Publications

Min Xu

[56]	Xiuwei Zhu, Luyao Lu, Zili Cao, Bixin Zeng, and Min Xu. Transmission matrix-based Electric field Monte Carlo study and experimental validation of the propagation characteristics of Bessel beams in turbid media. Opt. Lett., 43(19):4835, oct 2018. [ DOI \| http ]
[55]	Al Katz, Stephanie Peña, Alexandra Alimova, Paul Gottlieb, Min Xu, and Karin A. Block. Heteroaggregation of an enveloped bacteriophage with colloidal sediments and effect on virus viability. Sci. Total Environ., 637-638:104--111, 2018. [ DOI \| http ]
[54]	Weihao Lin, Bixin Zeng, Zili Cao, Xinlin Chen, Kaiyan Yang, and Min Xu. Quantitative diagnosis of tissue microstructure with wide-field high spatial frequency domain imaging. Biomed. Opt. Express, 9(7):2905--2916, 2018. [ DOI \| http ]
[53]	Zhang Xu, Michael Reilley, Run Li, and Min Xu. Mapping absolute tissue endogenous fluorophore concentrations with chemometric wide-field fluorescence microscopy. J. Biomed. Opt., 22(6):066009, jun 2017. [ DOI \| http ]
[52]	Min Xu. Plum pudding random medium model of biological tissue toward remote microscopy from spectroscopic light scattering. Biomed. Opt. Express, 8:2879--2895, 2017.
[51]	Xinlin Chen, Weihao Lin, Chenge Wang, Shaoheng Chen, Jing Sheng, Bixin Zeng, and M. Xu. In vivo real-time imaging of cutaneous hemoglobin concentration, oxygen saturation, scattering properties, melanin content, and epidermal thickness with visible spatially modulated light. Biomed. Opt. Express, 8:5468--5482, 2017.
[50]	Min Xu. Diagnosis of the phase function of random media from light reflectance. Sci. Rep., 6:22535, 2016.
[49]	I. Zeylikovich and M. Xu. Dynamic coherent backscattering mirror. AIP Advance, 6:025105, 2016.
[48]	M. Xu, Zili Cao, Weihao Lin, Xinlin Chen, Longfei Zheng, and Bixin Zeng. Single snapshot multiple frequency modulated imaging of subsurface optical properties of turbid media with structured light. AIP Advances, 6(12):125208, 2016. [ DOI \| http ]
[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.
[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.
[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.
[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.
[43]	Min Xu. The scattering-phase theorem: anomalous diffraction by forward-peaked scattering media. Opt. Express, 19:21643-21651, 2011.
[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.
[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.
[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.
[38]	Min Xu. Low coherence enhanced backscattering beyond diffusion. Opt. Lett., 33:1246-1248, 2008.
[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.
[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.
[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 ]
[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.
[29]	M. Xu and R. R. Alfano. Random walk of polarized light in turbid media. Phys. Rev. Lett., 95:213905, 2005.
[28]	M. Xu and R. R. Alfano. Fractal mechanisms of light scattering in biological tissue and cells. Opt. Lett., 30:3051-3053, 2005.
[27]	M. Xu and R. R. Alfano. Circular polarization memory of light. Phys. Rev. E, 72:065601(R), 2005.
[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 ]
[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 ]
[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 ]
[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 ]
[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 ]
[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 ]
[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 ]
[18]	M. Xu and R. R. Alfano. More on patterns in Mie scattering. Opt. Comm., 226(1-6):1-5, 2003. [ .pdf ]
[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 ]
[16]	W. Cai, M. Xu, and R. R. Alfano. Three dimensional radiative transfer tomography for turbid media. IEEE JSTQE, 9:189-198, 2003. [ .pdf ]
[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 ]
[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 ]
[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 ]
[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 ]
[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.

