Computer Codes

1. We have recently made available our code for analysis of Photonic-Crystal Fibers by use of a Source-Model Technique (SMT). The (SMTP) package can be freely downloaded at: http://www.ee.technion.ac.il/people/leviatan/ The code is written in MATLAB, and has a graphical user interface. It allows mode-determination in dielectric waveguides that have a piecewise-homogeneous, yet otherwise arbitrary, cross-section.
2. Free software for finding modes of photonic crystal fibres using the multipole method:
   CUDOS MOF Utilities
3. OPAL (Optical Program ALgorithm): A Computational Tool For Photonics. OPAL calculates the transfer matrix for a given system once the permittivityand permeability have been specified as functions of position and frequency. OPAL can be used to calculate photonic band structure, transmission and reflection coefficients, and dispersion surfaces. Software available at small charge to cover postage, from Pendry Group, Imperial College of Science [http://www.sst.ph.ic.ac.uk/photonics/].
4. MIT Photonic-Bands Package: A free downloadable program for computing the photonic band structures (dispersion relations) and electromagnetic modes of periodic dielectric structures, and is applicable both to photonic crystals (photonic band-gap materials) and a wide range of other optical problems. It was developed by Steven G. Johnson at MIT in the Joannopoulos Ab Initio Physics group [http://ab-initio.mit.edu/mpb/].
5. MULTEM2: A new version ofthe program for transmission and band-structure calculations of photonic crystals, N. Stefanou, V. Yannopapas, and A. Modinos, Comput. Phys. Commun. 132, 189-196 (2000).

Special Reports

1. . 2008. A new method of modeling cladding band structure of air-guiding photonic crystal fibers. JOURNAL OF NON-CRYSTALLINE SOLIDS 354 (12-13):1201-1204, art.no.-10.1016/j.jnoncrysol.2006.10.081|ISSN 0022-3093.
2. . 2008. Holographic lithography enables complicated 3-D photonic crystals. LASER FOCUS WORLD 44 11-11, art.no.-ISSN 0740-2511.
3. . 2008. Photonic crystals get fishy. LASER FOCUS WORLD 44 15-15, art.no.-ISSN 0740-2511.
4. Inverse woodpile structure has extremely large photonic band gap of 25% PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS, 1 (4): A65-A65 JUL 2007
5. Optical metamaterial has negative refraction, simple design LASER FOCUS WORLD, 43 (11): 13-13 NOV 2007
6. Photonic crystal enhances brightness of quantum dots MRS BULLETIN, 32 (11): 883-+ NOV 2007
7. Photonic crystals - Custom-color polymer opals reflect on nature LASER FOCUS WORLD, 43 (9): 22-+ SEP 2007
8. 3D metamaterials self-assemble R&D MAGAZINE, 45 (8): 35-35 AUG 2003
9. Invisible metamaterials NATURE MATERIALS, 5 (3): 165-165 MAR 2006
10. Metamaterials found to work for visible light PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS, 1 (2): 26-27 MAR 2007
11. NanoDynamics acquires balance of MetaMaterial AMERICAN CERAMIC SOCIETY BULLETIN, 83 (6): 6-6 JUN 2004
12. Nanosphere-embedded liquid crystals create tunable metamaterial LASER FOCUS WORLD, 42 (10): 13-13 OCT 2006
13. True negative-index metamaterial operates at 780 nm LASER FOCUS WORLD, 43 (1): 13-13 JAN 2007
14. Kagome photonic-crystal fiber spans broad wavelength range LASER FOCUS WORLD, 43 (1): 13-13 JAN 2007
15. Microfluidics and photonic crystals may yield optical integrated circuits LASER FOCUS WORLD, 43 (1): 15-15 JAN 2007
16. Photonic-crystal fibers become biocompatible LASER FOCUS WORLD, 43 (2): 11-11 FEB 2007
