PUBLICACIONES:

 

J. JESUS ARRIAGA RODRIGUEZ

 

1.       Acoustic Wannier-Stark ladders and Bloch oscillations in porous silicon structures”, Z. Lazcano, J. Arriaga, Applied Physics Letters, 105, 231901 (2014).

2.       “Photonic Bloch Oscillations and Zener Tunneling in Dual Periodical Multilayers Made of Porous Silicon: Effect of Angle of Incidence”, J.O. Estevez, J. Arriaga, E. Reyes-Ayona, V. Agrawal, Journal of Nanoresearch, 28, 83-90 (2014).

3.       “Localization of acoustic modes in periodic porous silicon structures”, Zorayda Lazcano, Octavio Meza and Jesús Arriaga, Nanoscale Research Letters, 9, 1, 419 (2014).

4.       “Tunneling times of acoustic phonon packets through a distributed Bragg reflector”, Zorayda Lazcano, Pedro Luis Valdés Negrín, Diosdado Villegas, Jesus Arriaga1* and Rolando Pérez-Álvarez, Nanoscale Research Letters, 9, 1, 449 (2014).

5.       “Experimental and theoretical demonstration of acoustic Bloch oscillations in porous silicon structures”, Z. Lazcano, J. Arriaga, and G. N. Aliev, Journal of Applied Physics, 115, 154505 (2014).

6.       “High Quality Porous Silicon Multilayer Structures for Infra-red Applications”, Z. Lazcano and J. Arriaga, Progress in Electromagnetics Research 1, 1404-1408 (2013).

7.       “Theoretical Design of a Two-dimensional Acoustic Metafluid with Anisotropic Effective Mass Density”, J. Arriaga, L. Gumen, and A. A. Krokhin, Progress in Electromagnetics Research 1, 1331-1336 (2013).

8.       “Spectral properties of a two dimensional photonic crystal with quasi-integrable geometry”, J J Cruz-Bueno, J A Méndez-Bermúdez, and J Arriaga , Journal of Physics: Conference Series Conference Series, 475,  012009 (2013).

9.       “Tunable resonance transmission modes in hybrid heterostructures based on porous silicon”, Karina S Perez, Octavio Estevez, Antonio Mendez-Blas, Jesus Arriaga, Gabriela Palestino and Miguel E Mora-Ramos, Nanoscale Research Letters 7, 392 (2012).

10.   “Demonstration of photon Bloch oscillations and Wannier-Stark ladders in dual-periodical multilayer structures based on porous silicon”, J Octavio Estevez, Jesús Arriaga, Antonio Mendez-Blas, Edgar Reyes-Ayona, José Escorcia and Vivechana Agarwal, Nanoscale Research Letters 7, 413 (2012).

11.   “Localized defect modes in dual-periodical multilayer structures based on porous silicon”, K. Pérez, J. O. Estevez, A. Méndez-Blas, and J. Arriaga, Journal of the Optical Society of America B, 29, No. 4, pp. 538-542 (2012).

12.   “Experimental realization of the porous silicon optical multilayers based on the 1-s sequence”, J. O. Estevez, J. Arriaga, A. Mendez-Blas, M. G. Robles-Cháirez, D. A. Contreras-Solorio, Journal of Applied Physics 111, 013103 (2012).

13.   “Metafluid with anisotropic dynamic mass”, L. N. Gumen, J. Arriaga, A. A. Krokhin, Low Temp. Phys. 37, 975-978 (2011).

14.    Electromagnetic absortion in anisotropic photonic crystal of alumina cylinders”, J. Carbonell, J. Sánchez-Dehesa, J. Arriaga, L. Gumen, A. Krokhin, Metamaterials 5, 84 (2011).

15.    “Metafluid with anisotropic dynamic mass”, L. N. Gumen, J. Arriaga, A. A. Krokhin, accepted in Fizika Nizkikh Temperatur, (2011).

16.   Electromagnetic absortion in anisotropic photonic crystal of alumina cylinders”, J. Carbonell, J. Sánchez-Dehesa, J. Arriaga, L. Gumen, A. Krokhin, en prensa, Metamaterials (2011).

