CITAS

Actualizado a diciembre de 2017

I. A la tesis doctoral “Novel effects in waveguide second harmonic generation” C. G. Treviño-Palacios, University of Central Florida, 1998 (3 citas)

1. “All-optical diode based on second-harmonic generation in an asymmetric waveguide”, K. Gallo y G. Assanto, J.Opt.Soc.Am. B 16, 2 (1999) pp 267-269.

2. "System and method for optical frequency conversion" Gregory A. Magel (2011) patent US 7,929,583 B2

3. "System and method for optical frequency conversion" Gregory A. Magel (2012) patent US 8,306,075 B2

II. Al capítulo de libro “Nonlinear phase contrast,” Carlos G Treviño-Palacios, M. David Iturbe-Castillo, and David Sanchez de la Llave in Some Topics of Modern Optics, Contribution to the World in CIO´s 25 years of life, R. Rodríguez-Vera and F. Mendoza-Santoyo (eds) Rinton Press Inc. (EUA, 2008) ISBN 1-58949-057-6 pp 392-423. (1 cita)

4. “Contraste de fase no lineal,” Luis Ignacio Olivos Pérez , PhD Dissertation INAOE (2011)

III. Al artículo "Diseño y Construcción de un Acoplador Laser-Fibra Optica", C.G. Treviño, J. Carranza, y R. Ortega. Inst. y Des. 3, 1 (1991) 33‑37 (6 citas)

5. “In Vitro Effects of Argon Laser Radiation the Human Healthy and Atherosclerotic Aorta” de la Llata Romero M, Silva Oropeza E, Valero Elizondo G, Ortega Martínez R, Carranza Gallardo J, Velez y Tello M, Monteverde Grether C, Nava López G, Arch Inst Cardiol Mex 60 6(1990) 521-528

6. “Efectos fototérmicos de la interacción de la radiación láser con el tejido. Primeras experiencias aplicadas a la cardiología en México”, R. Ortega, P. Loza, A. Nogueira, y V. Garcés, Memorias III^a Reunión Nacional de Optica - I^a Reunion Iberoamericana de Optica, Barcelona, España (1992)

7. “Efectos fototérmicos de la interacción de la radiación láser con el tejido. Primeras experiencias aplicadas a la cardiología en México”, R. Ortega, P. Loza, A. Nogueira, y V. Garcés, Óptica Pura y Aplicada 26 3 (1993) 761-772

8. “Medición de la densidad óptica de tejidos humanos por medio de técnicas espectroscópicas,” Veneranda Guadalupe Garcés Chávez, Bachelors Thesis UNAM (1993)

9. “Softening of the Gutta-Perscha by Laser Irradiation and its Thermal Impact in the Canal Obturation,” R. Ortega-Martinez, A. Rodriguez-Rosales, M. Calzada-Nova, and A. Copin-Tovar, in Medical Physics- AIP Conference Proceedings 440, (1998), eds M Brandan, G Herrera y R. Ortega.-Martínez (American Institute of Physics, Woodbury, N.Y.)

10. “Implementación de un sensor para radiación beta basado en fibra óptica,” Carlos Eugenio Ojeda Nava MSc Thesis UNAM (2005)

IV. Al artículo “Guías de onda generadas por solitones ópticos espaciales”, G.E. Torres-Cisneros, J.J. Sanchez-Mondragón, M.D. Iturbe-Castillo, G.S. García-Quirino, M. Torres-Cisneros, y C.G. Treviño-Palacios. Rev.Mex.Fís. 41, 5 (1995) 662-694 (5 citas)

11. “Uniones ópticas basadas en la colisión de tres solitones espaciales,” G.E. Torres-Cisneros, V.A. Vysloukh, J.J. Sanchez-Mondragón, A. Mojica-Cabrera, Rev Mex Fis 40 4 (1994) 738-749

12. “Generación periódica del índice de refracción en un cristal Bi₁₂TiO_20,” Sampedro, P. M., Méndez Otero, M., Ramírez Martínez, D. Martí Panameño, E. Palomino Ovando M., Cerezo Jácome, M. A., Superficies y Vacío, 17, 1, (2004) 41-44

13. “Periodic modulation on the refractive index in a Bi₁₂TiO₂₀ crystal,” Sampedro, P. M., Cerezo Jácome, M.A., Ramírez Martínez, D. Méndez Otero, M., Palomino Ovando M., Crystal Research and Technology, 41, (2006) ppp 683-688.

14. “Photorefractive Solitons,” E. DelRe, M. Segev, D. Christodoulides, B. Crosignani, and G. Salamo, (2006) in Photorefractive Materials and Their Applications 1 Basic Effects, P. Günter and J. P. Huignard (eds) (Springer Science, New York, NY, USA). ISBN-10: 0-387-25191-X ; e-ISBN 0-387-25192-8, pp 317-368

15. "Ondas solitarias no lineales: una introduccion a los solitones opticos espaciales," S. Lopez-Aguayo, M. Esparza-Echevarria, G. Lem-Carrillo y J. C. Gutierrez-Vega, Rev Mex Fis 60 (2014) 39-50

V. Al artículo “Intensity dependent mode competition in second harmonic generation in multimode waveguides”, C.G.Treviño-Palacios, G.I.Stegeman, M.P. De Micheli, P. Baldi, S. Nouh D.B. Ostrowsky, D. Delacourt, y M.Papuchon. Appl.Phys.Lett. 67, 2 (1995) 170-172 (21 citas)

16. “χ⁽²⁾ Cascading phenomena and their applications to all-optical signal-processing, mode-locking, pulse compression and solitons”, G.I. Stegeman, D.J. Hagan and L. Torner, Opt.Quantum Elect. 28, 12 (1996) 1691-1740

17. “Optimized second-harmonic generation in assymetric double-quantum wells”, I. Vurgaftman, J.R. Meyer, and L.R. Rammohan, IEEE J. Quantum Elect. 32, 8 (1996) 1334-1346

18. “Optimizing KTP and LiTaO₃ channel waveguide for quasi-phase-matched second harmonic generation with high conversion efficiency”, N. Ramanujam, and J.J. Burke, IEEE J. Quantum Elect. 33, 2 (1997) 152-163.

19. “Two-Dimensional Solitary-Waves in Media with Quadratic and Cubic Nonlinearity”, O. Bang, Y.S. Kivshar, A.V. Buryak, A. Derossi, S. Trillo. Phys.Rev E 58, 4 (1998) 5057-5069

20. "Plane and Guided Wave Effects and Devices via Quadratic Cascading," G. Assanto, K. Gallo and C. Conti, in Advanced Photonics with Second-order Optically Nonlinear Processes: Proceedings of the NATO Advanced Study Institute, Sozopol, A.D. Boardman, L. Pavlov and S. Tanev. (eds.) (NATO Science Partnership Sub-series 3: High Technology v. 61) (SPRINGER, Netherlands, 1998) pp 59-87

21. “New families of discrete solitons in c⁽²⁾ waveguide arrays” A. Kobyakov, S. Darmanyan, T. Pertsch y F. Lederer, Nonlinear Guided Waves and Their Applications, OSA Technical Digest (Optical Society of America, Wahington D.C., 1998), 209-211.

22. “Novel all-optical switching mechanisms in media with quadratic nonlinearity” V. Dubikovskiy, A. Kobyakov y D.J. Hagan, Quantum Electronics and Laser Science Conference, OSA Technical Digest (Optical Society of America, Washington DC, 2000), 262-263

23. “Quadratic Effects: Effects and Applications”, G. Assanto in Beam Shaping and Control with Nonlinear Optics ed F. Kajzar and R. Reinish (NATO ASI Series Series B: Physics Vol 369) 341-426 (2002)

24. “Optical solitons due to quadratic nonlinearities: from basic physics to futuristic applications,” Alexander V. Buryak, Paolo Di Trapani, Dmitry V. Skyabin and Stefan Trillo, Phys. Rep. 370, 2 (2002) 63-235

25. “Multistep parametric processes in nonlinear optics,” Saltiel SM, Sukhorukov AA, and Kivshar YS, PROGRESS IN OPTICS 47 (2005) 1-73

26. "Simultaneous phase matching and internal interference of two second-order nonlinear parametric processes," B.F. Johnston, P. Dekker, M.J. Withford, S.M. Saltiel, and Y.S. Kivshar, Opt.Express 14 (2006) 11756-11765

27. “Fabrication and characterization of poled ferroelectric optical crystals,” B.F. Johnston, Doctorate Dissertation, Macquarie University, Sydney Australia (2008)

28. “Competing nonlinearities in quadratic nonlinear waveguide arrays,” F. Setzpfandt, D.N. Neshev, R. Schiek, F. Leder, A. Tunnermann, T. Pertsch, Opt. Lett. 34, 22 (2009) pp 3589-3591

29. “Phase Transition of Discrete Quadratic Solitons, " F. Setzpfandt, A. A. Sukhorukov, D. N. Neshev, R. Schiek, A. Tünnermann, and T. Pertsch, " in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2010), paper QTuC1.

30. "Bandstructure measurements of lithium niobate waveguide arrays," F. Setzpfandt, M. Falkner, R. Schiek, F. Eilenberger, E. Pshenay-Severin, and T. Pertsch, in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2011), paper QMD3

31. "Discrete solitons with competing second harmonic components in lithium niobate waveguide arrays," F. Setzpfandt, A. A. Sukhorukov, and T. Pertsch, in Nonlinear Optics: Materials, Fundamentals and Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper NWE17.

32. "Nonlinear dynamics with higher-order modes in lithium niobate waveguide arrays," F. Setzpfandt, D. N. Neshev, A. A. Sukhorukov, R. Schiek, R. Ricken, Y. Min, Y. S. Kivshar, W. Sohler, F. Lederer and A. Tünnermann, and T. Pertsch Appl Phys B 104 (2011) 487–493 doi: 10.1007/s00340-011-4648-3

33. "Spectral pulse transformations and phase transitions in quadratic nonlinear waveguide arrays," F. Setzpfandt, A. A. Sukhorukov, D. N. Neshev, R. Schiek, A. S. Solntsev, R. Ricken, Y. Min, W. Sohler, Y. S. Kivshar, and T. Pertsch, Opt. Express 19 (2011) 23188-23201

34. "Discrete quadratic solitons with competing second-harmonic components," Frank Setzpfandt, Andrey A. Sukhorukov, and Thomas Pertsch Phys. Rev. A 84 (2011) 053843

35. "Spatial nonlinear effects with higher order modes in LiNbO3 waveguide arrays," T. Pertsch, F. Setzpfandt, Nonlinear Photonics (NLP), 2011 International Workshop (IEEE Piscataway NY, 2011) ISBN 978-1-4577-0477-2 DOI 10.1109/NLP.2011.6102656

36. "Nonlinear dynamics in multimode optical waveguide arrays," Frank Setzpfandt PhD Dissertation Friedrich-Schiller-Universität Jena, Germany (2012)

VI. Al artículo “Waveguide design for minimum nonlinear effective area and switching energy in AlGaAs at half the band gap”, A. Villeneuve, J.S. Aitchinson, B. Vögele, R. Tapela, J.U. Kang, C. Trevino, and G.I. Stegeman, Electron.Lett. 31, 7 (1995) 549-551 (29 citas)

37. “All-optical switching in a hybrid Mach-Zender Interferometer as a result of cascaded 2^nd-order nonlinerarity,” Y. Baek, R. Schiek, and G.I. Stegeman, Opt.Lett. 20, 21 (1995) 2168-2170.

38. “Nonlinear Directional Couplers in AlGaAs,” J.S. Aitchinson, A. Villenueve and G.I. Stegeman, J. Nonlinear Opt.Phys., 4, 4 (1995) 871-891.

39. "All-optical switching in two cascaded nonlinear directional couplers," J. S. Aitchison, A. Villeneuve, and G. I. Stegeman, Opt. Lett. 20, (1995) 698-700

40. "Polarization dependence of ultrafast nonlinear refraction in an AlGaAs waveguide at the half-band gap," D. C. Hutchings, J. S. Aitchison, B. S. Wherrett, G. T. Kennedy, and W. Sibbett, Opt. Lett. 20 (1995) 991-993

41. "Nonlinear Integrated Optics and All-Optical Waveguide Switching in Semiconductors," G.I. Stegeman, A. VIlleneuve, J.S. Aitchison and C.N. Ironside in Fabrication, Properties and Applications of Low-Dimensional Semiconductors, (M. Balkanski, Ivan Yanchev eds) Volume 3 of the series NATO ASI Series Springer Science & Business Media (1995) pp.415-449 DOI: 10.1007/978-94-011-0089-2_28

42. "Integrated Optics and All-Optical Waveguide Switching," George Stegeman, Patrick Likamwa in Nonlinear Optical Materials and Devices for Applications in Information Technology Volume 289 of the series NATO ASI Series (1995) pp 285-320

43. “All-optical switching in lithium niobate directional couplers with cascaded nonlinearities,” R. Schiek, Y. Baek, G. Krijnen, Opt.Lett., 21, 12 (1996) 940-942.

44. “Soliton dynamics and surface waves at the interface between saturable nonlinear dielectrics,” P.J. Bradley and C. De Angleis, Opt.Commun. 130, 1-3 (1996) 205-218.

45. “Effective non-linear coefficients of optical waveguides,” R.S. Grant Opt.Quant.Electron 28 (1996) 1161-1173

46. “Spectral broadening measurements in poly (phenylene vinylene) polymer channel waveguides”, T. Gabler, R. Waldhausl, A. Brauer, Appl.Phys.Lett. 70, 8 (1997) 928-930

47. “Nonresonant n(2) and two-photon-absorption dispersion measurements of DPOP-PPV and DP-PPV/DP-PFV polymer strip waveguides” T. Gabler, R. Waldhausl, A. Brauer, Opt.Commun. 137, 1-3, (1997) 31-36.

48. “Beam dynamics at the interfase between second-order nonlinear dielectrics”, A.D. Capobianco, C. De Angelis, A.L. Palma, J.Opt.Soc.Am. B, 14, 8 (1997) 1956-1960.