17. True negative-index metamaterial operates at 780 nm LASER FOCUS WORLD, 43 (1): 13-13 JAN 2007
18. Combination of top-down and bottom-up approaches allows fabrication of high-aspect-ratio 2D KTiOPO4 photonic crystals MRS BULLETIN, 31 (11): 852-+ NOV 2006
19. Diamond photonic crystals NATURE PHYSICS, 2 (6): 364-364 JUN 2006
20. Photonic crystals boost engine efficiency PHYSICS WORLD, 19 (7): 5-5 JUL 2006
21. Photonic crystals enable electro-optical modulator in silicon LASER FOCUS WORLD, 42 (3): 13-13 MAR 2006
22. Optical switch in silicon relies on photonic crystal PHOTONICS SPECTRA, 39 (12): 22-+ DEC 2005
23. Simple photonic crystal tailors thermal emission LASER FOCUS WORLD, 41 (9): 7-7 SEP 2005
24. Carts-Powell Y Photonic-bandgap devices graduate to real applications LASER FOCUS WORLD 40 (9): 36+ SEP 2004
25. Photonic crystal plays new tricks with light PHYSICS WORLD 18 (4): 3-3 APR 2005
26. Eichenholz J Photonic-crystal fibers have many uses LASER FOCUS WORLD 40 (8): S5+ AUG 2004
27. Odd-looking photonic-crystal-waveguide corner has low transmission loss LASER FOCUS WORLD 40 (7): 9-9 JUL 2004
28. Sabert H Hollow core fibers allow light to travel by air LASER FOCUS WORLD 40 (5): 161-164 MAY 2004
29. Pendry JB, Smith DR Reversing light with negative refraction PHYS TODAY 57 (6): 37-43 JUN 2004
30. Haus J, Sakoda K, Zheltikov A Photonic crystals: Controlled light put to work LASER PHYS 14 (5): U1-U2 MAY 2004
31. Faist J Photonic-crystal lasers light up PHYS WORLD 17 (3): 27-27 MAR 2004
32. Low-index photonic-crystal waveguides yield low-loss single-mode transmission LASER FOCUS WORLD 40 (3): 11-11 MAR 2004
33. 3D photonic crystals from Oxford ELECTRON WORLD 110 (1816): 7-7 APR 2004
34. Photonic Band Gaps, report by Philip St. J. Russell, Physics World, Vol. 5, No. 8, (01 August 1992), p. 37.
35. Applications of Photonic Band Gap Structures, report by Henry O. Everitt, Optics and Photonics News, Vol. 3, No. 11 (01 November 1992), p. 20.
36. High speed electronics: Photonic-Crystal Planar Antennas, Solid State Research, No. 2, (30 September 1993), p. 23.
37. Adolph Lomb Medal to Eli Yablonovitch; Optics & Photonics News (May 1997) V 8, N 5, p. 16.
38. Photonic crystal filters infrared light, LASER FOCUS WORLD 34: (1) 11-11 JAN 1998.
39. Wheeler MD, Photonic crystal portends fiber optics breakthrough, PHOTON SPECTRA 32: (1) 34-34 JAN 1998.
40. Three-dimensional silicon photonic crystal operates at infrared wavelengths, LASER FOCUS WORLD 34: (9) 11-11 SEP 1998.
41. Graydon, O., Opals inspire a better breed of photonic crystals, Opto&Laser Europe, Issue 55, 20-20, OCT 1, 1998.
42. VanBlaaderen A, Materials science - Opals in a new light, SCIENCE 282: (5390) 887-888 OCT 30 1998.
43. Dowling JP, Mirror on the Wall: You're Omnidirectional After All? Science Vol. 282, (04 December 1998) 1841-1842.
44. Schecter B, M.I.T. Scientists Turn Simple Idea Into 'Perfect Mirror',NY Times, Science Section (TUE 15 DEC 1998).
45. Rigby P, Optics - A photonic crystal fibre, NATURE 396: (6710) 415-416 DEC 3 1998.
46. Coating design of the week: Dielectric Omnidirectional Reflector, Software Spectra Web Site.
47. Science & Technology: New-Age Crystals, The Economist, Vol. 349, No. 8095 (21 NOV 1998) 89-90.
48. Jacoby, M., Photonic crystals: whole lotta holes, Chemical and Engineering News 76: (47) 38-43, NOV 30, 1998 (American Chemical Society).
