The surface oxidation potential of human neuromelanin reveals a spherical architecture with a pheomelanin core and a eumelanin surface, Proceedings of the National Academy of Sciences USA, vol. 103 no. 40 (2006), pp. 14785-14789 .
  12. Lian Hong, Jacob Garguilo, Laura Anzaldi, Glenn S. Edwards, Robert J. Nemanich, and John D. Simon, Age-Dependent Ionization Potentials of Melanosomes and Lipofuscin Isolated from Human Retinal Pigment Epithelium Cells, Photochemistry and Photobiology, vol. 82 (2006), pp. 1475-1481 .
  13. D.P. Kiehart, Y. Tokutake, M.S. Chang, M.S. Hutson, J. Wiemann, X.G. Peralta, Y.Toyama, A.R. Wells, A.Rogriguez, and G.S. Edwards, Ultraviolet Laser Microbeam for Dissection of Drosophila Embryos, in Cell Biology: A Laboratory Handbook, 3rd edition, edited by J.E. Celis (2006), pp. 87-103, Elsevier(Chapter 9.) .
  14. G. S. Edwards, Applications of free-electron lasers to the biological and physical sciences, Proceedings of SPIE, vol. 5725 (2005), pp. 210-219 .
  15. G.S. Edwards, S. J. Allen, R.F. Haglund, R.J. Nemanich, B. Redlich, J.D. Simon, and W.-C. Yang, Applications of Free-Electron Lasers in the Biological and Materials Sciences, Invited Review, Photochemistry and Photobiology., vol. 81 (2005), pp. 711-735 .
  16. A. Samokhvalov, L. Hong, Y. Liu, J. Garguilo R.J. Nemanich, G.S. Edwards, and J.D. Simon., Oxidation Potentials of Human Eumelanosomes and Pheomelanosomes, Photochemistry and Photobiology, vol. 81 (2005), pp. 145-148 .
  17. M.S. Hutson and G.S. Edwards, Advances in the Physical Understanding of Laser Surgery at 6.45 Microns, Joint Accelerator Conferences Website, Physical Review Special Topics – Accelerator and Beams (2005) .
  18. A. Samokhvalov, J. Garguilo, W.-C. Yang, G.S. Edwards, R.J. Nemanich, and J.D. Simon, Photoionization Threshold of Eumelanosomes Determined Using UV Free Electron Laser-Photoelectron Emission Microscopy, J. Phys. Chem. B, vol. 108 (2004), pp. 16334 .
  19. E.D. Jansen, M. Copeland, G.S. Edwards, W. Gabella, K. Joos, M.A. Mackanos, J.H. Shen, and S.R. Uhlhorn, Therapeutic Applications of Free-Electron Lasers, in Handbook of Laser Technology and Applications, edited by Colin Webb and Julian Jones (2004), Institute of Physics Publishing .
  20. E.Sobol, A.Sviridov, M. Kitai, J. Gilligan, N. Tolk, and G. Edwards, Time-resolved, light scattering measurements of cartilage and cornea denaturation due to FEL radiation: effect of infrared wavelength, Journal of Biomedical Optics, vol. 8 (Spring, 2003), pp. 216-222 .
  21. E.N. Sobol, A.P.Sviridov, M.S. Kitai, and G.S. Edwards, Temperature Alternations of the Infrared Light Absorption by Cartilage and Cornea under Free Electron Laser Radiation, Applied Optics, vol. 42 (2003), pp. 2443-2449 .
  22. G.S. Edwards, R.H. Austin, F.E. Carroll, M.L. Copeland, M.E. Couprie, W.E. Gabella, R.F. Haglund, B.A. Hooper, M.S. Hutson, E.D. Jansen, K.M. Joos, D.P. Kiehart, I. Lindau, J. Miao, H.S. Pratisto, J.H. Shen, Y. Tokutake, L. van Der Meer, and A. Xie, FEL-based biophysical and biomedical instrumentation, Invited paper, Review of Scientific Instruments, vol. 74 no. 7 (2003), pp. 3207-3245 .
  23. M.S. Hutson, Y. Tokutake, M.S.Chang, J.W. Bloor, S. Venakides, D.P. Kiehart, and G.S. Edwards, Forces for morphogenesis investigated with laser-microsurgery and quantitative modeling, Science, vol. 300 (2003), pp. 145-149 .