49. “Cross-phase modulation phenomena in strongly guiding waveguides: A theoretical approach revisited,” M. Fontaine, J.Opt.Soc.Am. B, 15, 3 (1998) 964-971.

50. “Nonresonant n(2) and TPA coefficient measurement in polymer waveguides by different measurement techniques”, T. Gabler, A. Brauer, R. Waldhausl, Pure.Appl.Opt. 7 2 (1998) 159-168

51. “Wavelength demultiplexing study on LiNbO3 directional coupler elements using beam propagation method”, Shaari S, Kandiah K, ICSE'98: Proceedings of the IEEE International Conference on Semiconductor Electronics (1998) 245-249

52. “Low-loss waveguides and waveguide elements in χ⁽³⁾-polymers,” A. Bräuer, T. Gabler, T. Pertsch, and H.H. Hörhold, Integrated Optic Devices II, (1998 Proceedings of SPIE Volume 3278, Giancarlo C. Righini, S. Iraj Najafi, Bahram Jalali, Editors) 322-329

53. “Application of the polyconjugated main chain polymer DPOP-PPV for ultrafast all-optical switching in a nonlinear directional coupler”, T. Gabler, A. Brauer, H.H. Horhold, Chem.Phys. 245, 1-3 (1999) 507-516

54. “Squeezed light generation in semiconductor waveguides,” Ryan JF, Ward MB, Brown J, Electron and Photon Confinement in Semiconductor nanostructures; Proceedings of the International School of Physics Enrico Fermi, 150 (2003) 191-217

55. “Asymmetric spectrum evolution of high power short pulses in AlGaAs waveguides,” D. Modotto, J.P. Mondia, S. Linden, H.W. Tan, R. Morandotti, T.C. Kleckner, A. Locatelli, C. De Angelis, H.M. van Driel, C.R. Stanley, J.S. Aitchison, Opt.Comm. 249, 1-3 (2005) 201-208

56. “Optical Kerr gate switching of AlGaAs/AlAs multilayer structures without pattern effects by the two-photon resonant nonlinear response,” T. Isu, K. Akiyama, N. Tomita, T. Nishimura, Y. Nomura, K. Kanamoto, Phys. Stat. Sol. (c), 3, 3 (2006) 671-674

57. “Design of Silicon-Based Slot Waveguide Configurations for Optimum Nonlinear Performance,” Sanchis, P.; Blasco, J.; Martinez, A.; Marti, J.; Journal of Lightwave Technology, 25, 5 (2007) pp 1298-1305

58. "Discrete surface solitons," Sergey Suntsov, Doctorate Dissertation, University of Central Florida USA (2008)

59. "Broadband self-phase modulation, cross-phase modulation, and four-wave mixing in 9-mm-long AlGaAs waveguides," Ksenia Dolgaleva, Wing Chau Ng, Li Qian, J. Stewart Aitchison, Maria Carla Camasta, and Marc Sorel, Opt. Lett. 35, 4093-4095 (2010)

60. "All-Optical Wavelength Conversion in Aluminum Gallium Arsenide Waveguides at Telecommunications Wavelengths," Wing-Chau NG, MSc Thesis, University of Toronto, Toronto Canada (2010)

61. "Compact highly-nonlinear AlGaAs waveguides for efficient wavelength conversion," Ksenia Dolgaleva, Wing Chau Ng, Li Qian, and J. Stewart Aitchison Opt. Express 19, 12440-12455 (2011)

62. "Optical frequency conversion in integrated devices [Invited]," Lucia Caspani, David Duchesne, Ksenia Dolgaleva, Sean J. Wagner, Marcello Ferrera, Luca Razzari, Alessia Pasquazi, Marco Peccianti, David J. Moss, J. Stewart Aitchison, and Roberto Morandotti, J. Opt. Soc. Am. B 28 (2011) A67-A82

63. "Photonic Integrated Devices for Nonlinear Optics," Lucia Caspani,David Duchesne, Ksenia Dolgaleva, Sean Wagner, Marcello Ferrera, Luca Razzari, Alessia Pasquazi, Marco Peccianti, David J. Moss, J. Stewart Aitchison, and Roberto Morandotti arXiv:1405.0341 [physics.optics] (2014)

64. "Designing and optimizing of surface plasmonic waveguide with nonlinear media," Wang L.H. Huang, Z.X., Kuang, X.-J., Wu, X.-L. Guangzi Xuebao/Acta Photonica Sinica 45 (2016) 0224002

65. "AlGaAs Microring Resonators For All-Optical Signal Processing," Prova Christina Gomes, MSc Thesis, University of Ottawa (2016)

VII. Al artículo “Simultaneous generation of red, green and blue ligth in room temperature periodically poled lithium niobate waveguides using single source”, P. Baldi, C.G. Treviño-Palacios, G.I. Stegeman, M.P. De Micheli, D.B. Ostrowsky, D. Delacourt, and M. Papuchon, Electron.Lett. 31 16 (1995) 1350-1351 (36 citas)

66. “Highly efficient green-light generation by quai-phase-matched frequency doubling of picosecond pulses from an amplified mode-locked Nd:YLF laser” V. Pruneri, S.D. Butterworth y D.C. Hanna, Opt. Lett 21, 6 (1996) 390-392.

67. “Nonlinear phase-shift via multistep Chi((2)) Cascading”, K. Koynov, S. Saltiel, Optics Comm., 152, 1-3 (1998) 96-100

68. "Multistep cascading spatial solitons," Tristram J. Alexander and Yuri S. Kivshar, in Nonlinear Guided Waves and Their Applications, OSA Technical Digest (Optical Society of America, 1999), paper WD27.

69. “Nonconventional characterization of single-mode planar proton-exchange d LiNbO₃ waveguides by Cherenkov second harmonic generation”, R. Ramponi, M. Maragoni, y R. Osellame, Opt.Commun. 159, 1-3 (1999) 37-42

70. “Spatial optical solitons resulting from multistep cascading”, Y.S. Kivshar, T.J. Alexander y S. Saltiel, Opt.Lett 24, 11 (1999) 759-761.

71. “Polarization switching as a result of cascading of two simultaneously phase-matched quadratic processes”, S. Saltiel S, Y. Deyanova, Opt.Lett. 24 18 (1999) 1296-1298

72. “Pulse shaping and compression by second-harmonic generation with quais-phase-matching grating in the presence of arbitrary dispersion” G. Imeshev, M.A. Arbore, S. Kasriel, y M.M. Fejer, J.Opt.Soc.Am B, 17, 8 (2000) 1420-1437.

73. "Tailoring of Ultrafast Frequency Conversion with Quasi-Phase-Matching Gratings," Gennady Imeshev, Doctoral Dissertation Stanford University USA (2000).

74. "Second and third harmonic generation by cascading in a QPM LiNbO3 waveguide," Roberta Ramponi, Roberto Osellame, Marco Marangoni, Vera Russo, Emilia Giorgetti, Xianfeng Chen, Alessandro Carta, Francesca Gelli, and Stefano Sottini Proc. SPIE 3936 200 (2000) doi:10.1117/12.379950

75. “Multi-component optical solitary waves” YS Kivshar, AA Sukhorukov, EA Ostrovskaya, TJ Alexander, O Bang, SM Saltiel, CB Clausen, PL Christiansen, Physica A 288, 1-4 (2000) 152-173

76. “Phase-matching for nonlinear optical parametric processes with multistep cascading,” Solomon M. Saltiel and Yuri S. Kivshar, Bulgarian Journal of Physics 27, 1 (2000) 57-64

77. “Reducing photorefractive effect in periodically poled ZnO- and MgO-doped LiNbO3 wavelength converters” Asobe M, Tadanaga O, Yanagawa T, Itoh H, Suzuki H, Appl.Phys.Lett. 78, 21 (2001) 3163-3165

78. “Optical chaos in nonlinear photonic crystals,” Alekseev KN, Ponomarev AV, JETP Letters 75 (2002) 174-178

79. “Optical solitons due to quadratic nonlinearities: from basic physics to futuristic applications” Alexander V. Buryak, Paolo Di Trapani, Dmitry V. Skryabin and Stefano Trillo, Phys Rep 370, 2 (2002) 63-235

80. "Complete description of all modulational instability gain bands generated by nonlinear QPM gratings," O. Bang and J. F. Corney, in Nonlinear Guided Waves and Their Applications, A. Sawchuk, ed., Vol. 80 of OSA Trends in Optics and Photonics (Optical Society of America, 2002), paper NLMD11.

81. “Intracavity wavelength conversions employing a MgO-doped LiNbO3 quasi-phase-matched waveguide and an erbium-doped fiber amplifier,” Xu CQ, Bracken J, Chen B, J.Opt.Soc.Am. B, 20, 10 (2003) 2142-2149

82. "Simultaneous generation of coherent light in the red, green and blue from Nd3+ doped non-linear crystals," D. Jaque,J.J. Romero Opt. Mat. 24, 1-2 (2003) 411-417

83. "Waveguide Nonlinear-Optic Devices," T. Suhara and M. Fujimura (Springer-Verlag, Berlin Heilderberg New York, 2003) ISBN 3-540-01527-2, p 268

84. “Complete modulational-instability gain spectrum of nonlinear quasi-phase-matching gratings,” Corney JR, Bang O, J Opt Soc Am B 21 3 (2004) 617-621

85. “Characterization of quasi-phase-matching gratings in quadratic media through double-pass second harmonic generation,” Steffen Kjær Johansen and Pascal Baldi, J.Opt.Soc.Am. B, 21, 6 (2004), 1137-1145

86. “Simultaneous generation of three primary colours using aperiodically poled LiTaO3,” Ren TW, He JL, Zhang C, Zhu SN, Zhu YY, Hang Y, Journal of Physics-Condensed Matter, 16 18 (2004) 3289-3294

87. “Cascaded Fourth Harmonic Generation in Single Nonlinear Crystal,” R. Ivanov and S. Satiel, in International Quantum Electronic Conference 2005 (Institute of Electrical and Electronics Engineerings Piscataway, NJ, 2005) ISBN 0-7803-9242-6, 727-728

88. “Cascaded fourth-harmonic generation in a single nonlinear crystal,” R. Ivanov and S. Saltiel, Journ. Optical Soc. Am. B 22 (2005) 1691-1698

89. “Multistep parametric processes in nonlinear optics,” Saltiel SM, Sukhorukov AA, and Kivshar YS, PROGRESS IN OPTICS 47 (2005) 1-73

90. “Frequency Conversion for RGB Light Sources” Yongyuan ZHU, The Review of Laser Engineering 33 10 (2005) 667-670

91. “Broadband Optical Parametric Generation in the Telecommunication Band and Simultaneous RGB Generation by Quasi-Phase-Matched Parametric Conversion Processes,” Oc-Yeub Jeon, Min-Ji Jin, Hwan-Hong Lim, Byoung-Joo Kim and Myoungsik Cha, Jour. of the Korean Phys Society, 49 (2006) S589_S591

92. “Modeling transmitters, amplifiers and nonlinear circuits for the next generation optical networks” Jani Oksanen, Doctoral Dissertation, Helsinki University of Technology, Helsinki, Finland (2006), ISBN 951-22-8304-2 (printed) ISBN 951-22-8305-0 (PDF)

93. “Effective generation of red-green-blue laser in a two-dimensional decagonal photonic superlattice,” Y. Sheng, J. Dou, B. Cheng and D. Zhang, Appl. Phys B: Lasers and Optics, 87, 4 (2007) 603-606.

94. "Cascaded third-harmonic generation of ultrashort optical pulses in two-dimensional quasi-phase-matching gratings," N. Fujioka, S. Ashihara, H. Ono, T. Shimura, K. Kuroda, J. Opt. Soc. Am. B, 24, (2007) 2394-2405

95. “Generation of Simultaneous Red, Green and Blue Light in Periodically Poled Lithium Niobate with Broad Quasi-Phase Matching Band ,” Hwan-Hong Lim, Oc-Yeub Jeon, Byeong-Joo Kim, Krishnamoorthy Pandiyan, and Myoungsik Cha, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies 2007 Technical Digest (Optical Society of America, Washington, DC, 2007), JWA45. ISBN: 1-55752-834-9 pp 854-855

96. "Generation of Simultaneous Red, Green and Blue Light based on Broad Quasi-Phase-Matched Optical Parametric Generation," H. H. Lim, O. Y. Jeon, B. J. Kim, K. Pandiyan, and M. Cha, in Conference on Lasers and Electro-Optics/Pacific Rim 2007, (Optical Society of America, 2007), paper TuE3_2

97. “Generation of simultaneous red, green and blue light based on cascaded quasi-phase-matching in periodically-poled LiNbO₃,” Lim, H.H., Kim, B.J, Jeon, O.-Y, Cha, M., Journal of the Korean Physical Society, Volume 51, Issue SUPPL. 2, October 2007, Pages S178-S180

98. “Multi-line NIR-RGB emission in Nd : LiNbO₃ RPE optical waveguides,”E. Cantelar, M. Domenech, G. Lifante, E. Cusso, A.C.Busacca, S. Riva-Sanseverino, A. Parisi, A.C. Cino, Elect. Lett. 43 (2007) 632-633

99. "Applications of Domain Engineering in Ferroelectrics for Photonic Applications," D. A. Scrymgeour in Ferroelectric Crystals for Photonic Applications Including Nanoscale Fabrication and Characterization Techniques, Pietro Ferraro, Simonetta Grilli and Paolo De Natale (eds) SPRINGER SERIES IN MATERIALS SCIENCE Volume 91 Part III (2009) pp 385-399 DOI: 10.1007/978-3-540-77965-0_14

100. "Engineered quasi-phase-matching for laser techniques [Invited]," X. P. Hu, P. Xu, and S. N. Zhu, Photon. Res. 1 (2013) 171-185

101. "Applications of Domain Engineering in Ferroelectrics for Photonic Applications," D. A. Scrymgeour in Ferroelectric Crystals for Photonic Applications Including Nanoscale Fabrication and Characterization Techniques, Pietro Ferraro, Simonetta Grilli and Paolo De Natale (eds) SPRINGER SERIES IN MATERIALS SCIENCE Volume 91 2^nd Ed (2014) pp 385-399 DOI: 10.1007/978-3-642-41086-4

VIII. Al artículo “Spatial nonreciprocity in waveguide second-order processes”, C.G. Treviño-Palacios, G.I.Stegeman, y P.Baldi, Opt.Lett. 21, 18 (1996) 1442-1444 (34 citas)

102. “c⁽²⁾ Cascading: Nonlinear phase-shifts” G.I. Stegeman, Quant.Semiclass.Opt. 9, 2 (1997) 139-153

103. "Plane and guided wave effects and devices via quadratic cascading,"G. Assanto, K. Gallo, C. Conti,

Advanced Photonics with Second-Order Optically Nonlinear Processes (NATO Advanced Science Institute Series, Subseries 3 High Technology) Vol 61 (1998) 59-87

104. “Cascaded phase shift and intensity modulation in aperiodic quasi-phase-matched gratings”, M. Cha, Opt.Lett 23, 4 (1998) 250-252

105. “Thin-Film Devices for All-Optical Switching and Processing via Quadratic nonlinearities” G. Assanto, G.I. Stegeman, R. Schiek, Thin Solid Films 331, 1-2 (1998) 291-297.

