Nuclear Physics
1. “Pion inelastic scattering to the low-lying excited states of Li6 ” Luna GA con R.R. Kiziah et. al. Phys. Rev. C. 30, 5, 1643 (Nov. 1984).
Particle Physics
2. “Fitting of Hadron spectrum in 5-D conformal relativity”. G.A. Luna-Acosta, Nuovo Cimento, 94 A, 25 (Jul. 1986)
3. “Feynman graph rules for pNN interaction and matrix elements for pπo → pπo in 5-D Conformal QFT”, G.A. LunaAcosta, Int.Journal of Modern Physics A, 4, 20 (1989)5411-5432 and ICTP IC84188
4. An explanation of “the negative neutrino mass squared” anomaly in the Tritium-beta-decay based on a Theory of mass”, R.L. Ingraham, G.A. Luna-Acosta, and J.M. Wilkes, Los Alamos Archive, hep-ph/0012060.
3. “Feynman graph rules for pNN interaction and matrix elements for pπo → pπo in 5-D Conformal QFT”, G.A. LunaAcosta, Int.Journal of Modern Physics A, 4, 20 (1989)5411-5432 and ICTP IC84188
4. An explanation of “the negative neutrino mass squared” anomaly in the Tritium-beta-decay based on a Theory of mass”, R.L. Ingraham, G.A. Luna-Acosta, and J.M. Wilkes, Los Alamos Archive, hep-ph/0012060.
Condensed matter physics and Photonics
5. “Hydrogenic impurities in superlattices with parabolic Quantum Well Profiles”. G.A. LunaAcosta, Solid State Comm. 55,1,5 (Jul. 1985)..
6. “Influence of impurity states on the relaxation process of a 2D photoexcited hot electron plasma”, J.L. Carrillo, G. LunaAcosta, J. Arriaga y M.A. Rodríguez, Solid State Comm. 63, 773 (Feb. 1987).
7. “Electromagnetic Fields generated by a charged particle moving slowly in a conducting medium”, A. A. Krokhin, G.A. LunaAcosta, and J. Madrigal-Melchor, Phys. Rev.B. 55 (Jan.1997)268.
43. “Localization length for one –dimensional array of dielectric bi-layers with correlated positional disorder”, N.M. Makarov, F.M. Izrailev. And G. A. Luna-Acosta. Proc. Sixth International Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves MSMW '07, pp. 140-145, edited by A. Kostenko, A. Nosich, and V. Yakovenko (IEEE, New Jersey, 2007).
44. "Impurity effects in the microwave photonic Kronig-Penney model", G. A. Luna-Acosta, H. Schanze,U. Kuhl, and H.-J. Stöckmann, New J. Phys. 10 043005 (2008) 1367-2630
46. “One dimensional Kronig-Penney with positional disorder. Theory versus experiment”,
G. A. Luna-Acosta, F.M. Izrailev, N.M. Makarov, U. Kuhl, and H.-J. Stöckmann, Phys. Rev. B 80 (2009). 115112.
47. “Effect of Fabry-Perot resonances in disordered one-dimensional array of alternating dielectric bi-layers” G. A. Luna-Acosta, and N.M. Makarov, Ann. Phys. (Berlin) 18, No. 12 (2009)887.
6. “Influence of impurity states on the relaxation process of a 2D photoexcited hot electron plasma”, J.L. Carrillo, G. LunaAcosta, J. Arriaga y M.A. Rodríguez, Solid State Comm. 63, 773 (Feb. 1987).
7. “Electromagnetic Fields generated by a charged particle moving slowly in a conducting medium”, A. A. Krokhin, G.A. LunaAcosta, and J. Madrigal-Melchor, Phys. Rev.B. 55 (Jan.1997)268.
43. “Localization length for one –dimensional array of dielectric bi-layers with correlated positional disorder”, N.M. Makarov, F.M. Izrailev. And G. A. Luna-Acosta. Proc. Sixth International Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves MSMW '07, pp. 140-145, edited by A. Kostenko, A. Nosich, and V. Yakovenko (IEEE, New Jersey, 2007).