  24. M. Shane Hutson and Glenn Edwards, Advantage of the Mark-III FEL for Biophysical Research and Biomedical Applications, Journal of Synchrotron Radiation, vol. 10 (2003), pp. 354-357 .
  25. G.S. Edwards, M.S. Hutson, and S. Hauger, Heat Diffusion and Chemical Kinetics in Mark-III FEL Tissue Ablation, in Commercial and Biomedical Applications of Ultrafast and Free Electron Lasers, edited by Glenn S. Edwards, Joseph Neev, Andreas Ostendorf, and John Sutherland, vol. 4633 (January, 2002), pp. 184-193 .
  26. G.S. Edwards, M.S. Hutson, S. Hauger, J. Kozub, J. Shen, C. Shief, K. Topadze, and K. Joos, Comparison of OPO and Mark-III FEL for Tissue Ablation at 6.45 Microns, in Commercial and Biomedical Applications of Ultrafast and Free Electron Lasers, edited by Glenn S. Edwards, Joseph Neev, Andreas Ostendorf, and John Sutherland, vol. 4633 (January, 2002), pp. 194-200 .
  27. M.S. Hutson, R.A. Palmer, M.-S. Chang, A. Gillikin, V.N. Litvinenko, and G. Edwards, Commissioning of a UV/Time-Resolved-FTIR Bemline at the Duke FEL Laboratory, Nuclear Instruments and Methods in Physics Research A, vol. 483 (2002), pp. 560-564 .
  28. M.S. Hutson, S.A. Hauger, and G. Edwards, Thermal Diffusion and Chemical Kinetics in Laminar Biomaterial Due to Heating by a Free-Electron Laser, Physical Review E, vol. 65 (2002), pp. 061906 .
  29. M.S. Hutson, R.A. Palmer, A. Gillikin, M.-S. Chang, V.N. Litvinenko, and G.S. Edwards, UV/Time-Resolved FTIR Beamline at the Duke FEL Laboratory, in Commercial and Biomedical Applications of Ultrafast and Free Electron Lasers, Proceedings of the SPIE, edited by Glenn S. Edwards, Joseph Neev, Andreas Ostendorf, and John Sutherland, vol. 4633 (2002), pp. 225-232 .
  30. J.H. Shen, J.A. Harrington, G.S. Edwards, and K.M. Joos, Hollow-glass waveguide delivery of infrared free electron laser for microsurgical applications, Applied Optics, vol. 40 (January, 2001), pp. 583-587 .
  31. E.J. Swift, Jr., G.S. Edwards, J. Perdigao, J.Y. Thompson, M.F. Nunes, D.E. Ruddell, and A. Negishi, Free-electron laser etching of dental enamel, Journal of Dentistry, vol. 29 (January, 2001), pp. 347-353 .
  32. E.J. Swift, Jr., G.S. Edwards, J. Perdigao, J.Y. Thompson, M.F>Nunes, D.E. Ruddell, and A. Negishi, Free-electron laser etching of dental enamel, Journal of Dentistry, vol. 29 (2001), pp. 347-353 .
  33. G. Edwards, C. Fowler, M.S. Hutson, V. Litvinenko, R. Palmer and B. Roberts, Light source capabilities and applications research at the Duke FEL Laboratory, edited by Glenn S. Edwards and John C. Sutherland, Proceedings of SPIE, vol. 3925 (January, 2000), pp. 106-111 .
  34. E.N. Sobol, A.P. Sviridov, M.S. Kitai, J. Gilligan, and G.S. Edwards, Alterations of absorption coefficient of tissue water as a result of the heating under the IR FEL radiation with different wavelengths, International Biomedical Optics Symposium, SPIE, vol. 3925 (January, 2000), pp. 78 .
  35. B.J. Keay, M. Mendenhall, and G.S. Edwards, Time-Resolved Infrared Transmittance and Reflectance of a Propagating Melt in GaAs, Physical Review B, vol. 60 (January, 1999), pp. 10898-10902 .
