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Optical Patholgy
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Publications
Books and Book Chapters
[5] Min Xu, Wei Cai, and Robert R. Alfano. Deep Tissue Imaging with Linear and Non-linear Optics, chapter Overview of the Cumulant Solution to Light Propagation Inside a Turbid Medium and Its Applications in Deep Imaging Beyond the Diffusion Approximation. Pan Stanford Publishing Pte. Ltd. (in press)
[4] Min Xu, Wei Cai, and Robert R. Alfano. Deep Tissue Imaging with Linear and Non-linear Optics, chapter Deep Imaging of Prostate Cancer Using Diffusion Reconstruction of Banana Paths with Near Infrared Prostatoscope Analyzer. Pan Stanford Publishing Pte. Ltd. (in press)
[3] W. Cai and M. Xu. Light Scattering Reviews, volume XI, chapter Analytical solution of radiative transfer using cumulant expansion. Springer, 2016.
[2] M. Xu and A. Katz. Light Scattering Reviews, volume III, chapter Statistical Interpretation of Light Anomalous Diffraction by Small Particles and its Applications in Bio-agent Detection and Monitoring, pages 27-68. Springer, 2008. [ Abstract ]
[1] M. Lax, W. Cai, and M. Xu. Random Processes in Physics and Finance. Oxford University Press, USA, 2006.
Peer-reviewed Journal Publications
[49] I. Zeylikovich and M. Xu. Dynamic coherent backscattering mirror. AIP Advance, 6:025105, 2016. [ Abstract ]
[48] Min Xu. Diagnosis of the phase function of random media from light reflectance. Sci. Rep., 6:22535, 2016. [ Abstract ]
[47] A. Katz, M. Xu, J.C. Steiner, A. Trusiak, A. Alimova, P. Gottlieb, and K. Block. Influence of cations on aggregation rates in mg-montmorillonite. Clays and Clay Minerals, 61(1):1--10, 2013. [ Abstract ]
[46] Binlin Wu, M. Alrubaiee, W. Cai, M. Xu, and S. K. Gayen. Diffuse optical imaging using decomposition methods. International Journal of Optics, 2012:185435, 2012. [ Abstract ]
[45] Yang Pu, Wubao Wang, Mohammad AL-Rubaiee, Swapan Kumar Gayen, and Min Xu. Determination of optical coefficients and fractal dimensional parameters of cancerous and normal prostate tissues. Appl. Spectroscopy, 66:828--834, 2012. [ Abstract ]
[44] Binlin Wu, M. Alrubaiee, W. Cai, M. Xu, and S. K. Gayen. Diffuse optical imaging using decomposition methods. International Journal of Optics, 2012:185435, 2012. [ Abstract ]
[43] Min Xu. The scattering-phase theorem: anomalous diffraction by forward-peaked scattering media. Opt. Express, 19:21643-21651, 2011. [ Abstract ]
[42] Min Xu, Yang Pu, and Wubao Wang. Clean image synthesis and target numerical marching for optical imaging with backscattering light. Biomed. Opt. Express, 2:850-857, 2011. [ Abstract ]
[41] Binlin Wu, W. Cai, M. Alrubaiee, M. Xu, and S. K. Gayen. Time reversal optical tomography: locating targets in a highly scattering turbid medium. Opt. Express, 19:21956-21976, 2011. [ Abstract ]
[40] Y. Pu, W. B. Wang, Min Xu, G. C. Tang, Y. Budansky, M. Sharanov, S. Achilefu, J. A. Eastham, and R. R. Alfano. Near infrared photonic finger imager for prostate cancer screening. Technol. Cancer Res. Treat., 10:507-517, 2011.
