Coherent Backscattering from Multiple Scattering Systems - KOPS ...
Coherent Backscattering from Multiple Scattering Systems - KOPS ... Coherent Backscattering from Multiple Scattering Systems - KOPS ...
Bibliography [17] J. Crassous, Diffusive wave spectroscopy of a random close packing of spheres, The European Physical Journal E, 23 (2007), p. 145. [18] R. Dalichaouch, J. P. Armstrong, S. Schultz, P. M. Platzman, and S. L. McCall, Microwave localization by two-dimensional random scattering.pdf, Nature, 354 (1991), p. 53. [19] S. Fiebig, C. M. Aegerter, W. Bührer, M. Störzer, E. Akkermans, G. Montambaux, and G. Maret, Conservation of energy in coherent backscattering of light, Europhysics Letters, 81 (2008), p. 64004. [20] S. Fraden and G. Maret, Multiple scattering of light from concentrated interacting suspension, Physical Review Letters, 65 (1990), p. 512. [21] J. C. M. Garnett, Colours in metal glasses and in metallic films, Philosophical Transactions of the Royal Society of London. Series A, 203 (1904), p. 385. [22] P. Gross, Coherent backscattering close to the transition to strong localization of light, diploma thesis, Universität Konstanz, 2005. [23] P. Gross, M. Störzer, S. Fiebig, M. Clausen, G. Maret, and C. M. Aegerter, A precise method to determine the angular distribution of backscattered light to high angles, Review of Scientific Instruments, 78 (2007), p. 033105. [24] B. W. Hapke, R. M. Nelson, and W. D. Smythe, The opposition effect of the moon: The contribution of coherent backscatter.pdf, Science, 260 (1993), p. 509. [25] S. Hikami, Anderson localization in a nonlinear-sigma-model representation, Physical Review B, 24 (1981), p. 2671. [26] H. Hinrichsen and D. E. Wolf, eds., The Physics of Granular Media, Wiley-VCH Verlag, 2004. ISBN 3-527-40373-6. [27] A. F. Ioffe and A. R. Regel, Non-crystalline, amorphous and liquid electronic semiconductors, Prog. Semicond., 4 (1960), p. 237. [28] S. John, Electromagnetic absorption in a disordered medium near a photon mobility edge, Physical Review Letters, 53 (1984), p. 2169. [29] M. Kaveh, M. Rosenbluh, I. Edrei, and I. Freund, Weak localization and light scattering from disordered solids, Physical Review Letters, 57 (1986), p. 2049. [30] D. S. Kliger, J. W. Lewis, and C. E. Randall, Polarized Light in Optics and Spectroscopy, Academic Press, Inc, 1990. ISBN 0-12-414975-8. [31] Y. Kuga and A. Ishimaru, Retroreflectance from a dense distribution of spherical particles, Journal of the Optical Society of America A, 1 (1984), p. 831. [32] V. L. Kuzmin and I. V. Meglinski, Numerical simulation of coherent backscattering and temporal intensity correlations in random media, Quantum Electronics, 36 (2006), p. 990. [33] J. H. Lambert, Photometria sive de mensure et gradibus luminis colorum et umbra, Klett, 1760. Review in: Göttingische Gelehrte Anzeigen, 118. Stück den 2. October 1760, p. 1010. 72
Bibliography [34] E. Larose, L. Margerin, B. A. van Tiggelen, and M. Campillo, Weak localization of seismic waves, Physical Review Letters, 93 (2004), p. 048501. [35] R. Lenke, R. Lehner, and G. Maret, Magnetic-field effects on coherent backscattering of light in case of mie spheres, Europhysics Letters, 52 (2000), p. 620. [36] R. Lenke and G. Maret, Affecting weak light localization by strong magnetic fields, Physica Scripta, T49 (1993), p. 605. [37] , Magnetic field effects on coherent backscattering of light, European Physical Journal B, 17 (2000), p. 171. [38] , Multiple scattering of light: Coherent backscattering and transmission, in Scattering in Polymeric and Colloidal Systems, W. Brown and K. Mortensen, eds., Gordon and Breach Science Publishers, 2000. [39] E. Leutz and J. Rička, On light propagation through glass bead packings, Optics Communications, 126 (1996), p. 260. [40] G. Maret, Recent experiments on multiple scattering and localization of light, in Les Houches, Session LXI, 1994: Physique Quantique Mesoscopique – Mesocopic Quantum Physics, E. Akkermans, G. Montamaux, J.