49. Carts-Powell Y, Waveguides - Photonic crystal guides light without scatter, LASER FOCUS WORLD 34: (12) 15-16 DEC 1998.
50. Whipple, C., Researchers approach photonic bandgaps in crystals, Photonics Spectra 33 (1) 38-41, JAN 1, 1999.
51. Goss-Levi B, Search & Discovery: Visible Progress Made in 3D Photonic Crystals, Physics Today 52 (January, 1999) 17-19.
52. A Perfect Dielectric Mirror, Physics Today, Physics Update, (February 1999), vol. 52, p. 9.
53. A Perfect Mirror, Optics & Photonics News, Scattering in Brief, (February 1999), vol. 10, N. 2,p. 12.
54. Birner A., Busch K., Muller F, Photonic crystals, Physikalische Blaetter, pp. 27-33, April 1999 (in German).
55. Grant B, Photonic crystals grow themselves, PHOTON SPECTRA 33: (5) 33-34 MAY 1999.
56. Bains S, Photonic lattices stitch together new class of reflectors, EE-Times (1062) 59-60 MAY 24 1999.
57. Ranganath GS, Photonic crystals, CURR SCI INDIA 76: (10) 1349-1350 MAY 25 1999.
58. Bains S., Dielectric stack can be used as omnidirectional mirror, OE Reports (186) June 1999.
59. Carniglia CK, Hot or Hype? -- Reflections on the 'Perfect Mirror', Photonics Spectra, 148-153, June,1999.
60. Dowling JP, The Woodpile Structure, e-print, 03 JUN 99.
61. Rebane KK, Two remarks on photonic crystals, OPT SPECTROSC+ 86: (6) 887-888 JUN 1999.
62. Levi BG, Lasing demonstrated in tiny cavities made with photonic crystals, PHYS TODAY 52: (9) 20-22 SEP 1999.
63. Pendry J, Applied physics - Playing tricks with light, SCIENCE 285: (5434) 1687-1688 SEP 10 1999.
64. Photonic crystal shows angle-independent bandgap, LASER FOCUS WORLD 35: (11) 9-+ NOV 1999.
65. Bloemer MJ, Scalora M Light propagation effects in one-dimensional Ag/MgF2 photonic band gap structures, OPT SPECTROSC+ 87: (4) 545-549 OCT 1999.
66. Photonic bandgap nanochannel glass materials OPT LASER TECHNOL 31: (5) III-III JUL 1999
67. Gaughan R Researchers create tunable photonic bandgap crystal PHOTON SPECTRA 34: (1) 26-26 JAN 2000
68. Jones-Bey H Photonic crystal fiber yields near-IR solitons LASER FOCUS WORLD 36: (1) 15-16 JAN 2000
69. Shirk JS, Rosenberg A Intensity-dependent transmission protects sensors LASER FOCUS WORLD 36: (4) 121-+ APR 2000
70. Sheppard LM Photonic crystals are a growth industry PHOTON SPECTRA 34: (6) 56-+ JUN 2000
71. Photonic bandgaps from neat log stacks CHEM ENG NEWS 78: (31) 30-30 JUL 31 2000
72. Parker G, Charlton M Photonic crystals PHYS WORLD 13: (8) 29-34 AUG 2000
73. Photonic crystal achieves full bandgap in near-infrared LASER FOCUS WORLD 36: (9) 11-11 SEP 2000
74. Quasicrystal completes the band gap John Wallace, Laser Focus World, July 2000, p17
75. Glasses make versatile crystals, Max Glaskin, Photonics Spectra, August 2000, pp 37-38
76. Bandgaps block out red, Opto & Laser Europe (OLE), September 1997, p9
77. Crystals hold promise for optical circuits, Susan Curtis, Vacuum Solutions, May/June 1999, pp19-22
78. Pillars prohibit photons, OLE, December 1996, p12
79. Nature's nanostructures colour wings and stones, Oliver Graydon, OLE, June 1998, pp31-36
80. Photonic bandgap is three-dimensional, OLE, February 1997, p6