[39] Alexandra Alimova, A. Katz, Julian Orozco, Hui Wei, Paul Gottlieb, Elizabeth Rudolph, J. C. Steiner, and Min Xu. Broadband light scattering measurements of the time evolution of the fractal dimension of smectite clay aggregates. J. Opt. A, 11:105706, 2009. [ Abstract ]
[38] Min Xu. Low coherence enhanced backscattering beyond diffusion. Opt. Lett., 33:1246-1248, 2008. [ Abstract ]
[37] M. Xu, Tao T. Wu, and Jianan Y. Qu. Unified Mie and fractal scattering by cells and experimental study on application in optical characterization of cellular and subcellular structures. J. Biomed. Opt., 13:038802, 2008. [ Abstract ]
[36] M. Xu, M. Alrubaiee, S. K. Gayen, and R. R. Alfano. Optical diffuse imaging of an ex vivo model cancerous human breast using independent component analysis. JSTQE, 14:43-49, 2008.
[35] John Sawicki, Nikolas Kastor, and Min Xu. Electric field Monte Carlo simulation of coherent backscattering of polarized light by a turbid medium. Opt. Express, 16:5728-5738, 2008.
[34] Tao T. Wu, Jianan Y. Qu, and Min Xu. Unified Mie and fractal scattering by biological cells and subcellular structures. Opt. Lett., 32:2324-2326, 2007.
[33] M. Xu. Superposition rule for light scattering by a composite particle. Opt. Lett., 31:3223-3225, 2006. [ Abstract ]
[32] M. Alrubaiee, M. Xu, S. K. Gayen, and R. R. Alfano. Localization and cross section reconstruction of fluorescent targets in ex vivo breast tissue using independent component analysis. Appl. Phys. Lett., 89:133902, 2006.
[31] M. Xu, M. Alrubaiee, S. K. Gayen, and R. R. Alfano. Three-dimensional localization and optical imaging of objects in turbid media using independent component analysis. Appl. Opt., 44:1889-1897, 2005. [ .pdf | Abstract ]
[30] M. Xu, M. Alrubaiee, S. K. Gayen, and R. R. Alfano. Optical imaging of turbid media using independent component analysis: Theory and simulation. J. Biomed. Opt., 10:051705, 2005. [ Abstract ]
[29] M. Xu and R. R. Alfano. Random walk of polarized light in turbid media. Phys. Rev. Lett., 95:213905, 2005. [ Abstract ]
[28] M. Xu and R. R. Alfano. Fractal mechanisms of light scattering in biological tissue and cells. Opt. Lett., 30:3051-3053, 2005. [ Abstract ]
[27] M. Xu and R. R. Alfano. Circular polarization memory of light. Phys. Rev. E, 72:065601(R), 2005. [ Abstract ]
[26] Kevin G. Phillips, Min Xu, S. K. Gayen, and R. R. Alfano. Time-resolved ring structure of circularly polarized beams backscattered from forward scattering media. Opt. Express, 13:7954-7969, 2005. [ .pdf | Abstract ]
[25] A. Katz, Alexandra Alimova, M. Xu, Paul Gottlieb, Elizabeth Rudolph, J. C. Steiner, and R. R. Alfano. In Situ determination of refractive index and size of Bacillus spores by light extinction. Opt. Lett., 30:589-591, 2005. [ .pdf | Abstract ]
[24] W. Cai, M. Xu, and R. R. Alfano. Analytical form of the particle distribution based on the cumulant solution of the elastic Boltzmann transport equation. Phys. Rev. E, 71:041202, 2005. (10 pages). [ .pdf | Abstract ]
[23] M. Alrubaiee, M. Xu, S. K. Gayen, and R. R. Alfano. Tomographic imaging of scattering objects in tissue-like turbid media using independent component analysis. Appl. Phys. Lett., 87:191112, 2005.