106. “All-optical integrated optic devices: A hybrid approach,” .A. Driessen, H.J.W.M. Hoekstra, F. Horst, G.J.M. Krijnen, B.J. Offrein, J.B.P. van Schoot, P.V. Lambeck, and Th.J.A. Popma, IEEE Proc Optoelectronics, 145, 4 (1998) 227-235.

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125. "Mechanism of the optical unidirectional transmission in metal subwavelength grating with different surfaces," C. Zhao, Yun-Song Zhou, Huai-Yu Wang, H. Wang, Li-Ming Zhao, Opt Comm 316 (2014) 17-21

126. "An optical unidirectional device tunable by a magnetic field," Ming-Yang Wang, Yun-Song Zhou, Huai-Yu Wang, Opt Comm 322 (2014) 198-201 doi:10.1016/j.optcom.2014.02.048

127. "Mechanism of optical unidirectional transmission in subwavelength dual-metal gratings," H. Gao, Z. Y. Zheng, H. Y. Hao, A. G. Dong, Z. J. Fan, D. H. Liu, Applied Physics B 114 (2014) 401-406

128. "Nanoplasmonic Surface Structures for Integrated Photonics," Paul Michael Zeph Davies, PhD Dissertation, Imperial College London, Department of Physics (2014).

129. "Slow-light all-optical soliton diode based on tailored Bragg-grating structure," Hongji Li, Zhigui Deng, Jiasheng Huang, Shenhe Fu, and Yongyao Li, Opt. Lett. 40 11 (2015) 2572-2575

130. "Multiple Nonlinear Optical Response of Gold Decorated-Reduced Graphene Oxide-Nanocomposite for Photonic Applications," Sudhakara Reddy Bongu, Prem B. Bisht, Tran V. Thu and Adarsh Sandhu, J. Atomic, Molecular, Condensate and Nano Physics 2 3 (2015) 207-214

131. "Multipolar interference for non-reciprocal nonlinear generation," Ekaterina Poutrina & Augustine Urbas, Sci. Rep. 6 (2016) 25113

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IX. Al artículo “Wavelength shifting using cascaded second-order processes for WDM applications at 1.55 mm”, C. G. Treviño-Palacios, G. I. Stegeman, P. Baldi, and Marc P. De Micheli, Elect.Lett. 34, 22 (1998) 2157-2158 (23 citas)

136. “Wide bandwidth 1.5 µm and 1.3 µm wavelength conversion in periodically-poled waveguides” M.H. Chou, K. Parameswaran, M.M. Fejer y I. Brener, Nonlinear Guided Waves and Their Applications, OSA Technical Digest (Optical Society of America, Wahington D.C., 1998), 209-211.

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139. “Multiple-channel wavelength conversion by use of engineered quasi-phase-matching structures in LiNbO₃ waveguides”, M.H. Chou. K.R. Parameswaran, M.M. Fejer and I. Driessen, Opt.Lett 24 (1999) 1157-1159.

140. "Quasi-phase-matched waveguides: From ultrashort pulses to signal processing for optical communications ," MH Chou,I Brener, K Parameswaran, MM Fejer in ECIO´99:9th European Conference on Integrated Optics and Technical Exhibition (1999) 497-500

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143. “Cascading of second-order processes in a planar Ti-indiffused LiNbO₃waveguide: applications to frequency shifting,” R. Ramponi, R. Osellame, M. Maragoni, G.P. Banfi, I. Cristiani, L. Tartara, L. Palchetti, Opt. Commun. 172, 1-6 (1999) 203-209.

144. "Three-wave mixing devices for WDM applications", Chou, M.H., Patameswaran, K.R.,Fejer, M.M.,Brener, I. in Nanostructures and Quantum Dots/WDM Components/VCSELs and Microcavaties/RF Photonics for CATV and HFC Systems, Digest of the LEOS Summer Topical Meetings, (1999 ) II19 - II21

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146. “Wavelenght shifting by cascaded second order processes” G. Banfi, I. Christiani, y V. Degiorgio, J. Opt A, 2,4 (2000) 260-267.

147. "Cascaded second-order processes for frequency-shifting in planar Ti:LiNbO3 waveguides,"R. Ramponi, V. Russo, M. Marangoni M, R. Osellame, G.P. Banfi, V. Digiorgio, I. Cristiani, L. Tartara in Integrated Optical Devices IV, G.C. Righini and S. Honkanen eds. Proc. of SPIE 3936 (2000) 267-274 doi:10.1117/12.379958

148. “Wavelength-conversion type picosecond optical switching using a waveguide QPM-SHG/DFG device,” Ishizuki H, Suhara T, Fujimura M, Nishihara H, Opt.Quantum Elect 33, 7-10 (2001) 953-961.

149. “Nonlinear characterization and modeling of periodically poled lithium niobate waveguides for 1.5-mu m-band cascaded wavelength conversion,” Cristiani I, Liberale C, Degiorgio V, Tartarini G, Bassi P, Opt. Comm 187, 1-3 (2001) 263-270

150. "Novel Devices in Periodically Poled Lithium Niobate," Jpyce Anne Abernethy, PhD Dissertation, University of Southhampton, England (2002) pp 214

151. "Polarization switching of ferroelectric crystals," Lung-Han Pen in Handbook of Thin Film Materials vol 3: Ferroelectric and dielectric thin films, Hari Singh Nalwa ed. (Academic Press 2002) ISBN: 0125129114 pp 433-480

152. Waveguide Nonlinear-Optic Devices (Springer Series in Photonics) T. Suhara and M Fujimura (Springer-Verlag Berlon Heidenberg New-York, 2003) ISSN 1437-0379 p 268

153. “Multistep parametric processes in nonlinear optics,” Saltiel SM, Sukhorukov AA, and Kivshar YS, Progress in Optics 47 (2005) 1-73

154. "Optical Kerr gate switching of AlGaAs/AlAs multilayer structures without pattern effects by the two-photon resonant nonlinear response," T. Isu, K. Akiyama, N. Tomita, T. Nishimura, Y. Nomura, K. Kanamoto, Physica Status Solidi c, 3 3 (2006) 671-674

155. “Enhanced Cascaded SHG plus DFG Process of Femtosecond Pulses Using Chirp Quasi-Phase Matching Waveguide,” Lin SC, Sun NH, Chiang JS, Journal of Lightwave Technology, 26, 17-20 (2008) 3090-3097

156. "Determination of the Optimum Resonance Length Leading to the Global Maximum Intensity of a Wave in a Resonator," J Kim Journal of the Korean Physical Society 58 6 (2011) 1591-1598

157. "All-optical decision gate circuit employing cascaded quasi-phase matched lithium niobate device," Fukuchi Yutaka ; Tasaki Shun in Conference: Optoelectronic Materials and Devices V, Fumio Koyama; Shun Lien Chuang; Guang-Hua Duan; Yidong Huang, (eds) Proc. SPIE 7987 (2011) 79870S doi: 10.1117/12.888910

158. "Characteristics of all-optical 3R regenerators using cascaded second-order nonlinear effect in quasi-phase matched lithium niobate devices," Yutaka Fukuchi, Tomotaka Kimura, Kouji Hirata, Opt Quantum Electron 49 (2017) 297

X. “Coupling coefficient evaluation of a fiber directional coupler using an all-fiber Sagnac interferometer”, H. H. Cerecedo-Nunez, C. G. Trevino-Palacios, E. A. Kuzin, Opt. Eng. 41 3 (2002) 555-556 (2 citas)

159. "Analysis of Effective Optical Pulse Stream Generation using Loop Scheme," Park, Hyoung-Keun, Journal of the Korea Academia-Industrial cooperation Society, 11, 5 (2010) 1580-1584

160. “Ring Interferometry,” by Grigorii B. Malykin, Vera I. Pozdnyakova Transl. by Zhurov, Alexei, De Gruyter Studies in Mathematical Physics Vol 13 (Walter de Gruyter GmbH, Berlin/Boston, 2013) pp 260

XI. “Intensity compensation of a transmitted spectrum using an all-fiber Sagnac interferometer”, H. H. Cerecedo-Nunez, C. G. Trevino-Palacios, E. A. Kuzin, Opt. Eng. 41 6 (2002) pp.1153-1154. (1 cita)

161. “Ring Interferometry,” by Grigorii B. Malykin, Vera I. Pozdnyakova Transl. by Zhurov, Alexei, De Gruyter Studies in Mathematical Physics Vol 13 (Walter de Gruyter GmbH, Berlin/Boston, 2013) pp 260

XII. Al artículo “Cholesterol-oleate-doped polymer-dispersed liquid-crystal voltage-controlled ring projector,” Olivares-Perez A, Perez-Cortez M, Juarez-Perez JL, and C. G. Treviño-Palacios, Opt. Lett. 27, 12 (2002) 1022-1024 (7 citas)

162. “Reflective ring projector from liquid crystal polymer dispersion films,” C.Y. Huang, Opt. Commun. 216, 4-6 (2003) 305-311.

163. "The influence of Electro-Optical Properties Adding Dichroic Dye into the Polymer Dispersed Liquid Crystal," YH Chen MSc Thesis, Graduate Institute of Opto-Mechatronics National Chung Cheng University, China (2005)

164. “Interference ring patterns from cholesteric liquid crystal cells,” Huang CY, Hu CY, Jap. Journ of Appl Phys 44, 7A (2005) 5076-5081

165. "FFT Implementation for Electronic Holograms using Field Programmable Gate Array," A. Castillo Atoche; M. Perez Cortes; J. Vazquez Castillo; R. Atoche Ensenat, Proceedings of the 6th International Caribbean Conference on Devices, Circuits and Systems, (2006) pp 115–119, DOI 10.1109/ICCDCS2006.250846

166. "Tunable liquid crystal lens module," Ling-Yuan Tseng, Cheng-Hsing Liao, and Atsuo Kusada (2010) US Patent 7,724,347

167. "Study on electro-optical characteristics of the PDLC doped with Rhodamine 6G," Zhao, Y., Pan, X.-F., Dong, J.-F., Tao, W.-D. Guangdianzi Jiguang/Journal of Optoelectronics Laser 24 2 (2013) 287-291

168. "Effects of Mesogenic Compound with High Birefringence on Electro-Optical Properties of Heat-Cured Polymer-Dispersed Liquid Crystal Films," Z Miao, D Wang, Y Zhang, P Song, J Wang, X Wu Molecular Crystals and Liquid Crystals 582 1 (2013) 72-78

XIII. Al artículo “Non-hydroscopic vanilla doped dichromated gelatin holographic material,” B. Pinto-Iguanero, A. Olivares-Perez, A.W. Mendez-Alvarado, I. Fuentes-Tapia, C.G. Trevino-Palacios C. G., Opt Mat., 22 , 4 (2003) 397-404 (13 citas, 1 autocita)

A1. “Non-hydroscopic vanilla doped dichromated gelatin holographic material (vol 22, pg 397, 2003),” Pinto-Iguanero B, Olivares-Perez A, Mendez-Alvarado AW, Fuentes-Tapia I, Trevino-Palacios C.G., Opt. Mat. 23, 3-4 (2003) 593-593

169. “Sugar (sucrose) holograms,” Ponce-Lee E.L., Olivares-Perez A., Fuentes-Tapia I., Opt. Mat. 26 1 (2004) 5-10

170. “A simple electronic speckle pattern interferometry system using holographic optical elements,” Guntaka Tulasi Sridhar Reddy, PhD Dissertation, Dublin Institute of Technology, Dublin Ireland (2005)

171. "Dichromated pullulan diffraction gratings: influence of environmental conditions and storage time on their properties," S. S. Ševic and D. Pantelic, Appl. Opt. 46 (2007) 287-291.

172. "Electro-responsive behaviour multi-wall nanotubes/gelatin composites and cross-linked gelatin electrospun mats," Soo-Young Park, DTIC Final report contract FA48690714029 (USA AOARD-AFOSR) (2008)

173. "Preparation, swelling and electro-mechano-chemical behaviors of a gelatin–chitosan blend membrane,” Sajjad Haider, Soo-Young Park and Shin-Hee Lee, Soft Matter, 4 3 (2008), 485-492.