81. Whipple CT Semiconductors stack up as photonic crystals PHOTON SPECTRA 34: (11) 36-36 NOV 2000
82. Burgess DS Hairy worm wears photonic crystals PHOTON SPECTRA 35: (3) 28-28 MAR 2001
83. Ferroelectric barium titanite adds tunability to photonic crystal LASER FOCUS WORLD 37: (4) 11-+ APR 2001
84. Jamieson V Photonic crystals blaze a trail PHYS WORLD 14: (4) 39-39 APR 2001
85. Hecht J Holes in photonic crystal fibers open new possibilities LASER FOCUS WORLD 37: (5) 207-+ MAY 2001
86. Jones-Bey H Optical integrated circuits - Photonic bandgap channels waves propagating at metal surfaces LASER FOCUS WORLD 37: (6) 22-+ JUN 2001
87. Photonic bandgap provides high-frequency gyrotron oscillator LASER FOCUS WORLD 37: (8) 13-13 AUG 2001
88. Photonic crystals in 3-D PHYS WORLD 13: (1) 3-3 JAN 2000
89. Robinson K Photonic crystal fiber enables optical clock PHOTON SPECTRA 36 (1): 45-46 JAN 2002
90. Robinson K Photonic crystal lattice controls laser polarization PHOTON SPECTRA 36 (1): 46-+ JAN 2002
91. Joannopoulos JD Self-assembly lights up NATURE 414 (6861): 257-258 NOV 15 2001
92. Three-dimensional waveguides fabricated in self-assembled photonic crystals MRS BULL 27 (4): 290-290 APR 2002
93. 3-D features within photonic crystals CHEM ENG NEWS 80 (8): 32-32 FEB 25 2002
94. McCarthy DC Photonic crystals: A growth industry PHOTON SPECTRA 36 (6): 54-+ JUN 2002
95. Photonic-crystal fiber guides terahertz pulses LASER FOCUS WORLD 38 (7): 15-15 JUL 2002
96. Photonic-crystal VCSEL shows single-mode operation for all currents LASER FOCUS WORLD 38 (8): 15-15 AUG 2002
97. Russell P Holey fiber concept spawns optical-fiber renaissance LASER FOCUS WORLD 38 (9): 77-+ SEP 2002
98. Aoki K Microspheres position photonic-crystal layers LASER FOCUS WORLD 38 (12): 9-9 DEC 2002
99. Photonic-crystal laser hangs out in the heat LASER FOCUS WORLD 39 (1): 13-13 JAN 2003
100. Photonic-crystal fiber laser is scalable to high power LASER FOCUS WORLD 39 (4): 7-7 APR 2003
101. Photonic crystals produce negative refraction LASER FOCUS WORLD 39 (7): 11-11 JUL 2003
102. Faster computers from photonic crystals ? ADV ENG MATER 5 (6): 389-389 JUN 2003
103. Dual-material photonic crystal contains quantum-well light emitters LASER FOCUS WORLD 39 (8): 9-9 AUG 2003

Books & Special Issues

1. Silicon-based photonic crystals SPRINGER TR MOD PHYS 194: 227-261 2003
2. Wave Propagation in Periodic Structures: Electric Filters and Crystal Lattices, Leon Brillouin (McGraw Hill, New York, 1946; Dover Publications, New York, 1953).
3. Wave Propagation and Group Velocity, Leon Brillouin, (New York, Academic Press, 1960),
4. Optical waves in crystals: propagation and control of laser radiation, Amnon Yariv and Pochi Yeh (New York, Wiley, 1984).
5. Optical Waves in Layered Media, Pochi Yeh (Wiley, New York, 1988).
6. Waves and Fields in Inhomogeneous Media, Weng Cho Chew (Van Nostrand Reinhold, New York, 1990).
7. Development and Applications of Materials Exhibiting Photonic Band Gaps, edited by Charles M. Bowden, Jonathan P. Dowling, and Henry O. Everitt, Journal of the Optical Society of America B, Vol. 10 (February 1993) special issue.