[22] M. Xu. Electric field Monte Carlo for polarized light propagation in turbid media. Opt. Express, 12:6530-6539, 2004. http://www.opticsexpress.org/abstract.cfm?URI=OPEX-12-26-653. [ .pdf | Abstract ]
[21] M. Xu, W. Cai, and R. R. Alfano. Multiple passages of light through an absorption inhomogeneity in optical imaging of turbid media. Opt. Lett., 29:1757-1759, 2004. [ .pdf | Abstract ]
[20] M. Xu. Light extinction and absorption by arbitrarily oriented finite circular cylinders using geometrical path statistics of rays. Appl. Opt., 42:6710-6723, 2003. [ .pdf | Abstract ]
[19] M. Xu, M. Lax, and R. R. Alfano. Light anomalous diffraction using geometrical path statistics of rays and gaussian ray approximation. Opt. Lett, 28:179-181, 2003. [ .pdf | Abstract ]
[18] M. Xu and R. R. Alfano. More on patterns in Mie scattering. Opt. Comm., 226(1-6):1-5, 2003. [ .pdf | Abstract ]
[17] A. Katz, A. Alimova, M. Xu, E. Rudolph, M. Shah, H. Savage, R. Rosen, S. A. McCormick, and R. R. Alfano. Bacteria size determination by elastic light scattering. IEEE JSTQE, 9:277-287, 2003. [ .pdf | Abstract ]
[16] W. Cai, M. Xu, and R. R. Alfano. Three dimensional radiative transfer tomography for turbid media. IEEE JSTQE, 9:189-198, 2003. [ .pdf | Abstract ]
[15] M. Xu, W. Cai, M. Lax, and R. R. Alfano. Photon migration in turbid media using a cumulant approximation to radiative transfer. Phys. Rev. E, 65:066609, 2002. [ .pdf | Abstract ]
[14] W. Cai, M. Xu, M. Lax, and R. R. Alfano. Diffusion coefficient depends on time not on absorption. Opt. Lett., 27(9):731-733, 2002. [ .pdf ]
[13] M. Xu, M. Lax, and R. R. Alfano. Time-resolved Fourier optical diffuse tomography. J. Opt. Soc. Am. A, 18(7):1535-1542, 2001. [ .pdf | Abstract ]
[12] M. Xu, W. Cai, M. Lax, and R. R. Alfano. A photon transport forward model for imaging in turbid media. Opt. Lett., 26(14):1066-1068, 2001. [ .pdf | Abstract ]
[11] W. Cai, S. K. Gayen, M. Xu, M. Zevallos, M. Alrubaiee, M. Lax, and R. R. Alfano. Optical tomographic image reconstruction from ultrafast time-sliced transmission measurements. Appl. Opt., 38(19):4237-4246, 1999. [ .pdf | Abstract ]
[10] X. Jin, Y. Chen, X. W. Lin, G. S. Dong, M. Xu, W. R. Zhu, X. Wang, X. L. Shen, and L. Li. Interface structure of fcc Mn on GaAs(001). Appl. Phys. Lett., 70(18):2455-2457, 1997.
[9] G. S. Dong, M. Xu, Y. Chen, X. Jin, and Xun Wang. XPS study of Mn thin films grown on GaAs(001) surfaces. Surface and Interface Analysis, 24(9):653-656, 1996.
[8] M. Zhang, G. S. Dong, M. Xu, Y. Chen, and X. Jin. The formation of the meta-stable γ-Mn and GaAs(100) interface: diffusion and chemical reaction. Acta Physics Sinica, 46, 1995.
[7] X. Jin, Y. Chen, G. S. Dong, M. Zhang, M. Xu, X. G. Zhu, Xun Wang, E. D. Lu, H. B. Pan, P. S. Xu, X. Y. Zhang, and C. Y. Fan. Synchrotron-radiation study of the electronic structure of fcc Mn thin films grown on GaAs (001) surface. Phys. Rev. B, 51(15):9702-6, 1995.
[6] M. Zhang, G. S. Dong, X. G. Zhu, M. Xu, and X. Jin. A photoemission study on the magnetism of Mn/GaAs(100) interface. Chinese Journal of Semiconductors, 1994.
[5] X. Jin, M. Zhang, G. S. Dong, M. Xu, Y. Chen, Xun Wang, X. G. Zhu, and X. L. Shen. Stabilization of face-centered-cubic Mn films via epitaxial growth on GaAs(001). Appl. Phys. Lett., 65(24):3078-80, 1994.
[4] X. Jin, M. Zhang, G. S. Dong, Y. Chen, M. Xu, X. G. Zhu, X. Wang, E. D. Lu, H. B. Pan, P. S. Xu, X. Y. Zhang, and C. Y. Fan. Magnetic-ordering of Mn overlayers on GaAs(100). Phys. Rev. B, 50(13):9585-9588, 1994.