[50]	Yang Zheng, Xinlin Chen, Weihao Lin, Zili Cao, Xiuwei Zhu, Bixin Zeng, and M. Xu. Two dimensional microcirculation mapping with real time spatial frequency domain imaging. In High-Speed Biomedical Imaging and Spectroscopy III: Toward Big Data Instrumentation and Management, number 10505 in Proc. SPIE, page 105050X, 2018.
[49]	Weihao Lin, Bixin Zeng, Zili Cao, Danfeng Zhu, and M. Xu. Wide-field high spatial frequency domain imaging of tissue microstructure. In Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XVI, volume 10484 of Proc. SPIE, page 1048416, 2018.
[48]	Bixin Zeng, Jian Liu, Xin Chen, Wenlei Yu, Dandan Wang, Xiuwei Zhu, Weihao Lin, Yang Zheng, and Min Xu. Fermat single pixel camera for characterizing optical properties of biological tissues over the visible to SWIR spectral range. In Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis, volume 10489 of Proc. SPIE, 2018.
[47]	Xinlin Chen, Zili Cao, Weihao Lin, Danfeng Zhu, Xiuwei Zhu, Bixin Zeng, and M. Xu. Microcirculation monitoring with real time spatial frequency domain imaging. In Xingde Li and Qingming Luo, editors, International Conference on Innovative Optical Health Science, volume 10245 of Proc. of SPIE, page 102450J, 2017. [ DOI \| http ]
[46]	Longfei Zheng, Shuangshuang Cai, Bixin Zeng, and Min Xu. Lung cancer diagnosis with quantitative DIC microscopy and support vector machine. In Xingde Li and Qingming Luo, editors, International Conference on Innovative Optical Health Science, volume 10245 of Proc. of SPIE, page 102450K. SPIE, 2017. [ DOI \| http ]
[45]	Run Li, Kevin Vasquez, and M Xu. Chemometric endogenous fluorescence for tissue diagnosis. In Optical Biopsy XV: Toward Real-Time Spectroscopic Imaging and Diagnosis, volume 10060 of Proc. of SPIE, page 1006017, 2017.
[44]	Z. Cao, W. Lin, X. Chen, B. Zeng, and M. Xu. Real-time spatial frequency domain imaging by single snapshot multiple frequency demodulation technique. In Optical Tomography and Spectroscopy of Tissue XII, volume 10059 of Proc. of SPIE, page 100590Z, 2017.
[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]	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.
[41]	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.
[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.

Ying-Chih Chen

Tianjie Chen, Shaoguang Duan, and Y.C. Chen, “Electrodynamics analysis on coherent perfect absorber and phase-controlled optical switch” Journal of Optical Society of America, A, 29, 689-693 (2012). PDF

Fanting Kong, Ronald Silverman, Liping Liu, P. V. Chitnis, Kotik K. Lee, and Y.C. Chen, "Photoacoustic-guided convergence of light through optically diffusive media", Opt. Lett. 36, 203 (2011). PDF

Ronald H. Silverman, Fanting Kong, Harriet O. Lloyd,Y. C. Chen, “Fine-resolution photoacoustic imaging of the eye”, Imaging and Sensing 2010, edited by Alexander A. Oraevsky, Lihong V. Wang, Proc. of SPIE, Vol. 7564, 75640Y (2010) PDF

R H. SILVERMAN, FANTING KONG, Y. C. CHEN, HARRIET O. LLOYD, HYUNG HAM KIM, JONATHAN M. CANNATA, K. KIRK SHUNG, and D. JACKSON COLEMAN, HIGH-RESOLUTION PHOTOACOUSTIC IMAGING OF OCULAR TISSUES, "High-resolution photoacoustic imaging of Ocular tissues", Ultrasound in Med. & Biol., Vol. 36, No. 5, pp. 733–742, (2010) PDF

Fanting Kong, Y. C. Chen, Harriet O. Lloyd, Ronald H. Silverman, Hyung Ham Kim, Jonathan M. Cannataand K. Kirk Shung, “High-resolution photoacoustic imaging with focused laser and ultrasonic beams”, Appl. Phys. Lett., 94, 033902 (2009). PDF

Fanting Kong, Liping Liu, Yi Zhou, Shou-Huan Zhou , Y.C. Chen, “ Phase locking of short-pulse Q-switched lasers” . Opt. Commun. 282, 1622 (2009). PDF

