S. D.Konecky, G.Y Panasyuk, K.Lee, V.A Markel, A.G.Yodh, and
J.C.Schotland
Optical Tomography
with Large Data Sets and Analytic Reconstruction
Formulas
in Biomedical Optics, OSA Technical Digest, paper BMC5 (OSA,
2008)
V.A.Markel and J.C.Schotland
Single-Scattering
Optical Tomography
in CLEO/QELS Conference, OSA Technical Digest Series, paper
CFC2 (OSA, 2007)
V.A Markel and A.K.Sarychev
Surface Plasmons in
Ordered and Disordered Chains of Metal Nanospheres
in CLEO/QELS Conference , OSA Technical Digest, paper QThE4
(OSA, 2007)
18. V.A.Markel, G.Y.Panasyuk and J.C.Schotland
New approach to
solving the radiative transport equation
in Biomedical Optics, OSA Technical Digest (OSA, 2006)
17. V.A.Markel, Z.Wang and J.C.Schotland, "Optical diffusion tomography with large data sets," in Photonic Applications in Biosensing and Imaging, Proc. of SPIE, v.5969, pp.59691B-1-11, SPIE (2005). PDF
16. G.Y.Panasyuk, V.A.Markel and J.C.Schotland, "Transport-corrected diffusion theory for image reconstruction in optical tomography," in Optical Tomography and Spectroscopy of Tissue VI, Proc. of SPIE, v.5693, pp.1-3, SPIE (2005). PDF
15. V.A.Markel, J.C.Schotland, "Nonlinear corrections for inversion formulas in optical diffusion tomography," in Signal Recovery and Synthesis, OSA Technical Digest, v.67, pp.52-54, OSA (2001). PDF
14. V.A.Markel, J.C.Schotland, "Numerical studies of inversion formulas for diffusion tomography: effects of boundary conditions," in Optical Tomography and Spectroscopy of Tissue IV , Proc. of SPIE, v.4250, pp.120-124, SPIE (2001). PDF
13. V.A.Markel, J.C.Schotland, "Analytical reconstruction methods in optical tomography with sampling and truncation of data," in Advances in Optical Imaging and Photon Migration, OSA Technical Digest, pp.24-26, OSA (2002).
12 V.A.Markel, J.C.Schotland, "Inversion formulas for optical diffusion tomography based on the Fourier-Laplace transform," in CLEO'2000, OSA Technical Digest, pp.562-563, OSA (2000).
11. V.A.Markel, "New iterative method for solving electromagnetic scattering problems," in Proceedings of International Commission for Optics: Optics for the Next Millennium, pp.44-47, SPIE (1999).
10. V.A.Markel, ``Is scattering cross section of a particle small compared to the wavelength always determined by its total dipole moment,'' in Conference on Light Scattering by Nonspherical Particles: Theory, Measurements and Applications, pp.187-190, American Meteorological Society (1998).
9. V.Safonov, Yu.E.Danilova, S.G.Rautian, V.M.Shalaev, V.A.Markel, N.N.Lepeshkin, W.Kim, R.Armstrong, ``Spectral dependence of selective photomodification and localization of optical excitations in silver fractal clusters,'' in IQEC'98, 1998 OSA Technical Digest Series, v.7, p.186, OSA (1998).
8. V.A.Markel, V.M.Shalaev, "Local spectra and field distribution on the surfaces of rough nanometer-structured metal films," in IQEC'98, 1998 OSA Technical Digest Series, v.7, pp.218-219, OSA (1998).
7. E.Poliakov, V.M.Shalaev, V.A.Markel, R.Botet, ``Nonlinear optical effects in fractal nanostructured materials such as nanocomposites and self-affine surfaces,'' in Chemistry and Physics of Small Structures, 1997 OSA Technical Digest Series, v.2, pp.49-51, OSA (1997).
6. V.A.Markel, E.B.Stechel, W.Kim, R.Armstrong, V.Shalaev, ``Optical properties of fractal nanocomposites,'' in Materials Research Society Symposium Proceedings, vol.367, pp.417-422, Materials Research Society (1995).
5. V.A.Markel, ``Scattering of light from an infinite linear polymer,'' in Proceedings of The 4th Micro-Optics Conference/11th Topical Meeting on Gradient-Index Optical Systems, Kawasaki, Japan (1993).
4. S.Yu.Novozhillov, D.A.Shapiro, and V.A.Markel, "Laboratory and theoretical study of a computer algorithm for verifying of statistical hypotheses in application to recognizing signals and images in the problems of spectral analysis," Research Report, Institute of Automation and Electrometry, Novosibirsk (1992) [in Russian].
3. V.A.Markel, L.S.Muratov, M.I.Stockman, and T.F.George, "Scale-invariant theory of optical properties of fractal clusters," in Scaling and Disordered Materials, Proceedings of the Symposium W of the Material Research Society 1990 Fall Meeting (Extended Abstracts), ed. by T.A.Witten, M.O.Robbins and J.P.Stokes, pp.219-222, Materials Research Society (1994).
2. I.G.Ersh, V.A.Markel, L.S.Muratov, S.Yu.Novozhillov, B.M.Stockman, M.I.Stockman, ``Study of kinetics of the early stage of agglutination reaction and detection of fractal aggregates with the use of laser photon-correlation spectrometer,'' in Theses of XIII International Conference on Coherent and Non-Linear Optics, Part 1, pp.406-407, Institute of Physics of the Byelorussian Acad. Sci., Minsk (1988) [in Russian].
1. I.G.Ersh, V.A.Markel, L.S.Muratov, S.Yu.Novozhilov, B.M.Stockman, M.I.Stockman, ``Study of immunological agglutination reaction with laser photon-correlation spectrometer: kinetics is found and fractal aggregates are observed,'' in Second International Conference of Laser Scattering Spectroscopy of Biological Objects. Book of Summaries, pp.41-42, Janus Pannonius University, Pecs (1988).