[3] Y. Chen, G. S. Dong, M. Zhang, M. Xu, X. Jin, E. D. Lu, H. B. Fan, P. S. Xu, X. Y. Zhang, and C. Y. Fan. The growth of metastable fcc-Mn thin film on GaAs(001) and its electronic structure studied by photoemission with synchrotron radiation. Acta Physics Sinica, 1994.
[2] X. G. Zhu, M. Zhang, M. Xu, G. S. Dong, and X. Jin. Preparation and structural study of a new metastable Mn phase. Chinese Journal of Semiconductors, 14(11), 1993.
[1] M. Zhang, G. S. Dong, J. S. Li, M. Xu, X. Jin, and Xun Wang. Preparation and structural study of Mn/GaAs(100) interface. Acta Physics Sinica, 42(8), 1993.
Conference Proceeding Papers
[43] Weihao Lin, Zili Cao, Bixin Zeng, and M. Xu. Quantitative modulated imaging of turbid media in the high spatial frequency domain. In Fred S. Azar and Xavier Intes, editors, Multimodal Biomedical Imaging XI, volume 9701 of Proc. of SPIE, page 97010Y, 2016.
[42] Michael Reilly and M. Xu. Analytical model for sub-diffusive light reflection and the application to spatial frequency-domain imaging. In Bruce J. Tromberg, Arjun G. Yodh, Eva Marie Sevick-Muraca, and Robert R. Alfano, editors, Optical Tomography and Spectroscopy of Tissue XI, volume 9319 of Proc. SPIE, page 93191A, 2015.
[41] Xiuwei Zhu, Xiaolei Lin, Zili Cao, Bixin Zeng, and M. Xu. Electric field monte carlo study of coherent complex light in turbid media. In Biomedical Applications of Light Scattering IX, volume 9333 of Proc. SPIE, page 933316. SPIE, 2015. http://dx.doi.org/10.1117/12.2082605.
[40] Guichen Tang, Fanting Kong, Y.C. Chen, and M. Xu. Nuclear photothermal diffusion dynamics differentiates benign and malignant cancer. In Biomedical Optics 2014, OSA Technical Digest (online), page BS5A.2. Optical Society of America, 2014. http://www.opticsinfobase.org/abstract.cfm?URI=BIOMED-2014-BS5A.2.
[39] B. Wu, S. K. Gayen, and M. Xu. Fluorescence spectroscopy using excitation and emission matrix for quantification of tissue native fluorophores and cancer diagnosis. In Photonic Therapeutics and Diagnostics X, volume 8926 of Proc. SPIE, page 1M, 2014.
[38] Guichen Tang, Fanting Kong, Y. C. Chen, and M. Xu. Full field photothermal dynamics microscopy. In Three-Dimensional and Multidimensional Microscopy: Image Acquisition and Processing XXI, volume 8949 of Proceedings of SPIE, page 89490X, 2014.
[37] Htet Aung, Bianca DeAngelo, John Soldano, Piotr Kostyk, Braulio Rodriguez, and M. Xu. On alterations in the refractive index and scattering properties of biological tissue caused by histological processing. In Adam O. Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering VII, volume 8592 of Proceedings of SPIE, page 85920X. SPIE, 2013.
[36] Piotr Kostyk, Shelley Phelan, and Min Xu. Cell cycle imaging with quantitative differential interference contrast microscopy. In Imaging, Manipulation, and Analysis of Biomolecules, Cells, and Tissues XI, volume 8587 of Proceedings of SPIE, page 85870J, 2013.
[35] A. Katz, M. Xu, A. Trusiak, P. Gottlieb, A. Alimova, J.C. Steiner, and K. Block. Aggregation rates in montmorillonite clay measured by light extinction. In AGU Annual Meeting, pages B53D--0703, San Francisco, 2012.
[34] A. Katz, K. Block, P. Gottlieb, A. Trusiak, A. Alimova, J.C. Steiner, and M. Xu. Effects of cation concentration on montmorillonite clay aggregation rates measured by light extinction. In Frontiers in Optics, page FTh2E.6, Rochester, NY, 2012. Optical Society of America.