174. “Hydrophobic sugar holograms,” N. Y. Mejias-Brizuela, A. Olivares-Pérez, G. Páez-Trujillo, M.P. Hernández-Garay, R. Fontanilla-Urdaneta, I. Fuentes-Tapia, Practical Holography XXII: Materials and Applications, Hans I. Bjelkhagen, Raymond K. Kostuk (eds) Proc. SPIE 6912 (2008) 69120X doi: 10.1117/12.761994

175. "Caracterización de materiales orgánicos conductores para grabado holográfico," María de la Paz Hernández Garay, PhD Dissertation INAOE, México (2008)

176. "Preparation of the chitosan containing nanofibers by electrospinning chitosan-gelatin complexes," Sajjad Haider, Waheed A. Al-Masry, Nausheen Bukhari, Muhammad Javid, Polymer Engineering & Science, 50 (9) (2010) 1887-1893

177. "Obtención de Hologramas sobre Gelatina Dicromatada en Vainilla," M. Mosquera, R. Garay, A. Valera, REVCIUNI 13 1 (2010) 17-20

178. “Studies on hydrophilic membranes for the pervaporation dehydration of isopropanol,” Ashok M Sajjan, PhD Dissertation (2012) Karnatak University, India.

179. "Preparation and characterization of porous scaffold composite films by blending chitosan and gelatin solutions for skin tissue engineering," Mohammed Mizanur Rahman, Shahed Pervez, Bodrun Nesa, Mubarak A Khan, Polymer International 62 (2013) 79–86

180. "Holographic Gratings with Applications in Optoelectronic Systems to Transmit Multichannel Information," M. d. R. Gómez-Colín, A. García-Juárez, I. Zaldivar-Huerta, S. Toxqui-López, A. Vera Marquina, L. A. García-Delgado, and A. L. Leal-Cruz, in Frontiers in Optics 2015, OSA Technical Digest (online) (Optical Society of America, 2015), paper JTu4A.52.

181. "An experimental distribution of analog and digital information in a hybrid wireless visible light communication system based on acousto-optic modulation and sinusoidal gratings," R Gómez Colín, A García Juárez, I E Zaldívar Huerta, A Vera Marquina, L A García Delgado, A L Leal Cruz and R Gómez Fuentes, J Opt 18 (2016) 035701

XIV. Al artículo “Nonlinear common path interferometer: an image processor,” C.G. Treviño-Palacios, M.D. Iturbe-Castillo, D. Sanchez-de-la-Llave, R. Ramos-García and L.I. Olivos-Pérez, Appl.Opt. 42 (2003) 5091-5095 (34 citas, 1 autocita)

A2. “Nonlinear Phase Contrast,” C.G. Treviño-Palacios, M.D. Iturbe-Castillo, D. Sánchez-de-la-Llave, R. Ramos-García, and L.I. Olivos-Pérez, OPN, 14 12 (2003), 30.

182. "Superresolution optical system by common-path interferometry," V. Mico, Z. Zalevsky, and J. García, Opt. Express 14, (2006) 5168-5177

183. “Phase unwrapping by means of finite differences,” L.I. Olivos Perez, E. Rosa-Miranda, L. R: Berriel-Valdoz, R. Ramos-Lopez,in Proceedings SPIE Vol 6064, Image Processing: Algorithms and Systems, Neural Networks, and Machine Learning edited by E.R. Dougherty, J.T. Astola, K.O. Egiazarian, N.M. Nasrabadi, S.A. Rizvi, (SPIE, Bellingham, WA, 2006) ISBN 0277-786X/06, 6064E-1

184. “Collossal Nonlinear Optical Effect in Dye-Doped Liquid Crystal,” R. Ramos-García, I. Lazo-Martínez, I. Guizar-Iturbe, A. Sanchez-Castillo, M. Boffety, and P. Rück, Mol. Cryst.. Liq. Cryst. 454 (2006) 179-185

185. “Phase contrast imaging using photothermally induced phase transitions in liquid crystals,” Chandra S. Yelleswarapu, Sri-Rajasekhar Kothapalli, Francisco J. Aranda, and D. V. G. L. N. Rao, Yvonne R. Vaillancourt, Brian R. Kimball, Appl. Phys. Lett. 89, 211116 (2006)

186. “Determinación de la temperatura del entorno de un cautín por medio de tomografía óptica”, E. de la Rosa Miranda, L. R. Berriel Valdos, L. I. Olivos-Pérez, J. L. Juárez Pérez y R. Ramos López, en ENINVIE-2006 Technical Digest (Universidad Autónoma de Zacatecas, Zacatecas, Zac, 2006) trabajo 6.7 p 265

187. “Observation of transparent objects by the method of nonlinear phase contrast,” Е.L. Bubis, V.А. Kamensky, А.Z. Маtvееv, and А.G. Оrlova, ICONO 2007: Coherent and Nonlinear Optical Phenomena, edited by Vladimir N. Belyi, Konstantin N. Drabovich, Christos Flytzanis, Proc. of SPIE Vol. 6729, 67291H, (2007)

188. “Photothermal Zernike filter,” E.L. Bubis and A.Z. Matveev, ICONO 2007: Coherent and Nonlinear Optical Phenomena, V. N. Belyi, K. N. Drabovich, C. Flytzanis (eds) Proc. SPIE 6729 (2007) 67292B

189. "Study of transparent biological image phase modulations by a Dye doped Liquid Crystal film," Tsung-yen Cho, MSc Thesis, Graduate Institute of Physics National Chung Cheng University, China (2005)

190. "Superresolution microscopy using common-path phase-shifting interferometry", Vicente Micó, Zeev Zalevsky and Javier García, Proc. SPIE 7000, 700002 (2008); doi:10.1117/12.780719

191. "Common-path phase-shifting digital holographic microscopy: A way to quantitative phase imaging and superresolution," V Mico, Z Zalevsky and J Garcia, Optics Comm 281, 17 (2008) 4273-4281

192. “Temperature determination with radial basis functions means of a nonlinear common path interferometer,” Miranda, E. de la Rosa, Berriel Valdos, L. R., Olivos-Perez, L. I, de Leon, G. Miramontes, RIAO/OPTILAS 2007, AIP Conference Proceedings 992 (2008) 957-962

193. "Polarization-dependent nonlinear phase contrast by using dye-doped nematic liquid crystals," R. Porras Aguilar, M. D. Iturbe-Castillo, J. C. Ramirez-San-Juan, O. Baldovino-Pantaleon, D. Sánchez-de-la-Llave, R. Ramos-Garcia, M. L. Arroyo Carrasco, Liquid Crystal XII Iam-Choon Khoo(ed)Proc. SPIE 7050 (2008) 5006

194. "Polarization-controlled contrasted images using dye-doped nematic liquid crystals," R. Porras Aguilar, J. C. Ramirez-San-Juan, O. Baldovino-Pantaleon, D. May-Arrioja, M. L. Arroyo Carrasco, M. D. Iturbe-Castillo, D. Sánchez-de-la-Llave, and R. Ramos-Garcia, Opt. Express 17, (2009) 3417-3423

195. “A simple phase-contrast scheme for observing transparent objects,” E.L. Bubis, Instrum Exp Tech 52, 1, (2009) 108.

196. "Dispositivo de imagenes para objetos transparentes," Eugene L. Bubis, Vladislav Kamensky Antonievich, Matveev, Alejandro Z., Russian patent RU 2353961 C1 (2009)

197. "The effect of phase object imaging in focusing of spatially phase-modulated laser beams on a weakly absorbing extended medium" E. L. Bubis in LAT 2010: International Conference on Lasers, Applications, and Technologies, Proc of SPIE 7994 edited by Vladislav Panchenko; Gérard Mourou; Aleksei M. Zheltikov (SPIE, Bellingham, WA, 2011) 79941I

198. “Contraste de fase no lineal,” Luis Ignacio Olivos Pérez, PhD Dissertation INAOE (2011)

199. "Theoretical study on stability of Z-scan technique by use of quasi-one-dimensional slit beam," R.P. Chen, B. Gu, Y.M. Xu, J. Wang and H.T. Wang, Optik 122 13 (2011) 1152-1158

200. “Self-imaging of transparent objects and structures in focusing of spatially phase-modulated laser radiation into a weakly absorbing medium,” E L Bubis, Quantum Electron 41 6 (2011) 568-570

201. "Analysis of the process of visualisation of transparent objects using the phase-contrast method with a photothermal Zernike cell," E.L. Bubis, A.Z. Matveev, Quantum Electronics 42 (4) (2012) 361-366

202. "A phase-contrast scheme with a Zernike photothermal cell for visualization of ultrasonic waves," E. L. Bubis, S. A. Gusev, I. E. Kozhevatov, V. O. Martynov, A. G. Sanin, S. E. Stukachev and A. V. Shishkov, Instrum Exp Tech 55, 5 (2012) 594-595

203. "Deteccion de inhomogeneidades por medio de contraste de fase con Celda fototérmica de Zernike," EL Bubis, Gusev SA, Kozhevatov IE, Martínov VO, A. Mamaev, Sergeev, Física Aplicada 5 (2012) p 16 [en ruso: Бубис, Е. Л., Гусев, С. А., Кожеватов, И. Е., Мартынов, В. О., Мамаев, Ю. А., & Сергеев, А. С. (2012). К детектированию неоднородностей среды методом фазового контраста с фототермической ячейкой Цернике. Прикладная физика, (5).]

204. "Algunos problemas de adaptación de contraste de fase método con filtros no lineales,"EL Bubis, Gusev S.A., Kozhevatov I.E., Stepanov A.N. Proceedings Conferencia sobre física del plasma y fusión termonuclear controlada, Zvenigorod, Rusia (2013) Trabajo MS-2-11 [en ruso]

205. "An Alternative Approach to the Tomographic Reconstruction of Smooth Refractive Index Distribution,” E. de la Rosa-Miranda, L. R. Berriel-Valdos, E. Gonzalez-Ramirez, D. Alaniz-Lumbreras, T. Saucedo-Anaya, J. J. de la Rosa-Vargas, J. J. Villa-Hernandez, V. Torres-Argüelles, V. M. Castano, Journ. Eur. Opt. Soc. - Rapid Publications 8 (2013) 13036

206. "Using the adaptive phase contrast method with nonlinear ﬁlters," E.L. Bubis, S.A. Gusev, I.E. Kozhevatov, V.O. Martynov, and A.N. Stepanov Advance of Applied Physics 1 4 (2013) 408-409 (en ruso)

207. "Self-calibrating common-path interferometry," Rosario Porras-Aguilar, Konstantinos Falaggis, Julio C. Ramirez-San-Juan, and Ruben Ramos-Garcia, Opt. Express 23, (2015) 3327-3340

208. "Contrast sign inversion of image using nonlinear liquid-crystalline filter," Bubis E.L., Budagovsky I.A., Zolot’ko A.S., Smayev M.P., Shvetsov S.A., Proceedings of the IV International Conference Photonics and Information Optics (2015) 358-359 (en ruso)

209. "Zernike filter based on orientational optical nonlinearity of liquid crystalline systems," E. L. Bubis, I. A. Budagovsky, A. S. Zolot’ko, M. P. Smayev, S. A. Shvetsov, A. Yu. Bobrovsky, Instrum Exp Tech 59 4 (2016) 562-564. doi:10.1134/S0020441216040035

210. "Zernike filter based on the orientational optical nonlinearity of liquid crystal systems," Bubis EL, Budagovskii IA, Zolotko AS, Smaev MP, Shvetsov SA, Bobrovsky A.Yu. Devices and experimental equipment 4 (2016) 84-87 (en ruso)

211. "Study of objects visualization and image inversion by the phase-contrast method with linear and nonlinear filters," E L Bubis, V V Lozhkarev, A N Stepanov, A I Smirnov, I V Kuzmin, O A Malshakova, S A Gusev, E V Skorokhodov, Journal of Physics: Conference Series 737 (2016) 012067

212. "Processes of visualization and image inversion by the phase-contrast method with linear and nonlinear filters," Bubis EL, Lozhkarev VV, Stepanov AN, Smirnov AI, Kuzmin IV, Malshakova OA, Gusev SA, Skorokhodov EV , Applied Physics 4 (2016) 5-9 (en ruso)

213. "Self-visualization and self-inversion effects of objects and structures upon focusing of an illuminating laser beam passing through them into an absorbing air medium," E. L. Bubis, A. M. KiselevI. V. Kuz’min, Opt. Spectrosc. 121 (2016) 769-772 doi:10.1134/S0030400X16100040

214. "Self-visualization of transparent microscopic objects in optical glasses under the conditions of the thermal self-action of an illuminating laser beam," E. L. Bubis, O. V. Palashov, I. V. Kuz’min, I. L. SnetkovS. A. Gusev, Opt. Spectrosc. 122 3 (2017) 499–503

215. "Self-Inversion of the Image of a Small-Scale Opaque Object in the Process of Focusing of the Illuminating Beam in an Absorbing Medium," Bubis, E.L., Lozhrkarev, V.V., Stepanov, A.N. A. I. SmirnovV. O. MartynovO. A. Mal’shakovaD. E. SilinS. A. Gusev Radiophys Quantum El 59 (2017) 833-839

XV. Al articulo “Defect Detection in Metals Using Electronic Speckle Pattern Interferometry,” E. Andrés Zarate, E. Custodio G, P. J. Sebastián, C. G. Treviño-Palacios, R. Rodríguez-Vera, and H. J. Puga-Soberanes, Solar Energy and Solar Cells, 88 2 (2005) pp 169-178 (24 citas)

216. “A simple electronic speckle pattern interferometry system using holographic optical elements,” Guntaka Tulasi Sridhar Reddy, PhD Dissertation, Dublin Institute of Technology, Dublin Ireland (2005)

217. “Speckle noise reduction based on the theory of rough set and entropy,” Jun Li, Guohua Chen, Tiejun Ma, MIPPR 2007: Automatic Target Recognition and Image Analysis; and Multispectral Image Acquisition, edited by Tianxu Zhang, Carl Nardell, Duane Smith, Hangqing Lu, Proc. of SPIE Vol. 6786, 67864H, (2007) doi: 10.1117/12.751513

218. “Measurement of the micro-displacement of metal bar with ESPI-phaseshift method,” Zhu, Zheng and Sun Zhibing, in 3rd International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment, edited by Pan J; Wyant JC; Wang HX, Proc. of SPIE Vol. 6723, (2007) Y7234-Y7234