17.   Homogenization of two dimensional anisotropic dissipative photonic crystal”, Jorge Carbonell1, Jose Sánchez-Dehesa1 , Francisco Cervera1, Lyudmila Gumen, Jesús Arriaga, and Arkadii Krokhin, Applied Physics Letters, 97, 231122 (2010).

18.   “Ab-Initio calculation of structural and electronic properties of Al_xGa_1-x and In_xGa_1-xN Alloys”, E. Lopez-Apreza, J. Arriaga, and D. Olguin, Revista Mexicana de Física, 56, 183 (2010).

19.   “Anisotropía en la propagación del sonido de un cristal fonónico desordenado”, J. A. Vargas, and J. Arriaga, Revista Superficies y Vacío, 21, 15 (2009).

20.   “Enlargement of Omnidirectional photonic bandgap in porous silicon dielectric mirrors with a Gaussian profile refractive index”,  J. O. Estevez, J. Arriaga, A. Méndez Blas, and V. Agarwal, Applied Physics Letters, 94, 061914  (2009).

21.   “Omnidirectional photonic bandgaps in porous silicon based mirrors with a Gaussian profile refractive index”,  J. O. Estevez, J. Arriaga, A. Méndez Blas, and V. Agarwal, Applied Physics Letters 93, 191915 (2008).

22.   “Electrotunable band gaps of one and two-dimensional photonic crystals structures base don Silicon and liquid crystakls”, J. Arriaga, L. Dobrynzki, and B. Djafari-Rouhani, Journal of Applied Physics 104, 063108 (2008).

23.   “Fundamental electronic transitions of InGaN cubic quantum wells”,  D. A. Contreras-Solorio, J. Madrigal- Melchor, H. Hernanadez-Cocoletzi, J. Arriaga, Revista Mexicana de Física S, 53, 131-134 (2007).

24.   “Omni-directional gap of 1-D photonic crystals based on porous silicon with a Gaussian profile refractive index”, J. Arriaga,  Physica Status Solidi C, 4, No. 2, pp 534-536 August (2007).

25.   “Band Structure and reflectivity of omni-directional Si-based mirrors with a Gaussian profile refractive index”, J. Arriaga, X. I. Saldaña, Journal of Applied Physics, 100, 044911-1-044911-4 (2006).

26.   “Transición electrónica fundamental en pozos cuánticos GaN/InGaN/GaN con estructura de zincblenda”, H. Hernandez-Cocoletzi, D. A. Contreras-Solorio, J. Maldrigal-Melchor, J Arriaga, Superficies y Vacio, 19 (3), 12-15 (2006).

27.   “Estudio de la Reflectancia en cristales fotónicos unidimensionales con índice de refracción de envolvente Gaussiana”, X.I. Saldaña, J. Arriaga, Superficies y Vacio 18, 24-26 (2005).

28.   “Electronic Properties of Cubic Quaternary AlInGaN Alloys”, H. Hernandez-Cocoletzi, J. Arriaga, D. A. Contreras-Solorio, Physica Status Solidi C, 2, pp. 2817-2820 (2005).

29.   “Effective Index Model and Guided Modes in a Photonic Crystal Fiber”, J. Arriaga, Physica Status Solidi b, 242, pp. 1868-1871 (2005).

30.   “Tight-binding studies of the electronic band structure of GaAlN and GaInN alloys”, H. Hernandez-Cocoletzi, D. A. Contreras-Solorio, J. Arriaga, Applied Physics A 81, 1029-1033 (2005)

31.   “Cálculo de primeros principios de las propiedades electrónicas de nitruros del grupo III-V”, E. López, J. Arriaga, and D. Olguín, Superficies y Vacío, pp. 20 (2004).

32.   “Modeling the propagation of light in photonic crystal fibers”, J. Arriaga, J. C. Knight, P. St. J. Russell,  Physica D, 189, 100 (2004).