[33] B. DeAngelo, G. Arzumanov, P. Shanley, Z. Xu, and M. Xu. Determination of the scattering coefficient, the reduced scattering coefficient, and the anisotropy factor of tissue with differential interference contrast microscopy. In Adam P. Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering VI, volume 8230 of Proceedings of SPIE, page 82300I. SPIE, Bellingham, WA, 2012.
[32] H. Aung, J. Buckley, P. Kostyk, B. Rodriguez, S. Phelan, and M. Xu. Three dimensional refractive index imaging with differential interference contrast microscopy. In Jose-Angel Conchello, Carol J. Cogswell, Tony Wilson, and Thomas G. Brown, editors, Three-Dimensional and Multidimensional Microscopy: Image Acquisition and Processing XIX, volume 8227 of Proceedings of SPIE, page 82270G. SPIE, Bellingham, WA, 2012.
[31] Y. Pu, Wang W., Tang G., Y. Budansky, M. Sharonov, M. Xu, S. Achilefu, J. A. Eastham, and R. R. Alfano. Screening prostate cancer using a portable near infrared scanning imaging unit with an optical fiber-based rectal probe. In Robert R. Alfano and Stavros G. Demos, editors, Optical Biopsy X, volume 8220 of Proceedings of SPIE, page 822002. SPIE, Bellingham, WA, 2012.
[30] B. Wu, W. Cai, M. Xu, and S. K. Gayen. Time-reversal optical tomography: detecting and locating extended targets in a turbid medium. In Fred S. Azar and Xavier Intes, editors, Multimodal Biomedical Imaging VII, volume 8216 of Proceedings of SPIE, page 82160K. SPIE, Bellingham, WA, 2012.
[29] Y. Pu, W. Wang, M. Alrubaiee, S. K. Gayen, and M. Xu. Systematic studies of fractal dimension parameters, absorption and scattering coefficients for cancerous and normal prostate tissues. In Hyun Wook Kang and Bodo E. Knudsen, editors, Photonic Therapeutics and Diagnostics VIII, volume 8207 of Proceedings of SPIE, page 82071H. SPIE, Bellingham, WA, 2012.
[28] M. Alrubaiee, B. Wu, M. Xu, W. Cai, J. A. Koutcher, and S. K. Gayen. Multi-wavelength diffusive optical tomography using independent component analysis and time reversal algorithms. In Andreas H. Hielscher and Paola Taroni, editors, Diffuse Optical Imaging III, volume 8088 of Proceedings of SPIE, page 80880Y. SPIE, Bellingham, WA, 2011.
[27] M. Iftikhar, B. DeAngelo, G. Arzumanov, P. Shanley, Z. Xu, and M. Xu. Characterizing scattering property of random media from phase map of a thin slice: the scattering-phase theorem and the intensity propagation equation approach. In Bruce J. Tromberg, Arjun G. Yodh, Mamoru Tamura, Eva M. Sevick-Muraca, and Robert R. Alfano, editors, Optical Tomography and Spectroscopy of Tissue IX, volume 7896 of Proceedings of SPIE, page 78961O. SPIE, Bellingham, WA, 2011.
[26] Y. Pu, W. Wang, M. Xu, G. Tang, Y. Budansky, and R. R. Alfano. Three dimensional localization of cancerous prostate tissue using backscattering scanning polarization imaging and independent component analysis. In Robert R. Alfano, editor, Optical Biopsy IX, volume 7895 of Proceedings of SPIE, page 78950K. SPIE, Bellingham, WA, 2011.
[25] B. Wu, W. Cai, M. Alrubaiee, M. Xu, and S. K. Gayen. Three dimensional time reversal optical tomography. In Fred S. Azar and Xavier Intes, editors, Multimodal Biomedical Imaging VI, volume 7892 of Proceedings of SPIE, page 78920G. SPIE, Bellingham, WA, 2011.
[24] Bianca DeAngelo, Grant Arzumanov, Charles Matovu, Patrick Shanley, and M. Xu. Probing turbid medium structure using ultra low coherence enhanced backscattering spectroscopy. In Adam P. Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering IV, volume 7375 of Proceedings of SPIE, page 75730X, SPIE, Bellingham, WA, 2010.