219. “Generalized metric spaces for correlation fringes and applications,” Jun Lia, Guohua Chen, Mingxing Jiang, Tiejun Ma and Qilin Zeng, Opt Lasers Eng 47 9 (2009) 902-908

220. “Experimental and numerical investigation of thermal deformation of thermoelectric coolers,” Wu Ting Ying Master Thesis, National Tsing Hua University, Power Mechanical Engineering Dpt. (2010) in Chinese

221. "In-plane Resonance Measurement of Cracked Photovoltaic Cell Substrates using Electronic Speckle Pattern Interferometry," Lai Yu-Nien, MSc Thesis, Dept Mechanical Engineering, National Chiao Tung University (2009) in Chinese

222. "Crack detection in photovoltaic cells using electronic speckle pattern interferometry ," Wen TK, Yin CC, in 4th International Conference on Advances in Experimental Mechanics, edited by C. Quan, K. Qian, A. Asundi, and F. S. Chau, Proc. SPIE 7522 (2010) 75224Q

223. "Influence of the mechanical stress and heat parameters into the transmittance function of the integrals of the diffraction phenomena, " Esteban Andrés-Zárate, Alejandro Cornejo-Rodríguez Proc. of SPIE 8011, 801169 (2011) doi:10.1117/12.903131

224. "ESPI solution for defect detection in crystalline photovoltaic cells," Yin, C.C. and Wen, T.K., SPIE Proceedings 8321 832139 (2011) DOI: 10.1117/12.905261

225. "Phase difference extraction based on four-step phase shifting," Cai, C.-Q., He, L.-F. Huanan Ligong Daxue Xuebao/Journal of South China University of Technology (Natural Science) 39 9 (2011) pp 93-96

226. "Measuring In-plane Resonance for Crystalline Silicon Wafer Using Electronic Speckle Pattern Interferometry Method," Jhin-Yuan Jheng, Master Thesis, National Chiaio Tung University, China (2011) in Chinese

227. "Crack detection in photovoltaic cells by interferometric analysis of electronic speckle patterns," Tzu-Kuei Wen, Ching-Chung Yin Solar Energy Materials and Solar Cells 98 (2012) 216-223

228. "Curvelet combined orientation dispersion of image in defect edge detection of DSPI nondestructive testing," J. Li, Y. Lei, Guangxue Jishu/Optical Technique 38, 5 (2012) pp 560-563

229. "Phase Algorithm Integrating Direct-Correlation and Four-Step Phase-Shifting for Electronic Speckle Pattern Interferometry," C. Cai and L. He, Proceedings 15th International Conference on Experimental Mechanics (ICEM 15) Porto Portugal (2012) 2644 pp 587-588

230. "Fringe analysis and enhanced characterization of sub-surface defects using fringe-shifted shearograms," Francesca Celine I. Catalan, Anne Margarette S. Maallo, and Percival F. Almoro, Optics Comm 285, 21-22 (2012) pp 4223-4226 http://dx.doi.org/10.1016/j.optcom.2012.06.020

231. "Influence of Heating Profiles on Crack Inspection in Polysilicon Photovoltaic Cells Using Electronic Speckle Pattern Interferometry," Sau-Yuan Li, MSc Thesis, Dept Mechanical Engineering, National Chiao Tung University (2012) in Chinese

232. "Phase Unwrapping Method Based on Windowed Fourier Transform," Yan Bin He, Xin Zhong Li, Wei Min Chen, Jun Song Wen, Applied Mechanics and Materials 307 (2013) 321-326

233. "Phase algorithm integrating direct-correlation and four-step phase-shifting for electronic speckle pattern interferometry," Yanbin He, Xinzhing Li, Min Zhou, Applied Mechanics and Materials, 448-453 (2014) 3696-3701 doi:0.4028/www.scientific.net/AMM.448-453.3696

234. "Measurement of dynamic patterns of an elastic membrane at bi-modal vibration using high speed electronic speckle pattern interferometry," J. Sanchez Preciado, C. Perez Lopez, F Mendoza Santoyo, in 11th International Conference on Vibration Measurements by Laser and Noncontact Techniques - AIVELA 2014 AIP Conf. Proc. 1600, (2014) 196-202; doi: 10.1063/1.4879582

235. "Thermal deformation analysis of aluminium heat sink using electronic speckle pattern interferometry," Retheesh, R.; Radhakrishnan, P.; Singh, Rakesh Kumar; Mujeeb, A., International Journal of Advances in Engineering & Technology 7 2 (2014) 431-437

236. "Real-time one-point out-of-plane displacement measurement system using electronic speckle pattern interferometry", Chen Xiong ; Wenxin Hu ; Ming Zhang and Hong Miao, Opt. Eng. 55 12 (2016) 121721.

237. "High temperature electromagnetic acoustic transducer for guided wave testing," Maria Kogia, Doctoral Dissertation (2017) Brunel University London UK

238. "Nondestructive inspection, testing and evaluation for Si-based, thin film and multi-junction solar cells: An overview," Bolun Du, Ruizhen Yang, Yunze He, Feng Wang, and Shoudao Huang Renew Sustain Energy Rev 78 (2017) 1117–1151

239. “Impact of multiple usages of digital filters on speckle contrast and phase maps” PP Padghan, KM Alti Optik 154 (2018) 610-615

XVI. Al artículo “Solar Conduction Heat Transfer in Fired Clay Bricks,” E. Custodio G, P.J. Sebastian, J. Campos A, C.G. Treviño-Palacios, E. Andréz Zarate, Q. A. Cordova, and H. de la O-Leon, Solar Energy and Solar Cells 88 (2) (2005) pp 227-225 (11 citas)

240. "Horno solar de alta temperatura para el cocimiento de tabiques de arcilla", Gabriel Villeda Muñoz, Doctoral Dissertation, Instituto Politécnico Nacional, D.F. México (2010)

241. "Synthesis of Powdered Polymeric Microparticles by Using Supercritical Carbon Dioxide as the Polymerizing Medium," Isha R. Kamrupi, and Swapan K. Dolui Mat & Manufacturing Pr 25 7 (2010) 700-704

242. "Clay-Brick Firing in a High-Temperature Solar Furnance," G. Villeda-Muñoz, A. Castañeda-Miranda, R. C. Pless, J. T. Vega-Durán, J. Pineda-PiñónIngeniería, Investigación y Tecnología. XII, 4 (2011) 395-408. ISSN 1405-7743 FI-UNAM

243. "Biologically Cemented Sandstone Bricks," Daniel JEFFREY BERNARDI, MSc Thesis Civil and Enviromental Engineering, University of California, Cal. USA (2012)

244. "Bio-bricks: Biologically cemented sandstone bricks," D. Bernardi, J.T. DeJong, B.M. Montoya, B.C. Martinez Construction and Building Materials 55 (2014) 462–469

245. “Thermal Performance Assessment of Recycled Paper Mill Waste–Cement Bricks Using the Small-Scale Model Technique.” Raut, S., Mandavgane, S., and Ralegaonkar, R. J. Energy Eng., 140 (4) (2014) 04014001.

246. “Application of small-scale experimental models for thermal comfort assessment of sustainable building materials,” Raut S, Ralegaonkar R, Mandavgane S. Int J Civil Eng. 12 4 (2014) 439-446

247. "A Study on Structural Applicability of Flyash Bricks with Quarry Dust – an Ecofriendly Alternative for Clay Bricks," Balaraju Sivagnanaprakash, Palaniswamy Murthi, Alan Sekaran, Pol. J. Environ. Stud. 24 2 (2015) 696-699

248. "Controlling indoor air temperature using bagasse ash bricks," MV Madurwar, RV Ralegaonkar, Proceedings of the ICE - Engineering Sustainability 168 1 (2015) 216-226 DOI: 10.1680/ensu.15.00002

249. "A scientific approach with bibliometric analysis related to brick and tile drying: A review," A Yataganbaba, İ Kurtbaş, Renew. Sustainable Energy Rev., 59 (2016) 206-224

250. "Construcción viva Sinergia entre materiales y microorganismos," Cristina Martín Manzanares, Proyecto Fin de Carrera E.T.S. Arquitectura (2017) Universidad Politécnica de Madrid, Spain

XVII. Al artículo "Influence of the photoinduced focal length of a thin nonlinear m2008aterial in the Z-scan technique," E. Reynoso Lara, Z. Navarrete Meza, M. D. Iturbe Castillo, C. G. Treviño Palacios, E. Martí Panameño, and M. L. Arroyo Carrasco, Opt. Express 15, (2007) 2517-2529 (42 citas, 2 autocita)

251. “A precise data processing method for extracting χ⁽³⁾ from Z-scan technique,” Bing Gu, Xiao-Qin Huang, Su-Qing Tan and Hui-Tian Wang, Optics Comm. 277, 1 (2007) 209-213

252. “Técnica de barrido en Z para la caracterización óptica no lineal de materiales,” Edmundo Reynoso Lara , PhD Dissertation INAOE (2007)

253. “Variation of nonlinear refractive index in dye-doped liquid crystals by local and nonlocal mechanisms,” Antonio A. Rodríguez-Rosales, Omar G. Morales-Saavedra, Carlos J. Román-Moreno and Roberto Ortega-Martínez, Optical Materials 31, 2 (2008) pp 350-360

254. “Analysis of Gaussian decomposition method of Z-scan technology,” Guo Shifang, Tian Qiang, Journal of Beijing Normal University(Natural Science) 44, 6 (2008) p 584-587

255. "Simultaneous exhibition of positive and negative nonlinear response of dye-doped liquid crystal with polarization dependence of the Z-scan technique," A.A. Rodriguez-Rosales, R. Ortega-Martinez, O. Morales-Saavedra, C.J. Roman-Moreno, M.D. Iturbe-Castillo, R. Ramos-Garcia, R 2008 Digest of the LEOS Summer Topical Meetings (2008) 205-206

256. "Medición del índice de refracción nolineal de cristales líquidos con la técnica de Z-scan,” Antonio Alfonso RODRÍGUEZ ROSALES, PhD Dissertation, UNAM (2008)

A3. “Neither Kerr Nor Thermal Nonlinear Response of Dye Doped Liquid Crystal Characterized by the Z-Scan Technique,” A. A. Rodríguez-Rosales, R. Ortega-Martínez, M. L. Arroyo Carrasco, E. Reynoso Lara, C. G. Treviño Palacios, O. Baldovino-Pantaleón, R. Ramos García, M. D. Iturbe-Castillo Mol. Cryst. Liq. Cryst., 489, (2008) 335-347

257. "Polarization-controlled contrasted images using dye-doped nematic liquid crystals," R. Porras Aguilar, J. C. Ramirez-San-Juan, O. Baldovino-Pantaleon, D. May-Arrioja, M. L. Arroyo Carrasco, M. D. Iturbe-Castillo, D. Sánchez-de-la-Llave, and R. Ramos-Garcia, Opt. Express 17, (2009) 3417-3423. http://www.opticsinfobase.org/abstract.cfm?URI=oe-17-5-3417

258. "A general Z-scan theory," Pálfalvi, L., Tóth, B.C., Almási, G., Fülöp, J.A., Hebling, J., CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference (2009) art. no. 5196447

259. "A general Z-scan theory," L. Pálfalvi, B. C. Tóth, G. Almási, J. A. Fülöp and J. Hebling, Appl Phys B, (2009) 3417-3423 DOI 10.1007/s00340-009-3656-z

260. “Finite thickness lens model for self-focusing (defocusing) in Kerr médium,” Shi-fang Guo and Qiang Tian, Frontiers of Physics in China, 4, 2 (2009) 225-230 DOI 10.1007/s11467-009-0011-0

261. "Z-scan analysis of high-order nonlinear refraction effect induced by using elliptic Gaussian beam," Guo Shi-FangF, Tian Qiang, Chinese Physics B 19 6 (2010) 067802

262. “Ultrafast nonlinear optical properties of TiO2 nanoclusters at 850 nm,” Castillo-Matadamas, H. A, Lima-García, R. M. and Quintero-Torres, R., Journal of Modern Optics, 57 2 (2010) 1100-1106

263. “PC-Based systems for experiments in optical characterization of materials,” CC López-Mora, M Trejo-Duran, E Alvarado-Méndez, R Rojas-Laguna, E Vargas-Rodríguez, JM Estudillo-Ayala, R Mata-Chavez, I Sukhoivanov, A García-Pérez, O G Ibarra-Manzano and J A Andrade-Lucio, 2011 J. Phys.: Conf. Ser. 274 012059 doi: 10.1088/1742-6596/274/1/012059

264. "Películas de silicio dopadas con cristal líquido y rojo de metilo que presentan propiedades ópticas no lineales con potencial aplicación en optoelectrónica," Marañón-Ruiz, Virginia F.; Castañeda-Contreras, Jesús; Mora-González, Miguel; Pérez Ladrón de Guevara, Héctor; Chiu-Zarate, Roger; Ledesma-Carrión, Dora E.; Tellez-Jurado, Lucía Superficies y vacío, 23, 4 (2010) pp. 15-20

265. "Study of the Influence of Silver Impurity on the Linear and Nonlinear Refractive Index of Tellurite Glasses", J.M Giehl, W.M. Pontuschka, L.C. Barbosa, I. Sarah, A.M. Figueiredo Neto, N.U.Wetter, D. Soga, and Z.M.C. Ludwig, Book of abstract of XXII International Congress on Glass, paper 0458, Bahia, Brazil September 15-20 (2010) pp. 163,

266. "Theoretical study on stability of Z-scan technique by use of quasi-one-dimensional slit beam," Rui-Pin Chen, Bing Gu, Yi-Ming Xu, Jin Wang and Hui-Tian Wang, Optik 122 13 (2011) 1152-1158 doi:10.1016/j.ijleo.2010.07.016