-L. Pichard, and J. Zinn-Justion, eds., Elsevier Science B. V., 1995. [41] N. Menon and D. J. Durian, Diffusing-wave spectroscopy of dynamics in a three-dimensional granular flow, Science, 275 (1997), p. 1920. [42] G. Mie, Beiträge zur Optik trüber Medien, speziell kolloidaler Metallösungen, Annalen der Physik, 330 (1908), p. 377. [43] H. Mueller, The foundation of optics, Journal of the Optical Society of America, 38 (1948), p. 661. [44] D. Pine, D. Weitz, P. Chaikin, and E. Herbolzheimer, Diffusing-wave spectroscopy, Physical Review Letters, 60 (1988), p. 1134. [45] S. E. Skipetrov and B. A. van Tiggelen, Dynamics of weakly localized waves, Physical Review Letters, 92 (2004), p. 113901. [46] P. Snabre and J. Crassous, Multispeckle diffusing wave spectroscopy of colloidal particles suspended in a random packing of glass spheres, The European Physical Journal E, 29 (2009), p. 149. [47] M. Störzer, Anderson Localization of Light, PhD thesis, Universität Konstanz, 2006. [48] M. Störzer, P. Gross, C. M. Aegerter, and G. Maret, Observation of the critical regime near Anderson localization of light, Physical Review Letters, 96 (2006), p. 063904. [49] R. Tweer, Vielfachstreuung von Licht in Systemen dicht gepackter Mie-Streuer: Auf dem Weg zur Anderson-Lokaliserung?, PhD thesis, Universität Konstanz, 2002. [50] S. Utermann, August 2009. Private communication. 73
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Bibliography<br />
[17] J. Crassous, Diffusive wave spectroscopy of a random close packing of spheres, The European<br />
Physical Journal E, 23 (2007), p. 145.<br />
[18] R. Dalichaouch, J. P. Armstrong, S. Schultz, P. M. Platzman, and S. L. McCall,<br />
Microwave localization by two-dimensional random scattering.pdf, Nature, 354 (1991), p. 53.<br />
[19] S. Fiebig, C. M. Aegerter, W. Bührer, M. Störzer, E. Akkermans, G. Montambaux,<br />
and G. Maret, Conservation of energy in coherent backscattering of light, Europhysics Letters,<br />
81 (2008), p. 64004.<br />
[20] S. Fraden and G. Maret, <strong>Multiple</strong> scattering of light <strong>from</strong> concentrated interacting suspension,<br />
Physical Review Letters, 65 (1990), p. 512.<br />
[21] J. C. M. Garnett, Colours in metal glasses and in metallic films, Philosophical Transactions<br />
of the Royal Society of London. Series A, 203 (1904), p. 385.<br />
[22] P. Gross, <strong>Coherent</strong> backscattering close to the transition to strong localization of light, diploma<br />
thesis, Universität Konstanz, 2005.<br />
[23] P. Gross, M. Störzer, S. Fiebig, M. Clausen, G. Maret, and C. M. Aegerter, A precise<br />
method to determine the angular distribution of backscattered light to high angles, Review of<br />
Scientific Instruments, 78 (2007), p. 033105.<br />
[24] B. W. Hapke, R. M. Nelson, and W. D. Smythe, The opposition effect of the moon: The<br />
contribution of coherent backscatter.pdf, Science, 260 (1993), p. 509.<br />
[25] S. Hikami, Anderson localization in a nonlinear-sigma-model representation, Physical Review<br />
B, 24 (1981), p. 2671.<br />
[26] H. Hinrichsen and D. E. Wolf, eds., The Physics of Granular Media, Wiley-VCH Verlag,<br />
2004. ISBN 3-527-40373-6.<br />
[27] A. F. Ioffe and A. R. Regel, Non-crystalline, amorphous and liquid electronic semiconductors,<br />
Prog. Semicond., 4 (1960), p. 237.<br />
[28] S. John, Electromagnetic absorption in a disordered medium near a photon mobility edge, Physical<br />
Review Letters, 53 (1984), p. 2169.<br />
[29] M. Kaveh, M. Rosenbluh, I. Edrei, and I. Freund, Weak localization and light scattering<br />
<strong>from</strong> disordered solids, Physical Review Letters, 57 (1986), p. 2049.<br />
[30] D. S. Kliger, J. W. Lewis, and C. E. Randall, Polarized Light in Optics and Spectroscopy,<br />
Academic Press, Inc, 1990. ISBN 0-12-414975-8.<br />
[31] Y. Kuga and A. Ishimaru, Retroreflectance <strong>from</strong> a dense distribution of spherical particles,<br />
Journal of the Optical Society of America A, 1 (1984), p. 831.<br />
[32] V. L. Kuzmin and I. V. Meglinski, Numerical simulation of coherent backscattering and<br />
temporal intensity correlations in random media, Quantum Electronics, 36 (2006), p. 990.<br />
[33] J. H. Lambert, Photometria sive de mensure et gradibus luminis colorum et umbra, Klett, 1760.<br />
Review in: Göttingische Gelehrte Anzeigen, 118. Stück den 2. October 1760, p. 1010.<br />
72
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