33.   “Speed of Sound in Periodic Elastic Composites”, A. A. Krokhin, J. Arriaga, L. Gumen, Physical Review Letters, 91, 264302-1, 264302-4 (2003).

34.   “Band structure for the cladding of a hollow core photonic crystal fibre”, J. Arriaga, B. Meneses, Revista Mexicana de Física 49, 335 (2003).

35.   “Electronic structure of cubic GaN/GaAlN quantum wells”,  J. Arriaga, H. Cocoletzi, and D. A. Contreras-Solorio, Physica E, 17, 238 (2003).

36.   “Optical frequencies of spectra of 2D photonic crystals”,  A. A. Krokhin, L. Gumen, H. J. Padilla Martinez, and J. Arriaga, Physica E, 17, 398 (2003).

37.   “Effective dielectric constant of 2D photonic crystal with high dielectric contrast between constituents”,  J. Arriaga, A. A. Krokhin, and P. Halevi, Physica E, 17, 436 (2003).

38.   “Modelling Photonic Crystal Fibres”, J. Arriaga, J.C. Knight, and P. St. J. Russell, Physica E, 17, 440 (2003).

39.   “Band Structure of Air-Photonic Crystal Fibre Cladding”,  J. Arriaga, and B. Meneses, Physica E, 17, 443 (2003).

40.   “Electronic structure of zinc-blende Ga_xAl_1-xN alloys”, J. Arriaga, H. Hernandez-Cocoletzi, D. A. Contreras-Solorio, and M. del Castillo-Mussot, ”, Physica Status Solidi (c), Vol. 0, No. 1, pp. 244 (2002).

41.   “Manifestations of quantum chaos in spectra of 2D photonic crystals”, L. N. Gumen, J. Arriaga, A.A. Krokhin, Physica E,  Vol. 13, pp 459 (2002).

42.   “Long-wavelenght (homogenization) for two-dimensional photonic crystals”, A.A. Krokhin, P. Halevi, and J. Arriaga, Physical Review B, Vol. 65, pp. 115208 (2002).

43.   “Highly Birefringent Photonic Crystal Fibers”, A. Ortigosa-Blanch, J.C. Knight, W.J. Wadsworth, J. Arriaga, B. J. Mangan, T. A. Birks, and, P. St. J. Russell, Optics and Photonics News, Vol. 12, N0. 12, pp.17 (2001).

44.   “Fundamental-mode cutoff in a a photonic crystal fiber with a depressed-index core”, B. Mangan, J. Arriaga, T. A. Birks, J. C. Knight, and P. St. J. Russell, Optics Letters, Vol. 26, No. 19, pp. 1469 (2001).

45.   “Electronic Structure of (111) and (211) Strained-layer Superlattices”; J. Martin Mozo, and J. Arriaga, Journal of the Korean Physical Society, Vol. 39, No. 3, pp. 488 (2001).

46.   “Simultaneous generation of spectrally distinct third harmonics in a photonic crystal fiber”, F.G. Omenetto, A. J. Taylor, M. D. Moores, J. Arriaga, J. C. Knight, W. J. Wadsworth, and P. St. J. Russell, Optics Letters, Vol. 26, No. 15, pp. 1158 (2001).

47.   “Comment on: Photonic Band Gaps: Noncommuting Limits and the ‘Acoustic Band”, P. Halevi, A. A. Krokhin, and J. Arriaga, Physical Review Letters, 86, 3211 (2001).

48.   “Photonic Crystal Optics and Homogenization of 2D Periodic Composites”, P. Halevi, A. A. Krokhin, and J. Arriaga, Solid Mechanics and Its Applications, Vol. 91, pp. 219 (2001).

49.   “Highly Birefringent Photonic Crystal Fibers”; A. Ortigosa-Blanch, J. C. Knight, W. J. Wadsworth, J. Arriaga, T. A. Birks, and P. St. J. Russell, Optics Letters, 25, 1325 (2000).

50.   “Anomalous Dispersion in Photonic Crystal Fiber”, J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, IEEE Photonics Technology Letters. Vol 12, No. 7, 807-809 (2000).

