Gilbert R. HOYpic

Professor of Physics

Office: OCNPS Building, Room 243, telephone (757) 683-5281

Laboratory: OCNPS Building, Room 232 telephone (757) 683-4993

Research Sponsors: None at the moment.

Current Research:

The general field of basic research is quantum nucleonics. I am interested in the interaction of electromagnetic waves, in the energy region corresponding to gamma radiation, with matter. I am particularly interested in the possibility of developing a gamma-ray laser. I have developed a theory of gamma-ray forward scattering which gives a clear physical explanation of interesting observed physical phenomena such as; the "speed-up" effect, dynamically beating and pi phase shift induced transparency.

I am interested in applying quantum optics results to gamma radiation. These include lasing without inversion and electromagnetic induced transparency. A new interesting new idea is the optical control of gamma radiation through the application of laser light .

Recent Publications:

Jos Odeurs and G. R. Hoy, “Quantum mechanical theory of the emission spectrum of Mössbauer sources due to self-absorption: an exact result for the line broadening, Nuclear Instruments and Methods in Physics Research B 254 (2007) 143-148.

Jos Odeurs and G. R. Hoy, “Formation time of the nuclear exciton due to a synchrotron radiation pulse”, Phys. Rev. B 71, 224301 (2005).

G. R. Hoy, “Speculations About a Proposed Experiment to Observe Stimulated Emission of Gamma Radiation”, Proceedings of the International Conference on “Frontiers Of Nonlinear Physics, July 2004.

G. R. Hoy, “Stimulated Emission of Gamma-Radiation: A Proposed Experiment”, Journal of Modern Physics vol. 51, no.16-18, 2599-2606 (2004).

C. L’Abbé, J Odeurs, G. R. Hoy, R. Callens, R. N. Shakhmuratov, and R. Coussement, “Nuclear Emission Holography”, Hyperfine Interactions 139/140, 691-698 (2002).

J Odeurs, G. R. Hoy, C. L’Abbé, G.E. J. Koops, H. Pattyn, R. N. Shakhmuratov, R. Coussement, N. Chiodini, and A. Paleari, “Resonant-Detector Mössbauer Spectric Studies of Sn Doped SiO₂ Analyzed Using Quantum Mechanical Theory”, Hyperfine Interactions 139/140, 685-690 (2002).

G. R. Hoy, “A New Way of Looking at Nuclear Resonant Scattering”, Hyperfine Interactions 135 191-213 (2001).

G. R. Hoy, “The Coherent-Path Approach to Forward Scattering of Recoil-Free Resonant Gamma Radiation”, in Directions in Quantum Optics, Eds. H. J. Carmichael, R.J. Glauber, M. O. Scully, (Springer-Verlag Berlin Heidelberg New York 2001).

G. R. Hoy, J. Odeurs and R. Coussement, “The coherent-path model for nuclear-resonant scattering of gamma radiation from nuclei excited by synchrotron radiation”, Physical Review B 63 184435(-1 to -15) (2001).

G. R. Hoy and J. Odeurs, “Gamma echo interpreted as a phase-shift-induced transparency”, Phys. Rev. B 63 064301(-1 to -8) (2001).

Industrial Applications of the Mössbauer Effect, Edited by Desmond C. Cook and Gilbert R. Hoy, Kluwer Academic Publishers, The Netherlands (2000).

J. Odeurs, G.R. Hoy, C. L’abbé, R. N. Shakhmuratov, and R. Coussement, “Quantum- mechanical theory of enhanced resolution in Mössbauer spectroscopy using a resonant detector”, Phys. Rev B 62, 6148-6157 (2000).

G. R. Hoy, J Odeurs, and R. Coussement, “π-phase-shift transparency of resonant gamma radiation”, Laser & Particle Beams, 18, 297- 300 (2000).

J. Odeurs and G. R. Hoy, “Gamma-NMR double resonance: a dressed state approach”, Laser & Particle Beams 18, 129-134 (2000).

J. Odeurs G. R. Hoy and Caroline L’addé, “Enhanced resolution in Mössbauer spectroscopy”, Journal of Physics: Condensed Matter 12, 637-642 (2000).

G. R. Hoy, Jos Odeurs, and Romain Coussement, “Nuclear resonant scattering using synchrotron radiation”, Hyperfine Interactions 120/121, 169-173 (1999).

Last Update: August 8, 2005