267. "Z-scan and spatial self-phase modulation of a Gaussian beam in a thin nonlocal nonlinear media," EV Garcia Ramirez, ML Arroyo Carrasco, MM Mendez Otero, E Reynoso Lara, S Chavez-Cerda and M D Iturbe Castillo, J. Opt. 13 (2011) 085203

268. "Numerical study of the Medium thickness in the Z-scan Technique," I. Severiano Carrillo, M.M. Méndez Otero, M.L. Arroyo Carrasco, M.D. Iturbe Castillo Proc. of SPIE Vol. 8011, 80113L (2011); doi:10.1117/12.902201

269. "A model for light transmission through a thin nonlocal-nonlinear media," E.V. Garcia Ramirez, M. L. Arroyo Carrasco, M. M. Mendez Otero, E. Reynoso Lara, S. Chavez-Cerda, M. D. Iturbe Castillo, Proc. of SPIE Vol. 8011, 80113C (2011); doi:10.1117/12.901970

270. "Estudos das propiedades estructurais e optica de vidrios teluritos," Julia Maria Giehl, PhD Dissertation Universidad de Sao Paulo, Brasil (2011)

271. "Z-Scan for Thick Media as a Function of the Photoinduced Focal Length,” I. Severiano, M. Méndez, M. Arrroyo, and D. Iturbe, in Laser Science, OSA Technical Digest (Optical Society of America, 2011), paper JTuA6. http://www.opticsinfobase.org/abstract.cfm?URI=LS-2011-JTuA6

272. "Determination of focal length photoinduced lens in ionic liquids," M. Trejo-Duran, E. Alvarado-Mendez, J.A. Andrade-Lucio, R.I. Mata-Chavez, E. Vargas-Rodriguez, Nonlinear Photonics (NLP), 2011 International Workshop (IEEE Piscataway NY, 2011) ISBN 978-1-4577-0477-2 DOI 10.1109/NLP.2011.6102663

273. "Caracterización de las propiedades ópticas de Betacianinas y Betaxantinas por espectroscopía UV-Vis y barrido en Z," Marañón-Ruiz, V. F.; Rizo de la Torre, L. del C.; Chiu-Zarate, R. Superficies y vacío, 24 (4) (2011) pp. 113-120

274. "Directionally selective optical limiting of femtosecond pulses in simple transparent two-layer systems," Sabitha Mohan, Heinrich Graener, and Gerhard Seifert, Opt. Lett. 37, (2012) 4116-4118

275. "Nonlinear optical characterization of ionics liquids of 1-methylpyrrolidine family," Monica Trejo-Duran, Edgar Alvarado-Mendez, Everardo Vargas-Rodriguez, Julian Moises Estudillo-Ayala, Ruth I. Mata-Chavez, Photonics North 2012, Proc of SPIE Vol. 8412, 84121X (2012)

276. "Comparison of different models employed to describe the z-scan curves for thick nonlinear optical media," Israel Severiano Carrillo, Marcela Maribel Méndez Otero, Maximino Luis Arroyo Carrasco, Marcelo David Iturbe Castillo, Journal of Modern Optics 60 3 (2013) 248-254

277. "Strong thermal optical nonlinearity caused by CdSe nanoparticles synthesised in smectic ionic liquid crystal," A. Lyashchova, D. Fedorenko, Yu. Garbovskiy, G. Klimusheva, T. Mirnaya & V. Asaula, Liquid Crystals, (2013) DOI:10.1080/02678292.2013.811548 6pp

278. "An analytical model for finite radius dual-beam mode-mismatched thermal lens spectroscopy," M Sabaeian, H Nadgaran J.Appl. Phys. 114 133102 (2013) doi:10.1063/1.4824295

279. "Comparison of different models of the Z-scan technique by thin media," I. Severiano Carrillo, M. M. Méndez Otero, M. L. Arroyo Carrasco, M. D. Iturbe Castillo, in Proceedings of the Mexican Optics and Photonics Meeting - MOPM 2013 (2013) P21

280. "Curvas experimentales de barrido en Z para medios gruesos," C. M. Morales Crisanto, M. M. Méndez Otero, M. L. Arroyo Carrasco, M. D. Iturbe Castillo in Proceedings of the Mexican Optics and Photonics Meeting - MOPM 2013 (2013) P18

281. "Photonics of new metal-alkanoate composites contained semiconductor nanoparticles," A. Lyashchova, D. Fedorenko, G. Klimusheva, I. Dmitruk, S. Bugaychuk, T. Mirnaya, 2013 International Conference on Advanced Optoelectronics and Lasers (CAOL), (2013) 217 - 219 doi: 10.1109/CAOL.2013.6657584

282. "Nonlinear Optical Properties of New Nanocomposites: Metal Alkanoate Glasses with Semiconductor Quantum Dots," A. G. Lyashchova, D. V. Fedorenko, G. V. Klimusheva, T. A. Mirnaya and V. N. Asaula, in Nanomaterials Imaging Techniques, Surface Studies and Applications Springer Proceedings in Physics 146, Olena Fesenko, Leonid Yatsenko Mikhaylo, Brodin Editors (Springer New York Heidelberg Dordrecht London, 2013) pp 93-101

283. "Versatile Nonlinear-Optical Materials Based on Mesomorphic Metal Alkanoates: Design, Properties, and Applications," G Klimusheva, T Mirnaya, Y Garbovskiy Liquid Crystals Reviews 3 1 (2015) 28-57 DOI:10.1080/21680396.2015.1030461

284. "Evaluation of optical arrangements for ballistic imaging in sprays," Mattias Rahm, Megan Paciaroni, Zhenkan Wang, David Sedarsky, and Mark Linne, Opt. Express 23, (2015) 22444-22462

285. "Direct evidence for the increase in exciton concentration and effective electron-hole pair separation in anatase TiO2:Eu nanospheres by using femtosecond Z-scan ," Oriparambil Sivaraman Nirmal Ghosh, Srinivasa Rao Allam, Sethuraman Gayathri, Gridhar Chakravarthy, Alok Sharan, Annamraju Kasi Viswanath, National Laser Symposium (NLS-24) (2015) Article CP-5.12 ISBN: 978-81-903321-6-3

286. "ESTUDIO DE CAMBIOS DE FASE EN MATERIALES ORGANICOS NO LINEALES," A. J. del S. Saldaña-Sánchez, L. O. Arredondo-Martínez, V. de J. García-Macías, M. Cano-Lara, Israel Severiano-Carrillo, M. Trejo-Durán, E. Alvarado-Méndeza, en XII encuentro Participacion de la Mujer en la Ciencia (2015) ISSN 2448-5063 S5-ING31

287. “Optothermal nonlinearity of Silica Aerogel,”Braidotti MC, Gentilini S, Fleming A, Samuels MC, Di Falco A, Conti C. Appl. Phys. Lett. 109 4 (2016) 041104

288. "Two nonlinear optical processes in Z-scan curves of a bleached photographic film,"E. Reynoso-Lara, A. Balbuena-OrtegaY. E. Bravo-GarcíaJ. A. Dávila-PintleM. L. Arroyo-CarrascoM. D. Iturbe-Castillo, Journal of the European Optical Society-Rapid Publications (2016) 12:13

A4. "Two nonlinear optical processes in z-scan curves of a bleached photographic film," E. Reynoso Lara, J. A. Dávila Pintle, M. Rendón Marín, Y. E. Bravo García, M. L. Arroyo Carrasco, M. M. Méndez Otero, M. D. Iturbe Castillo, and C. G. Treviño, in Latin America Optics and Photonics Conference, (Optical Society of America, 2016), paper LTu4A.8.

289. "Nonlinear optical phenomena in Bi-ionic Liquids," Mónica Trejo-Durán and Edgar Alvarado-Méndez and Karla A. Barrera-Rivera and Victor M. Castaño, Optik 130 (2017) 895-899

290. "ABCD matrix formalism to determine nonlinear refraction coefficient by Z-scan technique," Sahoo, Chakradhar; Sreeramulu, V.; Naraharisetty, Sri Ram G.; Narayana Rao, D. Curr. Sci. 112 05 (2017) 1015-1019

291. "Improved Z-scan adjustment to thermal nonlinearities by including nonlinear absorption," I. Severiano-Carrillo, E. Alvarado-Méndez, M. Trejo-Durán, M.M. Méndez-Otero, Opt. Comm.397 (2017) 140-146,

292. "Third order non-linear response as function of the laser power in SiO2:DR1 mesostructured and amorphous films", J. A. García-Macedo, G. Salas-Gamez, Proc. SPIE 10356, Nanostructured Thin Films X (2017)1035605 doi: 10.1117/12.2274722;

XVIII. Al artículo “Microstructural Characterization of Fired Clay Bricks in the Chontalpa Region, Tabasco, Mexico,” E. Custodio-García, M. Acosta-Alejandro, L.I. Acosta-Pérez, C.G. Treviño-Palacios, D. Mendoza-Anaya Mat Manufacturing Pr, 22 3 (2007) 298–300 (3 citas)

293. "Synthesis of Powdered Polymeric Microparticles by Using Supercritical Carbon Dioxide as the Polymerizing Medium," I.R. Kamrupi, and S.K Dolui, Mat Manufacturing Pr 25 7 (2010) 700-704

294. "Manufacture of Ceramic Bricks Using Recycled Brewing Spent Kieselguhr," Eduardo Ferraz, João Coroado, Joaquim Silva, Celso Gomes & Fernando Rocha, Mat Manufacturing Pr 26 10 (2011) 1319-1329

295. "Effect of sintering behavior on the porous structure of porous quartz ceramics," J. Song, G. Ji, S. Li, D. Du, and F. Wang, International Journal of Materials Research 104, 1 (2013) 93-98

XIX. Al artículo “Neither Kerr Nor Thermal Nonlinear Response of Dye Doped Liquid Crystal Characterized by the Z-Scan Technique,” A. A. Rodríguez-Rosales, R. Ortega-Martínez, M. L. Arroyo Carrasco, E. Reynoso Lara, C. G. Treviño Palacios, O. Baldovino-Pantaleón, R. Ramos García, M. D. Iturbe-Castillo Mol. Cryst. Liq. Cryst., 489, (2008) 335-347 (14 citas)

296. "Polarization-dependent nonlinear phase contrast by using dye-doped nematic liquid crystals," R. Porras Aguilar, M. D. Iturbe-Castillo, J. C. Ramirez-San-Juan, O. Baldovino-Pantaleon, D. Sánchez-de-la-Llave, R. Ramos-Garcia, and M. L. Arroyo Carrasco, in Liquid Crystal XII Proc. of SPIE Vol 7050 edited by Iam-Choon Khoo, (SPIE, Bellingham, WA, 2008) pp 5006-5006

297. “Variation of nonlinear refractive index in dye-doped liquid crystals by local and nonlocal mechanisms,” Antonio A. Rodríguez-Rosales, Omar G. Morales-Saavedra, Carlos J. Román-Moreno and Roberto Ortega-Martínez, Optical Materials 31, 2 (2008) pp 350-360

298. "Polarization-controlled contrasted images using dye-doped nematic liquid crystals," R. Porras Aguilar, J. C. Ramirez-San-Juan, O. Baldovino-Pantaleon, D. May-Arrioja, M. L. Arroyo Carrasco, M. D. Iturbe-Castillo, D. Sánchez-de-la-Llave, and R. Ramos-Garcia, Opt. Express 17 (2009) 3417-3423.

299. "Non-linear light propagation and bistability in nematic liquid crystals", Jeroen Beeckman, Kristiaan Neyts, Wout De Cort and Abbas Madani, Proc. SPIE 7414, 74140K (2009)

300. "Effects of a Unifor axial electric field on Helical flow of Cholesteric Liquid Crystals Between Two Coaxial Circular Cylinders having Angular and Axial Velocities," Meena Kumari and A. K. Sharma, J. Comp. & Math. Sci. 1,1 (2009) 11-20

301. “Impact of dyes on the nonlinear optical response of liquid crystals implementing the Z-scan technique,” A A Rodríguez-Rosales, R Ortega-Martínez and O G Morales-Saavedra, J. Phys.: Conf. Ser. 274 (2011) 012138

302. "Design and construction of a compact Z-scan portable system," Mónica F. Jiménez-Salinas, Antonio A. Rodríguez-Rosales, Roberto Ortega-Martínez,Carlos J. Román-Moreno, Omar G. Morales-Saavedra, and N. Qureshi, Proc. SPIE 8011, 80112B (2011)

303. "Observation of the commutation between bright and dark spatial optical solitons" A. A. Rodríguez-Rosales, E. Ordoñez, R. Ortega-Martínez, C. J. Román and O. Kolokoltsev, Proc. SPIE 8011, (2011) 80114G

304. "Determination of focal length photoinduced lens in ionic liquids," M. Trejo-Duran, E. Alvarado-Mendez, J.A. Andrade-Lucio, R.I. Mata-Chavez, E. Vargas-Rodriguez, Nonlinear Photonics (NLP), 2011 International Workshop (IEEE Piscataway NY, 2011) ISBN 978-1-4577-0477-2

305. "Variation of spatial soliton in liquid crystals due change of polarization of the incident laser beam ", A. A. Rodríguez-Rosales ; C. J. Román Moreno and R. Ortega-Martínez, Proc. SPIE 8785, 8th Iberoamerican Optics Meeting and 11th Latin American Meeting on Optics, Lasers, and Applications, 8785AI (2013); doi:10.1117/12.2021705

306. "Optical induction of Bessel-like lattices in methyl-red doped liquid crystal cells", Paytsar Mantashyan,

306.Rafael Drampyan, Jeroen Beeckman, Oliver Willekens, Kristiaan Neyts, Optics Comm 338 (2015) 467-472

307. "Self-calibrating common-path interferometry," Rosario Porras-Aguilar, Konstantinos Falaggis, Julio C. Ramirez-San-Juan, and Ruben Ramos-Garcia, Opt. Express 23, (2015) 3327-3340

308. "Two nonlinear optical processes in Z-scan curves of a bleached photographic film,"E. Reynoso-Lara, A. Balbuena-OrtegaY. E. Bravo-GarcíaJ. A. Dávila-PintleM. L. Arroyo-CarrascoM. D. Iturbe-Castillo, Journal of the European Optical Society-Rapid Publications (2016) 12:13

309. “Aplicaciones fotónicas de celdas híbridas a base de silicio amorfo,” Ángel Fuentes García, PhD Dissertation INAOE, México (2017)

XX. Al artículo “FTIR and electrical characterization of a-Si:H layers deposited by PECVD at different boron ratios,” Orduña-Diaz, C.G. Treviño-Palacios, M. Rojas-Lopez, R. Delgado-Macuil, V.L. Gayou, A. Torres-Jacome, Mater. Sci. Eng. B 174 (2010) 93-96 (9 citas)

310. "Approximate theory of temperature coefficient of resistivity of amorphous semiconductors," Ming-Liang Zhang and D. A. Drabold, Phys. Rev. B 85 12 (2012) 125135

311. “CMOS compatible IR sensor by cytochoreme c protein,” Chien-Jen Liao, Guo-Dung Su, Proc. SPIE 8868 (2013) 88680F; doi:10.1117/12.2023261

312. "Dependence of the Optical and Electrical Properties of Chemically Annealed Vaccum-deposited a-Si:H films on the deposition rate," Ahmed M. EL-Naggar, Mod. Phys. Lett. B 27 (2013) 1350015

313. "Highly conductive boron doped micro/nanocrystalline silicon thin films deposited by VHF-PECVD for solar cell applications," Sucheta Juneja, S. Sudhakar, Jhuma Gope, Kalpana Lodhi, Mansi Sharma, Sushil kumar, Journal of Alloys and Compounds 643 (2015) 94-99

314. "Propiedades mecánicas de Recubrimientos de Ti-Si-N sintetizado por pulverización catódica reactiva," Jose Luis Guerra Betancourt, Juan Manuel González Carmona, Alexander Ruden Muñoz, Carolina Ortega, Federico Sequeda, Informador Técnico (Colombia) 79(1) (2015) 11-17.