8. Photonic Band Structures, edited by Gershon Kurizki and Joseph W. Haus, Journal of Modern Optics, Vol. 41, No. 2 (February 1994) special issue.
9. V.P. Bykov, Radiation of Atoms in a Resonant Enviroment, World Scientific, Singapore, 1993.
10. Photonic Crystals: Molding the Flow of Light, John D. Joannopoulos, Robert D. Meade, & Joshua N. Winn (Princeton University Press, Princeton, 1995).
11. Photonic Band Gap Materials, edited by Costas M. Soukoulis, Proceedings of the NATO ASI on Photonic Band Gap Materials, Elounda, Crete, Greece, June 18-30, 1995 (NATO ASI Series, Kluwer Academic Publishers, The Netherlands, 1996).
12. Microcavities and Photonic Bandgaps: Physics and Applications, edited John Rarity and Claude Weisbuch, Proceedings of the NATO Advanced Study Institute: Quantum Optics in Wavelength-Scale Structures, held in Cargese, Corsica, August 26-September 2, 1995 (NATO ASI Series, Kluwer Academic Publishers, The Netherlands, 1996).
13. Proceedings of the 1996 12th Annual Review of Progress in Applied Computational Electromagnetics. Monterey, CA, March 18-22 1996, Vol. 1 (Applied Computational Electromagnetics Society, Monterey CA USA 1996) 662p.
14. Proceedings Materials for Smart Systems II, Proceedings of the 1996 MRS Fall Symposium, Boston, MA, Dec 2-5 1996, Vol. 459 (Materials Research Society, Pittsburgh, PA, 1997).
15. Proceedings of the 1997 IEEE MTT-S International Microwave Symposium, V 1 Denver, CO, June 8-13 1997(IEEE, Piscataway, NJ, 1997). Wave propagation in Complex Media, G. Papanicolaou, Editor, IMA Volumes in Math. and Appl., Vol. 96, 1997.
16. IEE Proceedings - Optoelectronics, Special issue on: Photonic Crystals and Photonic Microstructures, Vol. 145: (6) DEC 1998.
17. Journal of Lightwave Technology, Special section on: Electromagnetic Crystal Structures, Design, Synthesis, and Applications (Optical), edited by A. Scherer,T. Doll, E. Yablonovitch, H. O. Everitt and J. A. Higgins, Vol. 17: (11) NOV 1999.
18. IEEE Transactions on Microwave Theory and Techniques, Special section on: Electromagnetic Crystal Structures, Design, Synthesis, and Applications (Microwave),edited by A. Scherer,T. Doll, E. Yablonovitch, H. O. Everitt and J. A. Higgins, Vol. 47: (11)NOV 1999.
19. J. T. Londergan, J. P. Carini, D. P. Murdock, Binding and Scattering in Two-Dimensional Systems: Application to Quantum Wires, Waveguides and Photonic Crystals, Springer-Verlag, New York, 1999.
20. Optics Express, Volume 8, Issue 3, (29 January 2001),Focus Issue: Photonic Bandgap Calculations, http://www.opticsexpress.org/.
21. Epstein AJ Proceedings of the Fourth International Topical Conference on Optical Probes of pi-conjugated Polymers and Photonic Crystals, Salt Lake City, Utah, February 2000 SYNTHETIC MET 116: (1-3) V-V JAN 15 2001
22. Optical Properties of Photonic Crystals (Springer Series in Optical Sciences, 80), (May 2001) Springer Verlag; ISBN: 3540411992, by Kazuaki Sakoda
23. IUTAM Symposium on Mechanical and Electromagnetic Waves in Structured Media, Edited by Ross C. McPhedran, Lindsay C. Botten, and Nicolae A. Nicorovici (Kluwer Academic Publishers, Dordrecht, The Netherlands, 2001), ISBN 0-7923-7038-4.