44. "Impurity effects in the microwave photonic Kronig-Penney model", G. A. Luna-Acosta, H. Schanze,U. Kuhl, and H.-J. Stöckmann, New J. Phys. 10 043005 (2008) 1367-2630
46. “One dimensional Kronig-Penney with positional disorder. Theory versus experiment”,
G. A. Luna-Acosta, F.M. Izrailev, N.M. Makarov, U. Kuhl, and H.-J. Stöckmann, Phys. Rev. B 80 (2009). 115112.
47. “Effect of Fabry-Perot resonances in disordered one-dimensional array of alternating dielectric bi-layers” G. A. Luna-Acosta, and N.M. Makarov, Ann. Phys. (Berlin) 18, No. 12 (2009)887.
Nonlinear Optics
8. “Highly dissipative Henon map behavior in in the Four level model CO2 Laser with modulated losses”, C.L. Pando, G.A. Luna-Acosta (Acosta GAL), R. Meucci, and M. Ciofini, Phys. Lett. A 119 (1995) p. 191-198.
9. “Phase Dynamics in a single Mode Class-B laser”, C. Pando and G. A. Luna-Acosta,(Acosta GAL) Optics Comm. 114 (1995) 509-518.
9. “Phase Dynamics in a single Mode Class-B laser”, C. Pando and G. A. Luna-Acosta,(Acosta GAL) Optics Comm. 114 (1995) 509-518.
Classical and quantum Chaos and applications.
10.“Chaos and loss of Predictability in the periodically perturbed Linear Harmonic Oscillator”, G.Luna Acosta y E. Cantoral, Revista Mexicana de Física, 35, 2 (1989)222-235.
11. “Caos en la Mecánica de Newton”, G.A. Luna-Acosta, Revista Mexicana de Física, 36, 2 (1990) 633.
12. “Regular and Chaotic Dynamics of the Damped Fermi Accelerator”, G.A. Luna-Acosta, Physical Review A 42, 7155 (1990).
13. “On the Sensitive Dependence of Quantum Mechanical Quantities”, G.A. Luna-Acosta, en Quantum Chaos, eds. H.Cerdeira, R. Ramaswamy, M.C. Gutzwiller y G. Casati ( World Scientific, 1991)pp. 118-130.
14. “On chaos in quantum mechanics: the two meanings of sensitive dependence”, R.L. Ingraham and G. A. Luna-Acosta (Acosta GL), Phys. Lett.A. 181 (1993).
15. “Quantum Cyclotron Resonance in an Intrinsically Degenerate System: Non linear Cyclotron Resonance”, V. Ya. Demikhovsky, G.A. LunaAcosta and D. Kamenev, Phys. Rev. E 52 (1995) p. 3351.
16. “Band Structure and Quantum Poincare Surfaces of a classically chaotic Rippled Channel”, G. A. LunaAcosta, K. S. Na, L. E. Reichl, and A.A. Krokhin, Phys. Rev. E 53 (1995) p. 3271.
17a. “Quantum Resonance in an intrinsic Degenerate System: Quasi-Energy States”, V.Ya. Demiskhovskii, D. I. Kamenev, and G. A. LunaAcosta, Radiophysika 38,Nos 5-6 (1995) 1444;
17b “Quantum cyclotron resonance in a degenerate system. Quasienergetic states “, V.Ya. Demiskhovskii, D. I. Kamenev, and G. A. LunaAcosta, Radiophysics and Quantum Electronics, (Springer New York), Vol. 38 (1995)151-6
18. “Ballistic Transport Properties of a 2D Rippled Mesoscopic Channel. Classical Regime”, G. A. Luna-Acosta, A. Krokhin, and M.A. Rodriguez,en Chaos in Mesoscopic Systems, eds. H. Cerdeira and G. Casati ( World Scientific, 1996)pp. 193-204.
19. “Classical Chaos and Ballistic Transport Properties in a mesoscopic Rippled Channel”, G. A. LunaAcosta, A. A. Krokhin, M. A.Rodríguez-Meza, and P.H. Hernández-Tejeda, Phys. Rev. B 54 (Oct. 1996)11410.
20. “Chaotic Effects in Electron Drag Processes in Metals”, J.M. Galligan, L.N. Gumen, I.V. Krivoshey, A. A. Krokhin, and G.A. Luna-Acosta, Phil. Mag. A77 (April 1998) 507.