  36. E. Sobol, A. Sviridov, M. Kitai, G. Edwards, J. Gilligan, and N.H. Tolk, Effect of wavelength on threshold and kinetics of tissue denaturation under laser radiation, International Biomedical Optics Symposium (1999) .
  37. G. Edwards, D. Engh, J. Kozub, and R. Williams, Infrared Dynamics of Collagen, Microtubules, and Water: Biophysical Research Enabling Biomedical FEL Applications, Nuclear Instruments and Methods in Physics Research B, vol. 144 (January, 1998), pp. 260-264 .
  38. R. D. Robinson and J. H. Shen and K. M. Joos and D. J. Shetlar and G. S. Edwards and D. M. Oday, Healing of cultured human cornea after free electron laser ablation, Investigative Ophthalmology \& Visual Science, vol. 38 no. 4 (March, 1997), pp. 1916 -- 1916 .
  39. J. H. Shen and K. J. Loos and D. J. Shetlar and R. D. Robinson and D. M. Oday and G. S. Edwards, Investigation of a clinical intraocular microsurgical device using the infrared free electron laser, Investigative Ophthalmology \& Visual Science, vol. 38 no. 4 (March, 1997), pp. 418 -- 418 .
  40. G. S. Edwards and D. Evertson and W. Gabella and R. Grant and T. L. King and J. Kozub and M. Mendenhall and J. Shen and R. Shores and S. Storms and R. H. Traeger, Free-electron lasers: Reliability, performance, and beam delivery, Ieee Journal Of Selected Topics In Quantum Electronics, vol. 2 no. 4 (December, 1996), pp. 810 -- 817 .
  41. K. M. Joos and J. H. Shen and G. S. Edwards and D. J. Shetlar and J. M. Khoury and R. D. Robinson, Infrared free electron laser-tissue interactions with human, Investigative Ophthalmology \& Visual Science, vol. 37 no. 3 (February, 1996), pp. 1985 -- 1985 .
  42. M. Z. Zhang and G. S. Edwards and L. Reinisch and V. A. Vasagrande and J. A. Mckanna, Microglial responses to free-electron laser incisions in rat-brain, Faseb Journal, vol. 9 no. 3 (March, 1995), pp. A382 -- A382 .
  43. G. S. Edwards and B. Johnson and J. Kozub and J. Tribble and K. Wagner, Biomedical applications of free-electron lasers, Optical Engineering, vol. 32 no. 2 (February, 1993), pp. 314 -- 319 .
  44. G. S. Edwards and N. H. Tolk, Vanderbilt-university fel center for biomedical and materials research, Nuclear Instruments \& Methods In Physics Research Section A-accelerators Spectrometers Detectors And Associated Equipment, vol. 272 no. 1-2 (October, 1988), pp. 37 -- 39 .
  45. J. W. Powell and G. S. Edwards and L. Genzel and F. Kremer and A. Wittlin and W. Kubasek and W. Peticolas, Investigation of far-infrared vibrational-modes in polynucleotides, Physical Review A, vol. 35 no. 9 (May, 1987), pp. 3929 -- 3939 .
  46. C. C. Davis and G. S. Edwards and M. L. Swicord and J. Sagripanti and J. Saffer, Direct excitation of internal-modes of dna by microwaves, Bioelectrochemistry And Bioenergetics, vol. 16 no. 1 (August, 1986), pp. 63 -- 76 .
  47. G. S. Edwards and C. C. Davis and J. D. Saffer and M. L. Swicord, Microwave-field-driven acoustic modes in dna, Biophysical Journal, vol. 47 no. 6 (1985), pp. 799 -- 807 .
  48. G. S. Edwards, Correction, Physical Review Letters, vol. 53 no. 21 (1984), pp. 2060 -- 2060 .
  49. G. S. Edwards and C. C. Davis and J. D. Saffer and M. L. Swicord, Resonant microwave-absorption of selected dna-molecules, Physical Review Letters, vol. 53 no. 13 (1984), pp. 1284 -- 1287 .
Papers Accepted
  1. Glenn Edwards, Mechanisms for Soft-Tissue Ablation and the Development of Alternative Medical Lasers Based on Investigations with Mid-Infrared Free-Electron Lasers, Laser & Photonics Reviews. Invited Paper. (2009) .