24. Waves and Imaging through Complex Media, edited by Patrick Sebbah, (Kluwer Academic Publishers, Dordrecht, 2001).
25. P. Kuchment, The Mathematics of Photonic Crystals, Ch. 7 in "Mathematical Modeling in Optical Science", Gang Bao, Lawrence Cowsar, and Wen Masters (Editors), Frontiers in Applied Mathematics v. 22, SIAM, 2001 [http://www.siam.org/catalog/mcc04/fr22.htm]
26. Omnidirectional Optical Filters, Vladimir Kochergin, February 2003, Kluwer Academic Publishers, ISBN 1-4020-7386-0
27. Nonlinear Photonic Crystals Author: Slusher, R. E., Editor; Eggleton, B. J. Publication: New York : Springer-Verlag New York, Incorporated, Jan. 2003
28. Electrochemistry of Silicon: Instrumentation, Science, Materials, and Applications Author: Lehmann, Volker, Author Publication: Hoboken : Wiley-VCH [Imprint]; John Wiley & Sons, Incorporated, April 2002
29. Photonic Crystals: The Road from Theory to Practice Author: Johnson, Steven G., Author; Joannopoulos, J. D. Publication: Norwell : Kluwer Academic Publishers, Nov. 2001
30. Physics, Chemistry, and Technology of Solid State Gas Sensor Devices Author: Mandelis, Andreas, Author; Christofides, Constantinos Publication: Hoboken : Wiley-Interscience [Imprint]; John Wiley & Sons, Incorporated, Sept. 1993
31. Optical Properties of Semiconductor Nanocrystals Author: Gaponenko, S. V., Author Publication: New York : Cambridge University Press, Oct. 1998
32. Optical Properties of Photonic Crystals Author: Sakoda, K., Author Publication: New York : Springer-Verlag New York, Incorporated, June 2001
33. Semiconductor Devices: Physics and Technology Author: Sze, Simon M., Author Publication: Hoboken : John Wiley & Sons, Incorporated, April 1985
34. Bistability and Nonlinearities in Laser Diodes Author: Kawaguchi, Hitoshi, Author Publication: Norwood : Artech House, Incorporated, July 1994
35. Photonic Crystal Fibres by Anders Bjarklev, Jes Broeng, Araceli Sanchez Bjarklev Kluwer Academic Publishers; (September 2003) ISBN: 140207610X
36. Roadmap on Photonic Crystals by Susumu Noda (Editor), Toshihiko Baba (Editor), Kluwer Academic Publishers; (July 2003) ISBN: 1402074646
37. Photonic Crystal Materials and Devices by Abi Adibi (Editor), Axel Scherer (Editor) SPIE--The International Society for Optical Engineering; (July 2003) ISBN: 0819448001
38. Optical Solitons : From Fibers to Photonic Crystals by Yuri Kivshar, Govind Agrawal Academic Press; (March 5, 2003) ISBN: 0124105904
39. Photonic Crystals: Physics, Fabrication, and Applications (Springer Series in Optical Sciences, V. 94.) by K. Inoue (Editor), K. Ohtaka (Editor) Springer Verlag; (February 2004) ISBN: 3540205594
40. Photonic Crystals : Advances in Design, Fabrication, and Characterization by Kurt Busch (Editor), Ralf B. Wehrspohn (Editor), Stefan Lšlkes (Editor), Helmut Fšll (Editor) John Wiley & Sons; (April 16, 2004) ISBN: 3527404325
41. 
    

Journal Articles on Photonic Band Gaps

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*A*
1. Ademgil, H; Haxha, S. 2008. Highly birefringent photonic crystal fibers with ultralow chromatic dispersion and low confinement losses. JOURNAL OF LIGHTWAVE TECHNOLOGY 26 (1-4):441-448, art.no.-10.1109/JLT.2007.912508|ISSN 0733-8724.
2. Ahmadi, A; Mosallaei, H. 2008. Physical configuration and performance modeling of all-dielectric metamaterials. PHYSICAL REVIEW B 77, art.no.-045104.
