PhD student Nonlinear Physics Centre Research School of Physics and Engineering The Australian National University Canberra ACT 0200, Australia Office:   room L.3.34, Le Couteur Bldg. Phone:   +61-2-6125-8277 (direct) +61-2-6125-3423 (administrator) Fax:   +61-2-6125-8588 E-mail:   afm124@physics.anu.edu.au

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7. Experimental studies of the internal Goos-Hanchen shift for self-collimated beams in two-dimensional microwave photonic crystals
   A. Matthews and Y. Kivshar,
   Appl. Phys. Lett. 93, 131901-3 (2008).
   [Abstract] [Full-text PDF (300 Kb)] [Online]

6. Tunable Goos-Hanchen shift for self-collimated beams in two-dimensional photonic crystals
   A. Matthews and Y. Kivshar,
   Phys. Lett. A 372, 3098-3101 (2008).
   [Abstract] [Full-text PDF (539 Kb)] [Online]

5. Self-collimation and beam splitting in low-index photonic crystals
   A. F. Matthews, S. K. Morrison, and Yu. S. Kivshar,
   Opt. Commun. 279, 313-319 (2007).
   [Abstract] [Full-text PDF (3 Mb)] [Online]

4. Self-collimation and beam splitting in chalcogenide glass and photopolymer photonic crystals
   A. Matthews, S. Morrison, and Y.S. Kivshar,
   Optoelectronic and Microelectronic Materials and Devices, 2006 Conference on 204-207 (2006).
   [Abstract] [Full-text PDF (817 Kb)]

3. Band-gap properties of two-dimensional low-index photonic crystals
   A. Matthews, X. H. Wang, Y. Kivshar, and M. Gu,
   Appl. Phys. B 81, 189-192 (2005).
   [Abstract] [Full-text PDF (355 Kb)] [Online]

2. Photonic bandgap properties of void-based body-centered-cubic photonic crystals in polymer
   G. Zhou, M. Ventura, M. Gu, A. Matthews, and Yu. Kivshar,
   Opt. Express 13, 4390-4395 (2005).
   [Abstract] [Full-text PDF (232 Kb)] [Online]

1. Band-gap engineering and defect modes in photonic crystals with rotated hexagonal holes
   A. F. Matthews, S. F. Mingaleev, and Yu. S. Kivshar,
   Laser Phys. 14, 631-634 (2004).
   [Abstract] [Full-text PDF (52 Kb)]