Fanting Kong, Liping Liu, Charlotte Sanders, Y. C. Chen, and Kotik K. Lee, “ Phase locking of nanosecond pulses in a passively Q-switched two-element fiber laser array”, Appl. Phys. Lett., 90, 151110 (2007). PDF

Liping Liu, Yi Zhou, Fanting Kong, Y.C. Chen and K. K. Lee, “Phase locking in fiber laser arrays with varying path lengths”, Appl. Phys. Lett., 85, Nov.28 (2004). PDF

Yi Zhou, Liping Liu, Candice Etson, Yonantan Abranyos, Angela Padilla, and Y.C. Chen, “Phase locking of a two-dimensional laser array by controlling the far field pattern”, Appl. Phys. Lett., 84, 3025 (2004) PDF

Xuecong Zhou, Martin Munoz, Maria Tamargo, and Y.C. Chen, “Optically pumped laser characteristics of blue ZnCdMgSe single quantum well laser grown on InP”, J. Appl. Phys. 95, 7 (2004). PDF

Yi Zhou, Quang Thai, and Y.C. Chen, Zhouhuan Zhou, "Monolithic passively Q-switched Cr, Yb:YAG laser", Optics Communications, 218, 365 (2003). PDF

X. Zhou, M.C. Tamargo, S.P. Guo,and Y.C. Chen, "Optical Properties of CdSe quantum dots grown on ZnSe and ZnBeSe by molecular beam epitaxy", Journal of Electronic Materials, 32, 733-736 (2003). PDF

Y. Luo, S.P. Guo, O. Maksimov, M.C. Tamargo, A. Asnin, F. H. Pollak, and Y.C. Chen, "Patterned three-color ZnCdSe/ZnCdMgSe quantum well structures for integrated full color emitters", Appl. Phys. Lett., 77, 4259 (2000). PDF

M. C. Tamargo, W. Lin, S. P. Guo, Y. Luo, Y. Guo, and Y.C. Chen, "Full-Color light emitting diodes from ZnCdMgSe/ZnCdSe quantum well structures grown on InP substrates.", Journal of Crystal Growth, Vol. 214-215, 1058 (2000). PDF

M.C. Tamargo, W. Lin, S.P. Guo, Y. Y. Luo, O. Maksimov, Y. Guo, and Y.C. Chen, "Wide bandgap II-VI materials for red-green-blue emitters", Proceedings of Opto 99, Havana, Cuba, 1999 (in print)

Tae-ik Park, Godfrey Gumbs, and Y.C. Chen, "Properties of the second-order optical susceptibility c(2) in asymmetric undoped AlGaAs/InGaAs double quantum wells", J. Appl. Phys., 86, 3, 1467 (1999). PDF

Y. Lou, A. Elmoumni, S. P. Guo, M. C. Tamargo, S. Kelly, H. Ghaemi, V. Asnin, M. Tomkiewiz, F. H. Pollak, and Y.C. Chen, "Growth and characterization of patterned ZnCdSe structures for applications in integrated R-G-B II-VI light emitting diodes". J. Vaccum Science and Technology, B 18, 1522 (2000). PDF

Hua Liu, Shou-Huan Zhou, and Y.C. Chen,"Monolithic unstable Q-switched solid-state laser with large Fresnel number" Trends in Optics and Photonics, Volume XIX, p 376-379, Optical Society of America (1998).

Tian-jie Chen and Y.C. Chen "Graded-reflectivity mirror based on a volume hologram in photopolymer film" Appl. Opt. 62 , 37, 6603 ( 1998). PDF

L. Zeng, B.X. Ynag, A. Cavus, W. Lin, Y.Y. Luo, M.C. Tamargo, Y.Guo,and Y.C. Chen," Red-green-blue photopumped lasing from ZnCdMgSe/ZnCdSe quantum well laser structures grown on InP" Appl. Phys. Lett., 72, 3136 (1998). PDF

Hua Liu, Shou-Huan Zhou, and Y.C. Chen, "High-Power Monolithic Unstable-Resonator Solid-State Laser". Opt. Lett., P451-453, March 15, 1998. PDF