3. Alagappan, G; Sun, XW; Yu, MB. 2008. Equal-frequency surface analysis of two-dimensional photonic, crystals. JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION 25 219-224, art.no.-ISSN 1084-7529.
4. Alexeyev, CN; Volyar, AV; Yavorsky, MA. 2008. Narrowband reflective mode converter on the basis of a twisted elliptical core fibre. JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS 10 (1), art.no.-015301.
5. Ali, MZ; Abdullah, T. 2008. Nonlinear localization due to a double negative defect layer in a one-dimensional photonic crystal containing single negative material layers. CHINESE PHYSICS LETTERS 25 137-140, art.no.-ISSN 0256-307X.
6. Ali, MZ; Abdullah, T. 2008. Properties of the angular gap in a one-dimensional photonic band gap structure containing single negative materials. PHYSICS LETTERS A 372 (10):1695-1700, art.no.-10.1016/j.physleta.2007.10.022|ISSN 0375-9601.
7. Alitalo, P; Luukkonen, O; Jylha, L; Venermo, J; Tretyakov, SA. 2008. Transmission-line networks cloaking objects from electromagnetic fields. IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION 56 416-424, art.no.-10.1109/TAP.2007.915469|ISSN 0018-926X.
8. Al'tshuler, EY; Nefedov, IS. 2008. Control of the spectrum of the near-field Bloch waves in a waveguide periodically loaded with thin InSb layers. JOURNAL OF COMMUNICATIONS TECHNOLOGY AND ELECTRONICS 53 (1):60-61, art.no.-10.1134/S1064226908010075|ISSN 1064-2269.
9. Amezcua-Correa, R; Gerome, F; Leon-Saval, SG; Broderick, NGR; Birks, TA; Knight, JC. 2008. Control of surface modes in low loss hollow-core photonic bandgap fibers. OPTICS EXPRESS 16 1142-1149, art.no.-ISSN 1094-4087.
10. Anton, MA; Carreno, F; Calderon, OG; Melle, S. 2008. All-optical control of the time delay in a one-dimensional photonic bandgap formed by double-quantum-wells. OPTICS COMMUNICATIONS 281 644-654, art.no.-10.1016/j.optcom.2007.10.111|ISSN 0030-4018.
11. Antoniades, MA; Eleftheriades, GV. 2008. A CPS leaky-wave antenna with reduced beam squinting using NRI-TL metamaterials. IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION 56 (3):708-721, art.no.-10.1109/TAP.2008.916965|ISSN 0018-926X.
12. Ao, Xianyu; Chan, C T. 2008. Far-field image magnification for acoustic waves using anisotropic acoustic metamaterials.. Phys Rev E Stat Nonlin Soft Matter Phys 77 (2 Pt 2):025601, art.no.-ISSN 1539-3755.
13. Ao, XY; Chan, CT. 2008. Far-field image magnification for acoustic waves using anisotropic acoustic metamaterials. PHYSICAL REVIEW E 77 (2), art.no.-025601.
14. Aprile, C; Corma, A; Garcia, H. 2008. Enhancement of the photocatalytic activity of TiO2 through spatial structuring and particle size control: from subnanometric to submillimetric length scale. PHYSICAL CHEMISTRY CHEMICAL PHYSICS 10 (6):769-783, art.no.-10.1039/b712168g|ISSN 1463-9076.
15. Aroua, W; Ouerghi, F; Haxha, S; AbdelMalek, F; Mejatty, M; Bouchriha, H; Haxha, V. 2008. Analysis and optimisation of high-density photonic crystal devices in a subsystem by use of finite difference time domain. IET OPTOELECTRONICS 2 (1):10-15, art.no.-10.1049/iet-opt:20060053|ISSN 1751-8768.
16. Aryal, DP; Tsakmakidis, KL; Jamois, C; Hess, O. 2008. Complete and robust bandgap switching in double-inverse-opal photonic crystals. APPLIED PHYSICS LETTERS 92, art.no.-011109.
