Bar-Cohen : Biomimetics: Biologically Inspired Technologies  DK3163_c012 Final Proof page 340 21.9.2005 11:55pm




                    340                                     Biomimetics: Biologically Inspired Technologies

                    Shelby, R. A., D. R. Smith and S. Schultz (2001). Experimental verification of a negative index of refraction.
                          Science 292(5514): 77–79.
                    Smith, D. R., D. C. Vier, W. Padilla, S. C. Nemat-Nasser and S. Schultz (1999). Loop-wire medium for
                          investigating plasmons at microwave frequencies. Applied Physics Letters 75(10): 1425–7.
                    Smith, D. R., W. Padilla, D. C. Vier, S. C. Nemat-Nasser and S. Schultz (2000a). Negative permeability from
                          split ring resonator arrays. 2000 Conference on Lasers and Electro-Optics Europe, Nice, France, IEEE
                          2000 Piscataway, NJ, USA.
                    Smith, D. R., W. J. Padilla, D. C. Vier, S. C. Nemat-Nasser and S. Schultz (2000b). Composite medium with
                          simultaneously negative permeability and permittivity. Physical Review Letters 84(18): 4184–7.
                    Smith, D. R., D. Schurig and J. B. Pendry (2002). Negative refraction of modulated electromagnetic waves.
                          Applied Physics Letters 81(15): 2713–5.
                    Smith, D. R., D. Schurig, M. Rosenbluth, S. Schultz, S. A. Ramakrishna and J. B. Pendry (2003). Limitations on
                          subdiffraction imaging with a negative refractive index slab. Applied Physics Letters 82(10): 1506–8.
                    Smith, D. R., P. Kolinko and D. Schurig (2004a). Negative refraction in indefinite media. Journal of the
                          Optical Society of America B—Optical Physics 21(5): 1032–43.
                    Smith, D. R., P. Rye, D. C. Vier, A. F. Starr, J. J. Mock and T. Perram (2004b). Design and measurement
                          of anisotropic metamaterials that exhibit negative refraction. IEICE Transactions on Electronics
                          E87C(3): 359–70.
                    Smith, D. R., D. Schurig, J. J. Mock, P. Kolinko and P. Rye (2004c). Partial focusing of radiation by a slab of
                          indefinite media. Applied Physics Letters 84(13): 2244–2246.
                    Starr, A. F., P. M. Rye, D. R. Smith and S. Nemat-Nasser (2004). Fabrication and characterization of a
                          negative-refractive-index composite metamaterial. Physical Review B 70: 113102.
                    Thomas, J. P., M. A. Qidwai, P. Matic, R. K. Everett, A. S. Gozdz, M. T. Keennon and J. M. Grasmeyer (2002).
                          Structure-power multifunctional materials for UAV’s. Proceedings of SPIE — The International
                          Society for Optical Engineering, San Diego, CA.
                    Tsitsiklis, J. and M. Athans (1985). On the complexity of decentralized decision making and detection
                          problems. IEEE Transactions on Automatic Control 30: 440–6.
                    Varadan, V. K. and V. V. Varadan (2000). Microsensors, microelectromechanical systems (MEMS), and
                          electronics for smart structures and systems. Smart Materials and Structures 9: 953–72.
                    Varshney, P. K. (1997). Distributed Detection and Data Fusion. Springer, New York.
                    Veselago, V. G. (1968). The electrodynamics of substances with simultaneously negative values of [permit-
                          tivity] and [permeability]. Soviet Physics USPEKI 10: 509.
                    Waltz, E. and J. Llinas (1990). Multisensor Data Fusion. Artech House, Boston.
                    White, S. R., N. R. Sottos, P. H. Guebelle, J. S. Moore, M. R. Kessler, S. R. Sriram, E. N. Brown and
                          S. Viswanathan (2001). Autonomic healing of polymer composites. Nature 409(6822): 794–7.
                    Wool, R. P. (1978). Material response and reversible cracks in viscoelastic polymers. Polymer Engineering
                          and Science 18(14): 1057–61.
                    Wool, R. P. (1979). Crack healing in semicrystalline polymers, block copolymers and filled elastomers.
                          Adhesion and adsorption of polymers. Plenum, New York 12A: 341–62.
                    Wool, R. P. (1995). Polymer Interfaces: Structure and Strength, Hanser, Mu ¨nchen.
                    Wool, R. P. and K. M. O’Connor (1981a). Craze healing in polymer glasses. Polymer Engineering and Science
                          21(14): 970–77.
                    Wool, R. P. and K. M. O’Connor (1981b). A theory of crack healing in polymers. Journal of Applied Physics
                          52(10): 5953–63.
                    Wool, R. P. and K. M. O’Connor (1982). Time dependence of crack healing. Journal of Polymer Science:
                          Polymer Letters Edition 20: 7–16.
                    Wool, R. P., B. L. Yuan and O. J. McGarel (1989). Welding of polymer interfaces. Polymer Engineering and
                          Science 29(19): 1340–1367.
                    Xu, J., B. N. Cox, M. A. McGlockton and W. C. Carter (1995). A binary model of textile composites. II. The
                          elastic regime. Acta Metallurgica et Materialia 43(9): 3511–24.
                    Yang, Q. D., B. Cox and Y. Qingda (2003). Spatially averaged local strains in textile composites via the binary
                          model formulation. Journal of Engineering Materials and Technology 125(4): 418–25.
                    Zhou, G. and L. M. Sim (2002). Damage detection and assessment in fibre-reinforced composite structures
                          with embedded fibre optic sensors — review. Smart Materials and Structures 11: 925–39.