[23] M. Xu. Incoherent and coherent backscattering of light beyond diffusion for subsurface reflectance spectroscopy. In Steven L. Jacques, E. Duco Jansen, and William P. Roach, editors, Optical Interactions with Tissue and Cells XX, volume 7175 of Proceedings of SPIE, page 71751B, SPIE, Bellingham, WA, 2009.
[22] Min Xu. Coherent backscattering of polarized light for tissue diagnostics: an electric field Monte Carlo study. In Steven L. Jacques, William P. Roach, and Robert J. Thomas, editors, Optical Interactions with Tissue and Cells XVIIII, 6854, page 68541A, 2008.
[21] M. Xu, Tao T. Wu, and Jianan Y. Qu. Signal sources in elastic light scattering by biological cells and tissues: what can elastic light scattering spectroscopy tell us? In Adam Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering, volume 6864 of Proceedings of SPIE, page 68640Y, 2008.
[20] M. Xu, Tao T. Wu, and Jianan Y. Qu. Elastic light scattering by cells: from Mie scattering to fractal scattering. In Adam Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering, volume 6446 of Proceedings of SPIE, page 64460Y, 2007.
[19] M. Xu, M. Alrubaiee, S. K. Gayen, H. Savage, and R. R. Alfano. Optical high resolution cross section imaging of a human breast model using independent component analysis. In Britton Chance, Robert R. Alfano, Bruce J. Tromberg, Mamoru Tamura, and Eva M. Sevick-Muraca, editors, Optical Tomography and Spectroscopy of Tissue VII, volume 6434 of Proceedings of SPIE, page 643416, 2007.
[18] M. Xu, M. Alrubaiee, S. K. Gayen, and R. R. Alfano. Determination of light absorption, scattering and anisotropy factor of a highly scattering medium using backscattered circularly polarized light. In Steven L. Jacques and William P. Roach, editors, Optical Interactions with Tissue and Cells XVIII, volume 6435 of Proceedings of SPIE, page 64350J, 2007.
[17] Tao T. Wu, M. Xu, and Jianan Y. Qu. Light scattering spectroscopy of cells: a study based on Mie and fractal models. In Adam Wax and Vadim Backman, editors, Biomedical Applications of Light Scattering, volume 6446 of Proceedings of SPIE, page 64460H, 2007.
[16] M. Xu, M. Alrubaiee, and R. R. Alfano. Fractal mechanism of light scattering for tissue optical biopsy. In Robert R. Alfano and Alvin Katz, editors, Optical Biopsy VI, volume 6091 of Proceedings of SPIE, page 60910E, 2006.
[15] M. Xu and R. R. Alfano. Light depolarization by tissue and phantoms. In Optical Interactions with Tissue and Cells XVII, volume 6084 of Proceedings of SPIE, page 60840T, 2006.
[14] K. G. Phillips, M. Xu, S. K. Gayen, and R. R. Alfano. Time-resolved ring structure of backscattered circularly polarized beams from forward scattering media. In Optical Biopsy VI, volume 6091 of Proceedings of SPIE, page 609109, 2006.
[13] M. Xu, M. Alrubaiee, S. K. Gayen, and R. R. Alfano. Optical tomography using independent component analysis to detect absorptive, scattering, or fluorescent inhomogeneities in turbid media. In Optical Tomography and Spectroscopy of Tissue VII, volume 5693 of Proceedings of SPIE, pages 528--535, Jan. 22-27, San Jose, California, USA, 2005.
[12] M. Xu and R. R. Alfano. Light depolarization in turbid media. In Optical Tomography and Spectroscopy of Tissue VII, volume 5693 of Proceedings of SPIE, pages 88--91, Jan. 22-27, San Jose, California, USA, 2005.
[11] M. Niebauer, A. Alimova, A. Katz, M. Xu, E. Rudolph, J. Steiner, and R. R. Alfano. Detection of biomass in new york city aerosols: Light scattering and optical fluorescence techniques. In Eos Trans. AGU, volume 86(52) of Fall Meet. Suppl., pages B53B--03, 2005.