Hua Liu, Shou-Huan Zhou, and Y.C Chen, S.H. Zhou, " 946 nm Monolithic Q-switched Cr,Nd:YAG laser" IEEE J. Selected Topics in Quantum Electron., 3 26 -28 1997. PDF

Yong-ming Guo, Gergory Aizin, Y.C. Chen, Linfe Zeng, Abdulah Cavus, and Maria Tamargo, " Photo-pumped ZnCdMgSe blue-green quantum -well lasers grown on InP substrates" Applied Physics Letters, 70, 1351-1353 (1997). PDF

H.B. Serreze, K. Linden, Shou-Huan Zhou, and Y.C. Chen, "Individually-addressable monolithic self-Q- switched solid-state laser array", SPIE proceeding #2698 on laser diode technology and applications, paper 1850, (1996).

P. Wang, S. Zhou, K. K. Lee, and Y.C. Chen,"Picosecond pulse generation in monolithic self-Q-switched Cr,Nd:YAG laser" Opt. Commun, 114, 439 (1995). PDF

Y.C.Chen, S.H. Zhou, K.K. Lee, and P. Wang, "Picosecond laser pulse generation in self-Q- switched soli-state laser", OSA Proceedings on Advanced Solid-state lasers, 24, p 303-305 (1995).

G. Yao, Shouhuan Zhou, P. Wang, K.K. Lee, and Y.C. Chen, "Dynamic of transverse mode in self-Q-switched solid-state lasers", Opt. Commun. 114, 101-104 (1995). PDF

Jingwen Xu, K.K. Lee, and Y.C. Chen, "Phase locking in a two-element laser array with detuning" Opt. Commun. 117 , 198-126 ( 1995). PDF

Y.C. Chen, Shiqun Li, K.K. Lee, and Shouhuan Zhou, "Self-stabilized single longitudinal mode operation in self-Q-switched solid-state lasers", to appear in Opt. Lett., 18, 1418 (1993). PDF

G. Yao, K.K. Lee, Y.C. Chen and S. Zhou, "Characteristics of transverse mode of diode-pumped self-Q-switched microchip laser", OSA Proceeding on Advanced Solid-State Lasers, T.Y. Fan and B.H.T. Chai eds. p.28, 1994.

Shouhuan Zhou, K.K. Lee, Y.C. Chen and S. Li, "Monolithic self-Q-switched Cr,Nd:YAG laser", Opt. Lett. 18, 511 (1993). PDF

H.B. Serreze and Y.C. Chen, "Short red wavelength, high-power, visible AlInGaP laser diodes", SPIE proceeding, January 1993.

Shiqun Li, Shouhuan Zhou, Pei Wang, Y.C. Chen, "Self-Q-switched Cr,Nd:YAG laser", Opt. Lett. 18, 203 (1993). PDF

Jingwen Xu, Shiqun Li, K.K. Lee, and Y.C. Chen,"Phase locking in a two-element laser array", Opt. Lett. 18, 513 (1993). PDF

G. Yao, R.G. Waters, C.M. Harding, and Y.C. Chen,"Excess spontaneous emission factor in unstable-resonator", Opt. Lett. 17, 1207 (1992). PDF

H.B. Serreze, Y.C. Chen, and A. Roseberg, "High-power AlGaInP visible laser diodes and arrays", (Invited paper) SPIE proceeding on Laser diode Technology and Applications", IV, p140 (1992).

H.B. Serreze, Y.C. Chen, and R.G. Waters, "High-power very low threhold GaInP/AlGaInP visible diode lasers", Appl. Phys. Lett., 58, 2464-2467 (1991). PDF

Y.C. Chen, P. Wang, R.G. Waters, J.J. Coleman, D.P. Bour, K.K. Lee, and R.G. Waters, "Carrier recombination rate in strained-layer InGaA/GaAs quantum wells", IEEE J. Quantum Electron.: Special Issue on Semiconductor Lasers, QE-22, 1452-1454 (1991). PDF

H. G. Serreze and Y.C. Chen,"Low threshold current density, strained-layer GaInP/AlGaInP visible laser diodes", IEEE Photonic Technology Letters. 3, 397-400 (1991). PDF