21. “Quantum and Classical ballistic transport in a chaotic 2D electron channel”, G.A. Luna-Acosta, M.A. Rodríguez, A.A. Krokhin, K. Na, and R.A. Méndez, Rev. Mex. Fis. 44 supl. 3 (Dec. 1998)7.
22. “Quantum weak Chaos in a degenerate system”, V.Ya. Demikhovskii, D.I. Kamenev, and G.A. Luna-Acosta, Phys. Rev. E 59, No. 1 (Jan. 1999) 294-302. ISSN: 1539-3755
23. “Quantum-classical correspondence for local density of states and eigenfunctions of a chaotic periodic billiard”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez and F. M. Izrailev. Phys. Lett. A, 274 (2000) 192-199. ISSN: 0375-9601
24. “Periodic chaotic billiards: Quantum-classical correspondence in energy space”, G.A. Luna-Acosta, J.A. Mendez-Bermúdez and F.M. Izrailev. Phys. Rev. E, 64 (3), 036206-1, 18 (2001).
25. “Chaotic classical scattering and dynamics in oscillating 1D potential wells”, G.A. Luna-Acosta, G. Orellana Rivadeneyra, A. Mendoza-Galván and C. Jung, Chaos, Solitons, and Fractals 12 (2001) 349-363
26. “On the Dynamical and Statistical Properties of Complex Quantum Systems”, G.A. Luna-Acosta, F.M. Izrailev and A.A. Krokhin, Revista Mexicana de Física, Vol. 46, Suplemento 2 (2001) 16-21.
27. “El caos y la mecánica cuántica. Billares caóticos”, G.A. Luna-Acosta y J.A. Méndez- Bermúdez, Boletín de la Sociedad Mexicana de Física, Vol. 15, Num. 2, pag. 53 (2001)
28. “Classical versus quantum structure of the scattering probability matriz. Chaotic wave-guides”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez, P. Šeba and K.N. Pichugin, Physical Review E 65, (2002) 046605-046612
29. “Directional emission from microlasers with open chaotic resonators”, J.A. Mendez-Bermudez, G.A. Luna-Acosta and P. Seba, 2 Phys. Stat. Solidi(b) 230, 2, (2002) 385-389
30. “Chaotic electron motion in superlattices: quantum-classical correspondence of the structure of eigenstates and LDOS”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez and F.M. Izrailev, Physica E 12 (2002) 267-271.
31. “Understanding quantum scattering properties in terms of purely classical dynamics. 2D open chaotic billiards”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez, and P. Seba, Phys. Rev.E 66 ( 2002)046207
32. “Quasi-energy band structure of the harmonically driven delta function Chain”, D.F.Martinez, L.E. Reichl, G.A. Luna-Acostat, Phys. Rev. B, 66 (Nov. 2002)174306
33. “Chaotic Wave-guide based resonator for microlasers”, J.A. Méndez-Bermúdez, G.A. Luna-Acosta, P. Seba and K.N. Pichugin, Phys. Rev. B 67, Rapid Comm. ( 2003) 161104(R).
34. “Ballistic Localization in Quasi-1D Waveguides with Rough Surfaces”, F.M. Izrailev, J.A. Méndez-Bermúdez, and G.A. Luna-Acosta, Phys. Rev. E 68, 066201-1,5(2003) .
35. “Amplitude and Gradient Scattering in Waveguides with Corrugated Surfaces”, F.M. Izrailev, G.A. Luna-Acosta, and J.A. Méndez-Bermúdez, and M. Rendón. Phys. Stat. Solidi (c) 0,3032(2003), cond-mat/03006038.
36. “From chaos to disorder in quasi-1D billiards with corrugated surfaces”, J.A. Mèndez-Bermùdez, G.A. Luna-Acosta, and F.M. Izrailev, Physica E22, (2004)881.