51.   “Yb3+ -doped photonic crystal fibre laser”,  W. J. Wadsworth, J. C. Knight, W. H. Reeves, P. St. J. Russell, J. Arriaga, Electronics Letters, 36, 1452 (2000).

52.   “Soliton Effects in Photonic Crystal Fibers”; W. J. Wadsworth, J. C. Knight, A. Ortigosa-Blanch, J. Arriaga, E. Silvestre, and P. St. J. Russell, Electronics Letters; Vol. 36, 53-55 (2000).

53.   “Photonic Crystals as Optical Components”; P. Halevi, A. A. Krokhin, and J. Arriaga, Applied Physics Letters; 75, No. 18, 2725-2727, (1999).

54.   “Photonic Crystal Optics and Homogenization of 2D Periodic Composites”; P. Halevi, A. A. Krokhin, and J. Arriaga, Physical Review Letters; 82, 719-722 (1999).

55.   “Order-N Photonic Band Structures for Metals and Other Dispersive  Materials”; J. Arriaga, A. J. Ward, and J. B. Pendry, Physical Review B; 59, 1874-1877 (1999).

56.   “Electronic Properties of Near-Surface GaAs/Al_{xGa_{1-xAs} Quantum Wells”, J. Arriaga, Applied Surface Science; 142, 619-623 (1999).

57.   “Electronic Properties of GaAs-AlAs Fibonacci Superlattices”, J. Arriaga, and V. R. Velasco, Journal of Physics: Condensed Matter, 9, 8031-8039, (1997).

58.   “Speed of Light in a 2D Photonic Crystal in the Low-frequency Limit”, A. A. Krokhin, J. Arriaga, and P. Halevi, Physica A, 241, 52-57, (1997).

59.   “Electronic Properties of Semiconductor Fibonacci Quasi-Periodic Superlattices”, J. Arriaga, and V. R. Velasco, Physica A, 241, 377-381, (1997).

60.   “Electronic States of (211) AlAs/GaAs Quantum Wells”, J. Arriaga, D. A. Contreras-Solorio, and V. R. Velasco, Surface Science, 367, 203-208, (1996).

61.   “Electronic Structure of (211) AlAs/GaAs Superlattices”, J. Arriaga, and D. A. Contreras-Solorio, International Society for Optical Engineering, Vol. 2730, 583-586, (1995).

62.   “Electronic States of a Semi-infinite Superlattice with an Embedded Quantum Well”, J. Arriaga, and V. R. Velasco, Journal of Physics: Condensed Matter, Vol. 7, 3493-3500 (1995).

63.   “Surface States in GaAs-GaP (001) Semi-infinite  Superlattices”, J. Arriaga, F. García-Moliner, and V. R. Velasco, Journal of Physics: Condensed Matter, Vol. 5, 5429-5436, (1993).

64.   “Surface States of Semiinfinite Superlattices and Other Related Systems”, J. Arriaga, V. R. Velasco, and F. García-Moliner, Workshop on Optoelectronic Materials and their Applications. Edizioni ETS, 123, Consejo Nacional de Investigación, Italia, (1993).

65.   “Surface States in Semiinfinite Superlattices”, J. Arriaga, F. García-Moliner, and V. R. Velasco, Progress in Surface Science, Vol. 42, 271-279, (1993).

66.   “Band Mixing and Localization in Strained (001) GaAs-GaP Superlattices”, J. Arriaga, M. C. Muñoz, V. R. Velasco, and F. García-Moliner, Physica Scripta, Vol. 46, 466-472 (1992).

67.   “Electronic Properties of Strained (001) HgTe-CdTe Superlattices”, J. Arriaga, and V. R. Velasco, Physica Scripta,Vol. 46, 83-87 (1992).

68.   “Resonant Raman Scattering Around the E0 Transition of AlAs/InAs Strained-Layer Superlattices”, G. Armelles, P. Castrillo, M, Recio, M. L. Sanjuan, J. Arriaga, J. P. Silveira, M. Vazquez, and F. Briones, Physical Review B, 44, 3020-3024 (1991).

