R. Smith, and R. Liu, Eds., Metamaterials: Theory, Design and Applications. Springer, 2010. [7] E. Hecht, Optics, Second Edi. Addison-Wesley Publishing Company, Inc., 1987. 58 [8] L. Solymar and E. Shamonina, Waves in Metamaterials. Oxford University Press, 2009. [9] J. Pendry, "Negative refraction makes a perfect lens," Physical review letters, vol. 85, no. 18, pp. 39669, Oct. 2000. [10] Z. Liu, H. Lee, Y. Xiong, C. Sun, and X. Zhang, "Far-field optical hyperlens magnifying sub-diffraction-limited objects.," Science (New York, N.Y.), vol. 315, no. 5819, p. 1686, Mar. 2007. [11] A. A. Maradudin, Ed., Structured Surfaces as Optical Metamaterials. Cambridge University Press, 2011. [12] A. Loot, "Pinnaplasmonite ja kullakile karakteriseerimine Kretschmanni skeemiga," Tartu Ülikool, 2012. [13] J. B. Pendry, D. Schurig, and D. R. Smith, "Controlling Electromagnetic Fields,"
(Levine et al. 1994; Martinaud et al. 1997) comparing the same muscles between animals and can cause the formation of intra- and/or and/or carcasses that have been handled dif- inter-protein disulfide cross-links (Stadtman ferently (Juncher et al. 2001). These differ- 1990; Martinaud et al. 1997). In general, both ences may arise because of differences in these changes reduce the functionality of pro- diet, breed, antemortem stress, postmortem teins in postmortem muscle (Xiong and handling of carcasses, etc. In fact, there have Decker 1995). In living muscle, the redox been reports of differences between animals state of muscle can influence carbohydrate and between muscles in the activity of some metabolism by directly affecting enzymes in enzymes involved in the oxidative defense the glycolytic pathway. Oxidizing agents can system of muscle (Daun et al. 2001). also influence glucose transport
annaabi.ee 