37. “Solution of the eigenvalue problem for 2D modulated billiards using a Coordinate transformation”, J.A.Méndez-Bermúdez, G.A. Luna-Acosta, and F.M. Izrailev, Commun, Nonlinear Sci. Numer. Simulat 10 (2005) 787-795
38. “Reconstruction of the chaotic set from classical cross section data”, C.Jung, G.Orellana-Rivadeneyra, and G.A. Luna Acosta, J. Phys, A, Math. & Gral , 38, (2005)567-585
39. “Design of beam Splitters and microlasers using chaotic waveguides”, O. Bendix, J.A. Méndez-Bermúdez, G.A. Luna-Acosta, U. Kuhl, and H.-J. Stöckmann, Microlelectronics Journal, 36, ( 2005) 285-288
40. “Micro Laser Design based on Wave Chaos”, J.A. Mèndez-Bermùdez, G.A. Luna-Acosta, P.Seba, K. N. Pichugin, U. Kuhl, and H-J. Stoeckmann, Chapter 8 in Trends in Laser and Electro-Optics Research, edited by W.T. Arkin (Nova Science Publishers, New York, 2006) ISBN: 1-59454-498-0 http://books.google.com.mx/books?id=XkfY87-VlooC
41. “Multicavity wave resonator design using chaos studies”. [ SPIE ] J.A.Mendez-Bermudez and G. A. Luna-Acosta. Proc. SPIE 6422, 64220.(published online May. 15, 2007)
42. “Microwave chaotic open cavities. Applications of dynamical trapping”, G. A. Luna-Acosta and J. A. Méndez-Bermúdez, Proc. Sixth International Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves 2007. MSMW '07, pp. 137-139, edited by A. Kostenko, A. Nosich, and V. Yakovenko (IEEE, New Jersey, 2007).
45.“Ondulating 2D waveguides. Dynamical and transport properties” G.A.Luna-Acosta, J.J.Reyes Salgado and J.A. Méndez-Bermúdez., Microelectronics Journal. http://www.sciencedirect.com/science/journal/00262692. (online 15/05/2008)
48. “Multidirectional tunable wave resonators”. [ SPIE ] J. A. Mendez-Bermudez, C. Tapia-Ignacio, and G. A. Luna-Acosta. Proc. SPIE 7499, 74991A (2009)
49. "Dynamics of particles in corrugated waveguides. Classical description" A. J. Martínez-Mendoza, J. A. Méndez-Bermúdez, and
G. A. Luna-Acosta, Rev. Mex. Fis (2010, to be published)
50. ”Unidirectional two-dimensional periodic waveguides” A. Alcázar-López, J. A. Méndez-Bermúdez, and G. A. Luna-Acosta, Rev. Mex. Fis. Vol 100(2010, to be published)
51, ¨Statistics of level spacings in open chaotic systems. A Generalization of the Wigner Surmise ”. C. Poli, G. A. Luna-Acosta, and H.-J.Stöckmann Phys Rev Lett. 2012 Apr 27;108(17):174101. Epub 2012 Apr 26
11. “Caos en la Mecánica de Newton”, G.A. Luna-Acosta, Revista Mexicana de Física, 36, 2 (1990) 633.
12. “Regular and Chaotic Dynamics of the Damped Fermi Accelerator”, G.A. Luna-Acosta, Physical Review A 42, 7155 (1990).
13. “On the Sensitive Dependence of Quantum Mechanical Quantities”, G.A. Luna-Acosta, en Quantum Chaos, eds. H.Cerdeira, R. Ramaswamy, M.C. Gutzwiller y G. Casati ( World Scientific, 1991)pp. 118-130.
14. “On chaos in quantum mechanics: the two meanings of sensitive dependence”, R.L. Ingraham and G. A. Luna-Acosta (Acosta GL), Phys. Lett.A. 181 (1993).
15. “Quantum Cyclotron Resonance in an Intrinsically Degenerate System: Non linear Cyclotron Resonance”, V. Ya. Demikhovsky, G.A. LunaAcosta and D. Kamenev, Phys. Rev. E 52 (1995) p. 3351.
16. “Band Structure and Quantum Poincare Surfaces of a classically chaotic Rippled Channel”, G. A. LunaAcosta, K. S. Na, L. E. Reichl, and A.A. Krokhin, Phys. Rev. E 53 (1995) p. 3271.