17. Azad, AK; Taylor, AJ; Smirnova, E; O'Hara, JF. 2008. Characterization and analysis of terahertz metamaterials based on rectangular split-ring resonators. APPLIED PHYSICS LETTERS 92, art.no.-011119.
18. Aznar, F; Bonache, J; Martin, F. 2008. Improved circuit model for left-handed lines loaded with split ring resonators. APPLIED PHYSICS LETTERS 92, art.no.-043512.
19. Azuma, H. 2008. Quantum computation with Kerr-nonlinear photonic crystals. JOURNAL OF PHYSICS D-APPLIED PHYSICS 41, art.no.-025102.
20. Abdalla, MA; Hu, Z Nonreciprocal left handed coplanar waveguide over ferrite substrate with only shunt inductive load MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 49 (11): 2810-2814 NOV 2007
21. Abdalla, MAY; Phang, K; Eleftheriades, GV Printed and integrated CMOS positive/negative refractive-index phase shifters using tunable active inductors IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 55 (8): 1611-1623 AUG 2007
22. AbdelMalek, F; Belhadj, W; Haxha, S; et al. Realization of a high coupling efficiency by employing a concave lens based on two-dimensional photonic crystals with a negative refractive index JOURNAL OF LIGHTWAVE TECHNOLOGY, 25 (10): 3168-3174 OCT 2007
23. Abid, A; Zhirun, H Sharp cut-off, miniaturized metamaterial binomial microstrip low-pass filter MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 49 (10): 2406-2409 OCT 2007
24. Abramova, V; Sinitskii, A; Tretyakov, Y Photonic crystals with a specified bandgap width JETP LETTERS, 86 (5): 317-320 NOV 2007
25. Adawi, AM; Chalcraft, ARA; Whittaker, DM; et al. Refractive index dependence of L3 photonic crystal nano-cavities OPTICS EXPRESS, 15 (22): 14299-14305 OCT 29 2007
26. Aguilar-Galicia, C; Palomino-Ovando, M; Ramos-Mendieta, F Transit-time of electromagnetic Gaussian packets traversing nonlinear periodic layered systems OPTICAL MATERIALS, 29 (12): 1667-1671 AUG 2007
27. Akay, S; Yang, WQ; Wang, JF; et al. Synthesis and evaluation of dual wavelength fluorescent benzo[b]thiophene boronic acid derivatives for sugar sensing CHEMICAL BIOLOGY & DRUG DESIGN, 70 (4): 279-289 OCT 2007
28. Albaladejo, S; Saenz, JJ; Lester, M; et al. Optical conductance of waveguides built into finite photonic crystals APPLIED PHYSICS LETTERS, 91 (6): Art. No. 061107 AUG 6 2007
29. Aleksandrovsky, AS; Vyunishev, AM; Zaitsev, AI; et al. Detection of randomized nonlinear photonic crystal structure in a non-ferroelectric crystal JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS, 9 (9): S334-S338 Sp. Iss. SI SEP 2007
30. Alexeyev, CN; Volyar, AV; Yavorsky, MA Fibre vortex mirror based on a twisted elliptical-core optical fibre JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS, 9 (10): 931-935 OCT 2007
31. Alici, KB; Bilotti, F; Vegni, L; et al. Miniaturized negative permeability materials APPLIED PHYSICS LETTERS, 91 (7): Art. No. 071121 AUG 13 2007
32. Alkeskjold, TT; Bjarklev, A Electrically controlled broadband liquid crystal photonic bandgap fiber polarimeter OPTICS LETTERS, 32 (12): 1707-1709 JUN 15 2007
33. Alu, A; Engheta, N Anomalies of subdiffractive guided wave propagation along metamaterial nanocomponents RADIO SCIENCE, 42 (6): Art. No. RS6S17 NOV 7 2007
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86. Alu, A; Engheta, N Guided modes in a waveguide filled with a pair of single-negative (SNG), double-negative (DNG), and/or double-positive (DPS) layers IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 52 (1): 199-210 Part 1 JAN 2004
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