315. "Producción y caracterización de recubrimientos de TiSin obtenidas por la técnica de magnetrón sputtering reactivo," Guerra Betancourt, José Luis, Tesis de Licenciatura en Ingeniería, Universidad del Valle, Santiago de Cali, Colombia (2015)

316. "XPS, SIMS and FTIR-ATR characterization of boronized graphite from the thermonuclear plasma device RFX-mod," F. Ghezzi, L. Laguardia, R. Caniello, A. Canton, S. Dal Bello, B. Rais, M. Anderle, Applied Surface Science 354 (2015) 408-419

317. "Application of amorphous silica, Colemanite and pumice on cotton fabric by screen printing method" Bulut, Meliha Oktav; Cimen, Omur; Akbulut, Yasemin; Akcali, Kadri; Dereli, Burak Industria Textila 66 5 (2015) 289-296

318. "OPTICAL CHARACTERIZATION OF THIN SiO₂/a-Si:H/SiO2 STRUCTURES WITH IMPROVED ELECTRICAL PERFORMANCE OBTAINED BY ELECTRON CYCLOTRON RESONANCE TECHNIQUE," David Mateos, Nicola Nedev, Jose Diniz, Benjamín Valdez, Melissa Mederos, Mario Curiel and Oscar Pérez, XXVI International Material Research Congress 2017 (2017) SA.7-P163

XXI. Al artículo “a-Si:H crystallization from isothermal annealing and its dependence on the substrate used,” M. Rojas-López, A. Orduña-Díaz, R. Delgado-Macuil, V.L. Gayou, M. Bibbins-Martínez, A. Torres-Jácome, C.G. Treviño-Palacios, Mater. Sci. Eng. B 174 1-3 (2010) 137-140 (1 cita)

319. "Low temperature plasma production of hydrogenated nanocrystalline silicon thin films," Tamila Anutgan, Sema Uysal, Curr. Appl. Phys. 13 (2013) 181-188 doi: 10.1016/j.cap.2012.07.001

XXII. Al artículo “Grating cavity dual wavelength dye laser,” O.J. Zapata-Nava, C.G. Treviño-Palacios, M.D. Iturbe-Castillo y P. Rodriguez-Montero, Opt. Express.19 4 (2011) 3483-3493 (3 citas)

320. “Dual-wavelength operation in all-solid-state Cr: LiSAF lasers with grating-controlled coupled-cavities,” L. Kunpeng, Y Li, S Yanlong, H Chao, Z Feng, C. Hongwei, H. Ke, Y. Aiping, Optics & Laser Technology 74 (2015) 1–5

321. "High-efficiency tunable dual-wavelength Cr:LiSAF laser with external grating feedback," Luan Kunpeng, Shen Yanlong, Yu Li, Chen Hongwei, Chen Shaowu, Tao Mengmeng, Yi Aiping, Optics Communications 405(2017) 233–237

322. "Dual-wavelength operation in Cr:LiSAF laser with external grating feedback," Kunpeng Luan, Li Yu, Yanlong Shen, Hongwei Chen, and Ke Huang, Laser Congress 2017 (ASSL, LAC) OSA Technical Digest (online) (2017) paper JTh2A.24

XXIII. Al artículo "Dual wavelength continuous wave laser using a birefringent filter,” C. G. Trevino-Palacios, O. J. Zapata-Nava, E. V. Mejia-Uriarte, N. Qureshi, G. Paz-Martinez, O. Kolokolstev Journal of the European Optical Society - Rapid publications 8 (2013) 13021 (8 citas)

323. "Single- and two-color laser generation from etalon out-coupled Nd:YVO4 laser," Y. Chiu, B. Wang, M. Wu, and Y. Huang, in Advanced Solid State Lasers, OSA Technical Digest (online) Optical Society of America, (2015), paper AM5A.43.

324. "Dual-wavelength operation of a diode-pumped Yb:KGW laser," R. Akbari, H. Zhao, and A. Major, in 2015 Conference on Lasers and Electro-Optics Pacific Rim, (Optical Society of America, 2015), paper 26A1_2.

325. "Power-ratio tunable dual-wavelength laser using linearly variable Fabry–Perot filter as output coupler," Xiaozhong Wang, Zhongfa Wang, Yikun Bu, Lujian Chen, Guoxiong Cai, Wencai Huang, Zhiping Cai, and Nan Chen, Appl. Opt. 55 (2016) 879-883

326. "High power continuous wave dual-wavelength operation of a diode-pumped Yb:KGW laser," R. Akbari, H. Zhao, A. Major, Opt Lett 41 1 (2016) 1601-1604

327. "Multicolor lasers using birefringent filters: experimental demonstration with Cr:Nd:GSGG and Cr:LiSAF," Umit Demirbas, Reinhard Uecker, James G. Fujimoto, and Alfred Leitenstorfer, Opt Express 25 3 (2017) 2594-2607

328. "Red diode pumped Cr:Nd:GSGG laser: two-color mode-locked operation," Talha Yerebakan, Umit Demirbas, STEFAN EGGERT, Rainer Bertram, Peter Reiche, and Alfred Leitenstorfer, JOSA B 34 5 (2017) 1023-1032

329. "High power continuous-wave dual-wavelength alexandrite laser," Shirin Ghanbari and Arkady Major, Laser Physics Letters, 14 10 (2017) 105001

330. "Off-surface optic axis birefringent filters for smooth tuning of broadband lasers," Umıt Demırbas, Appl Opt 56 28 (2017) 7815-7825

XXIV. Al articulo “Design of Free-Space Optical Interconnects using two Gabor Superlenses,” A. Garza-Rivera, F.J. Renero-Carrillo, C.G. Trevino-Palacios, Optical Review 21 5 (2014) 516-521 (1 cita)

331. "Optical Simulation of Gecko eye" Francisco-J Renero-C Conference Paper Latin America Optics and Photonics Conference Cancun Mexico November 16-21 (2014) ISBN: 978-1-55752-825-4 Instrumentation, Optical Design, Color and Vision 4 (LF1B)

XXV. Al artículo "Unfolding Phase Unwrapping” Carlos G Treviño-Palacios Opt Eng 54 11 (2015) 110503 (2 citas)

332. "Absolute phase recovery in structured light illumination systems: Sinusoidal vs. intensity discrete patterns,”

R Porras-Aguilar, K Falaggis Opt. Lasers Eng. 84 (2016) 111–119

333. "Optimum projection pattern generation for grey-level coded structured light illumination systems," Rosario Porras-Aguilar, Konstantinos Falaggis, Ruben Ramos-Garcia, Opt. Lasers Eng 91 (2017) 242–256

XXVI. Al artículo "Status and opportunities for future use of terahertz radiation for clinical applications," C.G. Treviño-Palacios, Photonics & Lasers in Medicine 5 1 (2016) 15-20 (2 citas)

334. "Laser-advanced new methods for diagnostics and therapeutics," Ronald Sroka, Lothar Lilge, Photon. Las Med 5 1 (2016) 1-4

335. "White Paper on THz Coherent Light Source in Uppsala," Vitaliy Goryashko, Peter Salén, Peter van der Meulen and Vitali Zhaunerchyk, Stockholm-Uppsala Centre for Free Electron Laser Research (2016)

XXVII. Al artículo "Neuroimaging with functional near infrared spectroscopy: from formation to interpretation," Javier Herrera-Vega, Carlos G Treviño-Palacios, Felipe Orihuela-Espina, Infrared Physics & Technology 85 (2017) 225-237 (1 cita)

336. "Imperial College near infrared spectroscopy neuroimaging analysis framework," Felipe Orihuela-Espina, Daniel R. Lef, David R. C. James, Ara W. Darzi, Guang-Zhong Yang, Neurophotonics 5 1 (2018) 011011

XXVIII. A la memoria en extenso “Waveguide design for minimum nonlinear effective area and switching energy in AlGaAs at half the band gap” A. Villenueve, J.S. Aitchison, B. Vögele, R. Tapela, J.U. Kang, C.G. Treviño-Palacios, y G.I. Stegeman, Conference in Lasers and Electro-Optics (CLEO’95). Baltimore MD, USA, (Optical Society of America, Technical Digest 1995 Vol 15) 266 (1 cita)

337. “Polarization dependence of ultrasfast nonlinear refraction in an AlGaAs waveguide at the half-band gap,” D.C. Hutchins, J. S. Aitchison, B.S. Wherrett, G.T. Kennedy and W. Sibbett, Opt. Lett. 20, 9, (1995) 991-993

XXIX. A la memoria en extenso “Cascading of 2^nd order nonlinear processes in waveguides”, G.I. Stegeman, W. Torruellas M. Sundheimer, D. Kim, G. Krijnen, Y. Baek, C. Trevino-Palacios, E. VanStryland, R. Schiek, G. Assanto, L. Torner, C. Menyuk, J.D. Bierlein, W. Sohler, P. Vidakovic, y J. Zyss 7th European Conference on Integrated Optics with Technical Exhibition. (ECIO’95), Delft, Netherlands (Delft University Press, Delft, Netherlands vol 603) 335-8 (2 citas)

338. “Ion Exchange in Single Crystal for Integrated Optics and Optoelectronics” Yu N. Korkishko, V. A. Fedorov (Cambridge Intl Science Pub Lt, 1999) ISBN 189832641X p. 394 & p.453

339. “All-optical integrated optic devices: A hybrid approach,” A. Driessen, H.J.W.M. Hoekstra, F. Horst, G.J.M. Krijnen, B.J. Offrein, J.B.P. van Schoot, P.V. Lambeck, and Th.J.A. Popma, IEEE Proceedings – Optoelectronics 145, 4 (1998) 227-235

XXX. A la memoria en extenso “Spatially chirping of wavevector-mismatch in LiNbO₃ segmented waveguides for engineering of specific second harmonic generation detuning curves for cascading applications”, C.G. Treviño-Palacios, G.I. Stegeman, D. Ortega, and J.S. Aitchinson. Conference in Lasers and Electro-Optics (CLEO’98). San Fransisco Cal. EUA, mayo 1998. (Optical Society of America, Technical Digest 1998 Vol 6) 105-106 (2 citas)

340. “Bulk periodically poled lithium niobate doped with Yb3+ ions: Grow and characterization” J. Capmany, V. Bermudez y G. Dieguez, Appl.Phys.Lett. 74, 11 (1999) 1534-1536.

341. “Cascaded nonlinear phase shift in a novel anharmonic phase-mismatch configuration,” G. Baldenberger , S. LaRochelle, A. Villeneuve, J. Opt. Soc. Am. B 16, 11 (1999) 1894-1903.

XXXI. A la memoria en extenso “Measurement of the nonuniformity of the wave-vector mismatch in waveguides for second harmonic generation”, R. Schiek, H. Fang, C.G. Treviño-Palacios, and G.I. Stegeman, Nonlinear Guided Waves & Their Applications ‘98. Victoria, BC, Canada, (Optical Society of America, Technical Digest 1998 Vol 5) 256-258. (3 citas)

342. “Second-harmonic generation and cascaded nonlinearity in titanium-indiffused lithium niobate channel waveguides,” R. Schiek Y.S. Baek, y G.I. Stegeman, J.Opt.Soc.Am. B 15, 8 (1998) 2255-2268.

343. “Interactions between one-dimensional quadratic solitonic-like beams,” R. Schiek Y.S. Baek, G.I. Stegeman, Opt. Quant. Electron. 30, 7-10 (1998) 861-879.