17a. “Quantum Resonance in an intrinsic Degenerate System: Quasi-Energy States”, V.Ya. Demiskhovskii, D. I. Kamenev, and G. A. LunaAcosta, Radiophysika 38,Nos 5-6 (1995) 1444;
17b “Quantum cyclotron resonance in a degenerate system. Quasienergetic states “, V.Ya. Demiskhovskii, D. I. Kamenev, and G. A. LunaAcosta, Radiophysics and Quantum Electronics, (Springer New York), Vol. 38 (1995)151-6
18. “Ballistic Transport Properties of a 2D Rippled Mesoscopic Channel. Classical Regime”, G. A. Luna-Acosta, A. Krokhin, and M.A. Rodriguez,en Chaos in Mesoscopic Systems, eds. H. Cerdeira and G. Casati ( World Scientific, 1996)pp. 193-204.
19. “Classical Chaos and Ballistic Transport Properties in a mesoscopic Rippled Channel”, G. A. LunaAcosta, A. A. Krokhin, M. A.Rodríguez-Meza, and P.H. Hernández-Tejeda, Phys. Rev. B 54 (Oct. 1996)11410.
20. “Chaotic Effects in Electron Drag Processes in Metals”, J.M. Galligan, L.N. Gumen, I.V. Krivoshey, A. A. Krokhin, and G.A. Luna-Acosta, Phil. Mag. A77 (April 1998) 507.
21. “Quantum and Classical ballistic transport in a chaotic 2D electron channel”, G.A. Luna-Acosta, M.A. Rodríguez, A.A. Krokhin, K. Na, and R.A. Méndez, Rev. Mex. Fis. 44 supl. 3 (Dec. 1998)7.
22. “Quantum weak Chaos in a degenerate system”, V.Ya. Demikhovskii, D.I. Kamenev, and G.A. Luna-Acosta, Phys. Rev. E 59, No. 1 (Jan. 1999) 294-302. ISSN: 1539-3755
23. “Quantum-classical correspondence for local density of states and eigenfunctions of a chaotic periodic billiard”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez and F. M. Izrailev. Phys. Lett. A, 274 (2000) 192-199. ISSN: 0375-9601
24. “Periodic chaotic billiards: Quantum-classical correspondence in energy space”, G.A. Luna-Acosta, J.A. Mendez-Bermúdez and F.M. Izrailev. Phys. Rev. E, 64 (3), 036206-1, 18 (2001).
25. “Chaotic classical scattering and dynamics in oscillating 1D potential wells”, G.A. Luna-Acosta, G. Orellana Rivadeneyra, A. Mendoza-Galván and C. Jung, Chaos, Solitons, and Fractals 12 (2001) 349-363
26. “On the Dynamical and Statistical Properties of Complex Quantum Systems”, G.A. Luna-Acosta, F.M. Izrailev and A.A. Krokhin, Revista Mexicana de Física, Vol. 46, Suplemento 2 (2001) 16-21.
27. “El caos y la mecánica cuántica. Billares caóticos”, G.A. Luna-Acosta y J.A. Méndez- Bermúdez, Boletín de la Sociedad Mexicana de Física, Vol. 15, Num. 2, pag. 53 (2001)
28. “Classical versus quantum structure of the scattering probability matriz. Chaotic wave-guides”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez, P. Šeba and K.N. Pichugin, Physical Review E 65, (2002) 046605-046612
29. “Directional emission from microlasers with open chaotic resonators”, J.A. Mendez-Bermudez, G.A. Luna-Acosta and P. Seba, 2 Phys. Stat. Solidi(b) 230, 2, (2002) 385-389
30. “Chaotic electron motion in superlattices: quantum-classical correspondence of the structure of eigenstates and LDOS”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez and F.M. Izrailev, Physica E 12 (2002) 267-271.
31. “Understanding quantum scattering properties in terms of purely classical dynamics. 2D open chaotic billiards”, G.A. Luna-Acosta, J.A. Méndez-Bermúdez, and P. Seba, Phys. Rev.E 66 ( 2002)046207
32. “Quasi-energy band structure of the harmonically driven delta function Chain”, D.F.Martinez, L.E. Reichl, G.A. Luna-Acostat, Phys. Rev. B, 66 (Nov. 2002)174306
33. “Chaotic Wave-guide based resonator for microlasers”, J.A. Méndez-Bermúdez, G.A. Luna-Acosta, P. Seba and K.N. Pichugin, Phys. Rev. B 67, Rapid Comm. ( 2003) 161104(R).