C.M. Harding, Y.C. Chen, R.J. Dalby, and R.G. Waters, "Low-divergence single-mode ridge waveguide diode lasers, IEEE Photonic Technology Letters., 3, 199-201 (1991). PDF

Y.C. Chen, R.G. Waters, K.K. Lee and P. Wang, "Energy storage in quantum well lasers", Optics Letters, 15, 1073-1075 (1990). PDF

P. Wang, R.G. Waters, K.K. Lee, G. Yao, and Y.C. Chen,"Carrier recombination rate in GaAs/AlGaAs single-quantum-well lasers under high levels of excitation" , Appl. Phys. Lett., 56, 2083-2085 (1990). PDF

S.L. Yellen, R.G. Waters, Y.C. Chen, B.A. Soltz, S.E. Fischer, D. Fekete, J.M. Ballantyne, "20,000 hr InGaAs strained quantum well laser", Electron. Lett., 26, 2083-2085 (1990).PDF

Y.C. Chen, R.G. Waters, and R.J. Dalby, "Single-quantum-well laser with vertically integrated passive waveguides", Appl. Phys. Lett., 56, 1409-1411 (1990).PDF

Y.C. Chen, R.G. Waters, and R.J. Dalby,"Single quantum well laser with 11-degree transverse beam divergence", Electron. Lett., 26, 1350-1352 (1990).PDF

R.G. Waters, R.J. Dalby and Y.C. Chen,"Quantum-well manifold laser", Proceeding of SPIE, Symposium on Semiconductor laser Technology and Applications, Vol. 1219, p. 71-73 (1990).

K.K. Lee and Y.C. Chen,"Tunable narrow bandpass optical filter and their applications", submitted to Applied Optics, 1991.

K.K. Lee and Y.C. Chen,"Frequency Stabilization of Semiconductor Lasers", in Proceedings of 1989 International School of Lasers and Applications , ed. by H.D. Lu. World Sci. Publisher. (1990).

S.E. Fisher, R.G. Waters, D. Fekete, J.M. Ballantyne, Y.C. Chen and B.A. Soltz, "Long-lived InGaAs quantum well lasers", Appl. Phys. Lett., 54, 1861-1863 (1989).PDF

Y. C. Chen and J. M. Liu, "Polarization bistability in semiconductor lasers: rate-equation analysis", Appl. Phys. Lett., 50, 1406-1408 (1987). PDF

J.M. Liu, Y.C. Chen and M. Newkirk, "Carrier-induced phase shift and absorption in a semiconductor laser waveguide", Appl. Phys. Lett., 50, 947-949 (1987).PDF

Y.C. Chen and J. M. Liu, "Switching mechanism in polarization-bistable semiconductor lasers", Optical and Quantum Electronics, Special issue on bistable semiconductor lasers, Vol. 19, 895-900 (1987).

J.M. Liu, Y.C. Chen and S. F. Wayne "Internal stress distribution in semiconductor lasers", Appl. Phys. Lett., 49, 895-897 (1986).PDF

Y.C. Chen and H.G. Winful, "Irregular oscillation of semiconductor lasers under modulation", SPIE proceeding, Volume 716, 152-154 (1986).

A. Le Floch, G. Ropars, R. Le Naour, and Y. C.Chen and J.M. Liu, "Inhibition mechanism in polarization bistable semiconductor lasers", IEEE J. Quantum Electron., QE-23, 1027-1030 (1987).PDF

H.G. Winful, Y.C. Chen and J.M. Liu,"Frequency locking and chaos in modulated self-pulsing semiconductor lasers", Appl. Phys. Lett., 48, 616-618 (1986). PDF

Y.C. Chen and J.M. Liu, "Measurement of picosecond semiconductor laser pulse duration using internally generated second harmonic emission", Y.C. Chen and J.M. Liu, Appl. Phys. Lett., 47, 662-664 (1985). PDF

Y.C. Chen and H.G. Winful, "Quasiperiodic route to chaos in semiconductor lasers under large signal current modulation", in Optical Bistability III, H.M. Gibbs, ed., Springer-Verlag, New York, pp290-293 (1986).