[10] A. Katz, A. Alimova, M. Xu, E. Rudolph, P. Gottlieb, J. C. Steiner, and R. R. Alfano. Refractive index changes during germination of bacillus subtilis spores. In Advanced Biomedical and Clinical Diagnostic Systems III, volume 5692 of Proceedings of SPIE, pages 326--329, Jan. 23-26, San Jose, California, USA, 2005.
[9] W. Cai, M. Alrubaiee, S. K. Gayen, M. Xu, and R. R. Alfano. Three-dimensional optical tomography of objects in turbid media using the round-trip matrix. In Optical Tomography and Spectroscopy of Tissue VII, volume 5693 of Proceedings of SPIE, pages 4--9, Jan. 22-27, San Jose, California, USA, 2005.
[8] M. Alrubaiee, M. Xu, S. K. Gayen, and R. R. Alfano. Fluorescence optical tomography using independent component analysis to detect small targets in turbid media. In Optical Tomography and Spectroscopy of Tissue VII, volume 5693 of Proceedings of SPIE, pages 221--224, Jan. 22-27, San Jose, California, USA, 2005.
[7] M. Alrubaiee, M. Xu, S. K. Gayen W. Cai and, and R. R. Alfano. Time-resolved and quasi-continuous wave three-dimensional tomographic imaging. In Femtosecond Laser Applications in Biology, volume 5463 of Proceedings of SPIE, pages 82--85, Palais de la Musique et des Congrès de Strasbourg, Strasbourg, France, Apr 2004. SPIE.
[6] M. Xu, W. Cai, and R. R. Alfano. Nonlinear multiple passage effects on optical imaging of an absorption inhomogeneity in turbid media. In Photon Migration and Diffuse-light Imaging, volume 5138 of Proceedings of SPIE, pages 221--230, 2003. [ .pdf ]
[5] Alvin Katz, Alexandra Alimova, Min Xu, Elizabeth Rudolph, Howard E. Savage, Mahendra Shah, Steven A. McCormick, Richard B. Rosen, and Robert R. Alfano. Identification of bacteria by light scattering. In Alexander V. Priezzhev and Gerard L. Cote, editors, Optical Diagnostics and Sensing in Biomedicine III, volume 4965 of Proc. SPIE, pages 73--76, 2003.
[4] M. Xu, S. K. Gayen, W. Cai, M. E. Zevallos, M. Lax, and R. R. Alfano. Time sliced three dimensional inverse image reconstruction of objects in highly scattering media. In Optical Tomography and Spectroscopy of Tissue III, volume 3597, pages 2--4. SPIE, 1999.
[3] W. Cai, S. K. Gayen, M. Xu, M. Lax, and R. R. Alfano. Inverse reconstruction of three-dimensional tomographic images of objects in turbid media from time-sliced two-dimensional transmission measurements. In James G. Fujimoto and Michael S. Patterson, editors, Advances in Optical and Photon Migration, volume 21 of OSA TOPS, pages 138--141, 1998.
[2] X. Jin, M. Zhang, G. S. Dong, X. G. Zhu, M. Xu, Y. Chen, X. L. Shen, and Xun Wang. Preparation and structural study of metastable Mn phase grown on GaAs(001) substrate. In Mat. Res. Soc. Symp. Proc., volume 326, page 323, 1994.
[1] M. Zhang, M. Xu, G. S. Sheng, X. G. Zhu, X. Y. Hou, X. Jin, and X. Wang. Chemical reaction and inter-diffusion at the Mn/GaAs(100) interface. In B. Lengeler, H. Lüth, W. Mönch, and J. Pollmann, editors, Proceedings of the 4th International Conference on the Formation of Semiconductor Interfaces, 1993.
Patents
[2] Min Xu. Low coherence enhanced backscattering tomography and techniques. International Patent Application PCT/US2011/036744 filed on 05/17/2011.
[1] R. R. Alfano, M. Xu, M. Alrubaiee, and S. K. Gayen. Optical tomography using independent component analysis for detection and localization of targets in turbid media. US Patent Application US60/633,412 filed on 01/04/2005.
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