344. “Characterization of quasi-phase-matching gratings in quadratic media through double-pass second harmonic generation,” Steffen Kjær Johansen and Pascal Baldi, J.Opt.Soc.Am. B, 21, 6 (2004), 1137-1145

XXXII. A la memoria en extenso “Observation of Two-Dimensional Quadratic Solitons in Type I Potasium Niobate”, R. A. Fuerst, R. R. Malendevich, C.G. Trevino-Palacios, G.I. Stegeman, C. Bosshard and P. Gunter, IEEE Laser and Electro-Optics Society 1998 Meeting, Institute of Electrical and Electronics Engineers, LEOS 11th annual meeting, vol 2) 136-137 (3 citas)

345. “Quadratic solitons with gain and loss,” Torner, L.; Dorring, J.; Torres, J.P. IEEE Journal of Quantum Electronics, 35, 9, (1999) pp 1344 - 1350

346. “Multiple Spatial Soliton Excitation by a Single Beam in Non-critically Phase-matched Biaxial Crystal,” S. Polyakov, R. Malendevich, L. Jankovic, G. Stegeman, C. Bosshard and P. Gunter, in OSA Trends in Optics and Photonics Vol 74 Quantum Electronics and Laser Electronics 2000, OSA Technical Digest, Postconference edition (Optical Society of America, Washington D.C., 2000) 147-148.

347. “Dramatic impact of two photon absorption on multi soliton excitation in non-critically phase-matched biaxial crystals,” S. Polyakov, L. Jankovic, G. Stegeman, C. Bosshard, and P. Gunter, in Quantum Electronics and Laser Science, 2003. QELS. Postconference Digest (Optical Society of America, Washington D.C., 2003)

XXXIII. A la memoria en extenso “Waveguiding properties of dark spatial soliton arrays in BTO photorefractive crystal”, R. Delgado-Macuil, M.D. Iturbe-Castillo, C.G. Trevino-Palacios, M.M. Mendez-Otero, E. Marti-Panameno, y V.A. Vysloukh, 4th Iberoamerican Meeting on Optics and 7th Latin American Meeting on Optics, Lasers, and Their Applications Tandil Argentina, Proceedings SPIE 4419, Vera L. Brudny , Silvia A. Ledesma, Mario C. Marconi (eds) (2001) 537-540. (1 cita)

348. “Waveguide properties of array of dark spatial solitons in Bi₁₂TiO₂₀ photorefractive crystal,” R. Delgado Macuil and M. D. Iturbe Castillo, Journal of Optics A: Pure and Applied Optics, 5, 6 (2003) S493-S499.

XXXIV. A la memoria en extenso “Analysis of polarization states in an optical fiber under magnetic field effects,” H. H Cerecedo-Nuñez,. Mendoza-Vazquez, Sergio, Kuzin, Evgueni A., Camas-Anzueto, Jorge L., Trevino-Palacios, Carlos G., Fiber Optic Sensor Technology and Applications, M. A. Marcus and B. Culshau(eds)Proc. SPIE 4578 (2001) pp. 428-433. (2 citas)

349. "A new magnetic field measurement based on Polarization Dependent Loss of reflection light in triangular grating," Ye Zhenxing in Proceedings 2011 International Conference on Transportation, Mechanical, and Electrical Engineering (IEEE Conference proceedings) (2012) ISBN: 978-1-4577-1701-7 pp 2070-2073

350. "A New Three Points Measurement Method Based on Stokes Parameters of Fiber Bragg Gratings," Y Zhu, Y Su, N Meng, H Zhang, 2012 Symposium on Photonics and Optoelectronics (SOPO), IEEE Conference publication (2012) doi 10.1109/SOPO.2012.6271076

XXXV. A la memoria en extenso “High-speed optical interconnext demultiplexing at the Fresnel plane,” F.J. Rivera-Lopez, C.G. Treviño-Palacios, E. Tepichin Rodriguez, Proceedings SPIE 5264 Optomechatronic Systems IV, George K. Knopf (ed) (2003) 226-236 (1 cita)

351. “Diseño y construcción de un modelo experimental para la comprobación de un enlace de telecomunicación inalámbrico óptico punto a multipunto usando el plano de Fresnell,” Olivera Ramírez Andrés Alberto, Tesis de Licenciatura, Universidad Tecnológica de la Mixteca, México (2006) 84

XXXVI. A la memoria en extenso “Collosal optical nonlinear effects at the nematic-isotropic temperature transition in azo dye-doped liquid crystal,“ I. Lazo-Martínez, I Guizar-Iturbe, A. Olivares-Pérez, C.G. Treviño-Palacios and R. Ramos-García, Proc. SPIE 5936 (2005) 59360Y (2 citas)

352. “Polarization-universal bandgap in periodically twisted nematics,” H. Sarkissian, B. Ya Zeldovich, and N. V. Tabiryan, Opt. Lett. 31 11 (2006) 1678-1680

353. "Longitudinally modulated nematic bandgap structure," H. Sarkissian, B. Y. Zeldovich, and N. Tabiryan, J. Opt. Soc. Am. B 23, (2006) 1712-1717

XXXVII. A la memoria en extenso “Nonlinear Phase Contrast Microscope,” L.I. Olivos Perez, M.D. Iturbe Catillo, D. Sanchez de la Llave, R. Ramos-García, and C.G. Treviño-Palacios, Liquid Crystal X, Iam-Choon Khoo (ed) Proc. SPIE 6332 (2006) 633210 (10 citas)

354. "Study of transparent biological image phase modulations by a Dye doped Liquid Crystal film," Tsung-yen Cho, MSc Thesis, Graduate Institute of Physics National Chung Cheng University, China (2007)

355. International patent search report (novelty compromising document) for “Systems and Methods of all-optical Fourier phase contrast imaging using dye doped liquid crystals”, C.S. Yelleswarapu, S.R. Kothapalli and D.V.G.L.N Rao (2007) International Patent Application WO 2008/058142 A1

356. "Liquid crystal reorientation induced by photoisomerization and its applications in image processing," Rosario G. Porras Aguilar, PhD Dissertation INAOE Mexico (2009)

357. “Systems and Methods of all-optical Fourier phase contrast imaging using dye doped liquid crystals”, C.S. Yelleswarapu, S.R. Kothapalli and D.V.G.L.N Rao (2010) patent US 7,738,047 B2

358. European patent search report (novelty compromising document) for “Systems and Methods of all-optical Fourier phase contrast imaging using dye doped liquid crystals”, C.S. Yelleswarapu, S.R. Kothapalli and D.V.G.L.N Rao (2010) European Patent Application EP 2 275 851 A1

359. “Contraste de fase no lineal,” Luis Ignacio Olivos Pérez, PhD Dissertation INAOE México (2011)

360. “Systems and Methods of all-optical Fourier phase contrast imaging using dye doped liquid crystals”, C.S. Yelleswarapu, S.R. Kothapalli and D.V.G.L.N Rao (2011) patent 7,880,820 B2

361. "On measuring cell confluence in phase contrast microscopy ", K. P. Dempsey ; J. B. Richardson and K. P. Lam, Proc. SPIE 8947, Imaging, Manipulation, and Analysis of Biomolecules, Cells, and Tissues XII (2014) 89471I doi:10.1117/12.2039929;

362. “Systems and Methods of all-optical Fourier phase contrast imaging using dye doped liquid crystals”, C.S. Yelleswarapu, S.R. Kothapalli and D.V.G.L.N Rao (2015) patent EP 2,275,851 B1

363. " Monitoring Individual Cells within Cell Cultures using Image Processing and Pattern Recognition Techniques," Katherine Dempsey Doctoral Dissertation, Keele University England (2017)

XXXVIII. A la memoria en extenso “Security system with optical key access,” C. G. Treviño-Palacios, A. Olivares-Pérez, and O. J. Zapata-Nava en Sixth Symposium Optics in Industry, Julio C. Gutiérrez-Vega, Josué Dávila-Rodríguez, Carlos López-Mariscal, Eds, Proceedings SPIE Vol 6422 (SPIE, Berllingham Wa, USA, 2007) 642218 (4 citas)

364. "Computer-Generated Holograms Written Directly on a Silicon Surface Including 3-D and Rainbow Effects," K. J. Waedegaard and P. Balling, in Conference on Lasers and Electro-Optics, OSA Technical Digest (CD) (Optical Society of America, 2010), paper CMH7.

365. “Computer-generated holograms written directly on silicon,” K. J. Waedegaard and P. Balling, in CLEO/Europe and EQEC 2011 Conferest Digest, OSA Technical Digest (CD) (Optical Society of America, 2011), paper CM4_3

366. "High-resolution computer-generated reflection holograms with three-dimensional effects written directly on a silicon surface by a femtosecond laser," Kristian J. Wædegaard and Peter Balling, Opt. Express 19, 3434-3439 (2011)

367. "Femtosecond Three Dimensional Holographic Lithography Using CGH Displayed on SLM," A. Anas Fauzi, B. Sung-Jin Kim, C. Nam Kim, D. Seock-Hee Jun, and E. Kwon-Yeon Lee in 17th Optoelectronics and Communications Conference (IEEE OECC 2012, Busan, Korea) 685-686

XXXIX. A la memoria en extenso ““Design of a Dual Wavelength Birefringent Filter,” C. G. Treviño-Palacios, C. Wetzel, and O. J. Zapata-Nava, RIAO/OPTILAS 2007 (AIP Conference Proceedings 2007), 392–397. (2 citas)

368. "Multicolor lasers using birefringent filters: experimental demonstration with Cr:Nd:GSGG and Cr:LiSAF," Umit Demirbas, Reinhard Uecker, James G. Fujimoto, and Alfred Leitenstorfer, Opt Express 25 3 (2017) 2594-2607

369. "Red diode pumped Cr:Nd:GSGG laser: two-color mode-locked operation," Talha Yerebakan, Umit Demirbas, STEFAN EGGERT, Rainer Bertram, Peter Reiche, and Alfred Leitenstorfer, JOSA B 34 5 (2017) 1023-1032

XL. A la memoria en extenso “Study of laser reflectivity on skin,” J.J.J. Oidor-García and C.G. Treviño-Palacios, in Tenth Mexican Symposium on Medical Physics edited by Gerardo Herrera Corral and Luis Manuel Montaño Zetina, AIP (2008) ISBN 978-0-7354-0556-1 pp 98-100 (3 citas)

370. "Applying Principle Component Analysis for Detecting Skin Damage Caused by Using Detergents: A Raman Spectroscopy Study," Neda Baheri, Mohammad Hossein Miran Baygi, Rasoul Malekfar, ICIME 2009 (International Conference on Information Management and Engineering, 2009), pp.267-270.

371. "In vivo confirmation of hydration-induced changes in human-skin thickness, roughness and interaction with the environment," Agnieszka K. Dąbrowska, Christian Adlhart, Fabrizio Spano, Gelu-Marius Rotaru, Siegfried Derler, Lina Zhai, Nicholas D. Spencer, and René M. Rossi Biointerphases 11 (2016) 031015 doi: 10.1116/1.4962547

372. "From the characterization of human skin to the development of a skin model," Dąbrowska, Agnieszka Katarzyna, PhD Dissertation ETH Zürich, (2017), No. 24048 doi:10.3929/ethz-a-010867079

XLI. A la memoria en extenso “Brain Imaging Using T-Rays Instrumentation Advances.” Treviño-Palacios, C. G.; Celis-López, M. A.; Lárraga-Gutiérrez, J. M.; García-Garduño, A.; Zapata-Nava, O. J.; Díaz, A. Orduña; Torres-Jácome, A.; de-La-Hidalga-Wade, J.; Iturbe-Castillo, M. D. in Eleventh Mexican Symposium on Medical Physics M. E. Brandan, F. Herrera-Martínez, V. Ramírez-R and M. Rodríguez-Villafuente (eds) AIP Conference Porceedings 1310 (2010) 146-149 (2 citas)

373. "Functional Brain Imaging Using Non-Invasive Non-Ionizing Methods: Towards Multimodal and Multiscale Imaging," Irene Karanasiou in Neuroimaging - Methods, Peter Bright editor ISBN 978-953-51-0097-3 (InTech , Croatia 2012) pp 115-136.

374. "Living Brain Optical Imaging: Technology, Methods and Applications," Tsytsarev, Vassiliy; Bernardelli, Chad; Maslov, Konstantin I. Journal of Neuroscience and Neuroengineering, 1, 2, (2012) 180-192

XLII. A la memoria en extenso "Design and fabrication of a bidimentional microbolometer array for Terahertz detection characterized at different temperatures," A. Orduña-Díaz, E. Castillo-Domínguez, A. Torres-Jacome, F.J. De la Hidalga-Wade, C.G. Treviño-Palacios, J. Phy Conf Ser 274 (2011) 012112 (3 citas)

375. “Instrumentación complementaria para el GTM: Desarrollo de bolómetros y radiómetros en el INAOE,” Edgar Castillo Domínguez , PhD Dissertation INAOE (2011)

376. "Development of an 80 x 64 pixel, broadband, real-time THz imager", Don J. Burdette, Jörgen Alverbro, Ze Zhang, Patrick Fay, Yang Ni, Pierre Potet, Kubilay Sertel, Gerogios Trichopoulos, Kagan Topalli, John Volakis and H. Lee Mosbacker, Proc. SPIE 8023 (2011) 80230F; doi:10.1117/12.884069

377. "Metamaterial based CMOS terahertz focal plane array,” Ivonne Escorcia Carranza, PhD Dissertation University of Glasgow, Scotland (2015).

XLIII. A la memoria en extenso "Developing a device for monitoring O2 saturation in blood," Karla J. Sánchez-Pérez, Javier Herrera-Vega, Enrique Sucar-Succar, Felipe Orihuela-Espina and Carlos G. Treviño-Palacios, AIP Conf. Proc. 1626 (2014) 201-204 (1 cita)

378. “New method of extracting information of arterial oxygen saturation based on ∑|𝚫|,” Wenting Dai, Ling Lin, and Gang Li, Rev. Sci. Instruments 88 (2017) 043107

XLIV. Al artículo en depositorio "Phase Contrast technique: a broader approach," D. Sanchez-de-la Llave M. D. Iturbe-Castillo and C. G Trevino-Palacios; arxiv.org/abs/physics/0505076 (2005) (1 cita)

379. "Phase contrast in x-ray imaging," Anthony Wayne Greaves, PhD Dissertation Swinburne University of Technology, Austalia (2010)