34. “Ballistic Localization in Quasi-1D Waveguides with Rough Surfaces”, F.M. Izrailev, J.A. Méndez-Bermúdez, and G.A. Luna-Acosta, Phys. Rev. E 68, 066201-1,5(2003) .
35. “Amplitude and Gradient Scattering in Waveguides with Corrugated Surfaces”, F.M. Izrailev, G.A. Luna-Acosta, and J.A. Méndez-Bermúdez, and M. Rendón. Phys. Stat. Solidi (c) 0,3032(2003), cond-mat/03006038.
36. “From chaos to disorder in quasi-1D billiards with corrugated surfaces”, J.A. Mèndez-Bermùdez, G.A. Luna-Acosta, and F.M. Izrailev, Physica E22, (2004)881.
37. “Solution of the eigenvalue problem for 2D modulated billiards using a Coordinate transformation”, J.A.Méndez-Bermúdez, G.A. Luna-Acosta, and F.M. Izrailev, Commun, Nonlinear Sci. Numer. Simulat 10 (2005) 787-795
38. “Reconstruction of the chaotic set from classical cross section data”, C.Jung, G.Orellana-Rivadeneyra, and G.A. Luna Acosta, J. Phys, A, Math. & Gral , 38, (2005)567-585
39. “Design of beam Splitters and microlasers using chaotic waveguides”, O. Bendix, J.A. Méndez-Bermúdez, G.A. Luna-Acosta, U. Kuhl, and H.-J. Stöckmann, Microlelectronics Journal, 36, ( 2005) 285-288
40. “Micro Laser Design based on Wave Chaos”, J.A. Mèndez-Bermùdez, G.A. Luna-Acosta, P.Seba, K. N. Pichugin, U. Kuhl, and H-J. Stoeckmann, Chapter 8 in Trends in Laser and Electro-Optics Research, edited by W.T. Arkin (Nova Science Publishers, New York, 2006) ISBN: 1-59454-498-0 http://books.google.com.mx/books?id=XkfY87-VlooC
41. “Multicavity wave resonator design using chaos studies”. [ SPIE ] J.A.Mendez-Bermudez and G. A. Luna-Acosta. Proc. SPIE 6422, 64220.(published online May. 15, 2007)
42. “Microwave chaotic open cavities. Applications of dynamical trapping”, G. A. Luna-Acosta and J. A. Méndez-Bermúdez, Proc. Sixth International Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves 2007. MSMW '07, pp. 137-139, edited by A. Kostenko, A. Nosich, and V. Yakovenko (IEEE, New Jersey, 2007).
45.“Ondulating 2D waveguides. Dynamical and transport properties” G.A.Luna-Acosta, J.J.Reyes Salgado and J.A. Méndez-Bermúdez., Microelectronics Journal. http://www.sciencedirect.com/science/journal/00262692. (online 15/05/2008)
48. “Multidirectional tunable wave resonators”. [ SPIE ] J. A. Mendez-Bermudez, C. Tapia-Ignacio, and G. A. Luna-Acosta. Proc. SPIE 7499, 74991A (2009)
49. "Dynamics of particles in corrugated waveguides. Classical description" A. J. Martínez-Mendoza, J. A. Méndez-Bermúdez, and
G. A. Luna-Acosta, Rev. Mex. Fis (2010, to be published)
50. ”Unidirectional two-dimensional periodic waveguides” A. Alcázar-López, J. A. Méndez-Bermúdez, and G. A. Luna-Acosta, Rev. Mex. Fis. Vol 100(2010, to be published)
51, ¨Statistics of level spacings in open chaotic systems. A Generalization of the Wigner Surmise ”. C. Poli, G. A. Luna-Acosta, and H.-J.Stöckmann Phys Rev Lett. 2012 Apr 27;108(17):174101. Epub 2012 Apr 26