69.   “Electronic Structure of Strained-Layer AlAs/InAs (001) Superlattices”, J. Arriaga, G. Armelles, M. C. Muñoz, J. M. Rodriguez, P. Castrillo, M. Recio, V. R. Velasco, F. Briones, and F. García-Moliner,  Physical Review B, 43, 2050-2057 (1991).

70.   Electronic Structure of Strained GaAs/GaP (001) Superlattices”, J. Arriaga, M. C. Muñoz, V. R. Velasco, and F. García-Moliner, Physical Review B, 43, 9626-9634 (1991).

71.   “Influence of Recombination Centers on the Relaxation Process of a 2D Photo-Excited Hot Electron Plasma”, J. L. Carrillo, G. Luna-Acosta, J. Arriaga, and M. A. Rodríguez, Preprint del International Center for Theoretical Physics (ICTP), Trieste, Italia, (1987).

72.   “Influence of Recombination Centers on the Relaxation Process of a 2D Photo-Excited Hot Electron Plasma”, J. L. Carrillo, G. Luna-Acosta, J. Arriaga, and M. A. Rodríguez , Solid State Communications,  Vol. 63, pp. 773 (1987).



Artículos en extenso

  1.  Experimental evidence of anisotropic behaviour of dissipative photonic crystals in the homogenization limit, Jose Sánchez-Dehesa, Jorge Carbonell, Francisco Cervera, Lyudmila Gumen, Jesús Arriaga, and Arkadii Krokhin, Fourth International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, 2010.
  2. “Homogenization of Dissipative Photonic Crystals”, L. Gumen, J. Arriaga, and A. A. Krokhin, Progress in Electromagnetics Research Symposium, PIERS 2009, 1582 (2009).
  3.  “Optical properties of Dielectric and Magnetic Photonic Crystals in the Low-Frequency Limit”, A. A. Krokhin, J. Arriaga, E. Reyes, 2003 Materials Research Society Fall Meeting, p. W5.3.1-W5.3.6 (2004).
  4. “Estructura de Bandas Fotonica para una Fibra Optica de Cristal Fotonico”, V Taller Nacional de Fisica y Ciencia de Materiales para Estudiantes de Posgrado, p. 189-193, (2003).
  5. “Propiedades electrónicas de semiconductores con deformacion uniaxial en la dirección [111]”, J. Arriaga, A. D. Contreras-Solorio,  Memorias del VIII Encuentro Regional de Investigación y Enseñanza de la Física, pag. 94, Puebla, México, Junio de 2002.
  6. “Estructura electrónica de GaN cúbico”, H. Heriberto Hernandez-Cocoletzi, J. Arriaga, D. A. Contreras-Solorio, Memorias del VIII Encuentro regional de investigación y enseñanza de la Física, pag. 9, Puebla, México, Junio de 2002.
  7. “Frecuencias Opticas en el Espectro de un Cristal Fotonico Bidimensional”, H. J. Padilla, L. Gumen, A. A. Krokhin, J. Arriaga, VIII Encuentro Regional de Investigacion y Enseñanza de la Física, p. 130-131 (2002).
  8. “Homogenization of Photonic Crystals”,  Proceedings del 2002 International Conference on Mathematical Methods in Electromagnetic Theory, Kiev, Ucrania, Septiembre de 2002.
  9. “Photonic Crystal Optics and Homogenization of 2D Periodic Composites”, P. Halevi, A. A. Krokhin, J. Arriaga, Proceedings del  International Union of Theoretical and Applied Mechanics, Sydney Australia, Enero 1999.
  10. “Photonic Crystal Fibre with a Short-Wavelentgh Cutoff”, B. J. Mangan, J. Arriaga, T. A. Birks, J. C. Knight, P. St. J. Russell, Conference on Laser and Electro-Optics (CLEO-2000), p. 606-607 (2000).




Total de citas a la fecha: más de 1200




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