Y.C. Chen, H.G. Winful, and J. M. Liu, "Subharmonic bifurcations and irregular pulsing behavior in modulated semiconductor lasers", Appl. Phys. Lett. 47, 208-210 (1985). PDF

J.M. Liu and Y.C. Chen, "Optical flop-flop', Electron. Lett., 21, 236-237 (1985). PDF

Y.C. Chen and J.M. Liu, "Polarization bistability in semiconductor lasers', Appl. Phys. Lett., 46, 16-18 (1985). PDF

H.G. Winful and Y.C. Chen,"Effect of noise on the bifurcation to chaos in modulated semiconductor lasers", in Optical Instabilities, R.W. Boyd, M.G. Raymer, L.M. Narducci, eds., Cambridge University Press, P385-386, (1985).

J.M. and Y.C. Chen, "Digital optical signal processing with polarization bistable semiconductor lasers" IEEE J. Quantum Electron., QE-21, 298-302 (1985). PDF

J.M. Liu and Y.C. Chen,"Compensation of internal thermal stress in InGaAsP semiconductor lasers for polarization stabilization", IEEE J. Quantum. Electron., QE-21, 271-275 (1985). PDF

Y.C. Chen and J.M. Liu, "Direct polarization switching in semiconductor lasers", Appl. Phys. Lett., 45, 604-606 (1984).PDF

Y.C. Chen, "Phase noise characteristics of single mode semiconductor lasers with optical feedback", Appl. Phys Lett., 44, 10-12 (1984). PDF

Y.C. Chen and J.M. Liu, "Temperature dependent polarization behavior in semiconductor lasers", Appl. Phys. Lett., 45, 731-733 (1984). PDF

J.M. Liu and Y.C. Chen, "Internal thermal stress and polarization anomaly in InGaAsP lasers", Mat. Res. Soc. Symp. Proc., Vol. 37, 59-62 (1985).

J.M. Liu and Y.C. Chen, "New Optoelectronic logic gates and memory functions based on polarization-defined logic", SPIE Proc., Vol. 551, adaptive optics, p.140-143 (1985).

Y.C. Chen, A.R. Reisinger, and D. Pendse, "Observation of changes of laser beam characteristics of oxide-defined, narrow-stripe lasers after aging", IEEE J. Quantum Electron., QE-19, 1092-1094 (1983). PDF

Y.C. Chen A.R. Reisinger, and S.R. Chinn, "Thermal waveguiding in large-optical-cavity narrow stripe lasers", Appl. Phys. Lett., 41, 129-131 (1983). PDF

Y.C. Chen, "Extinction ratios of stripe-geometry lasers with soft turn-on", IEEE J. Quantum Electron., QE-17, 2262-2263 (1981). PDF

Y.C. Chen, "Noise characteristics of semiconductor lasers coupled to short optical fibers", Appl. Phys. Lett., 37, 587-589 (1980). PDF

Y.C. Chen, "Intensity fluctuations of semiconductor lasers", Optical Spectra, 9, 38-39 (1980).

Y.C. Chen, K.Chiang, and S.R. Hartmann, "Relaxation and spectroscopic characteristics of the 3H 3P0 transition in :LaF 3:Pr3+ measured by the photon echo technique", Phys. Rev., B21, 40-45 (1980). PDF

Y.C. Chen, K. Chiang, and S.R. Hartmann, "Photon echo relaxation in the 3H4-3P0 transition of LaF3:Pr3+", Opt. Commu., 29, 181-184 (1979).PDF

Y.C. Chen,"Photon echoes in praseodymium doped lanthanum trifluoride", Ph.D. Thesis, Columbia University, (1978).

Y.C. Chen, K. Chiang, and S.R. Hartmann, "Photon echo decay as a modulation process in the 3H4-1D2 transitions of LaF3:Pr3+", Opt. Commun., 26, 269-272 (1978).

Y.C. Chen and S.R. Hartmann, "Photon echo modulation in LaF3:Pr3+ in magnetic field", Phys. Lett., 58, 201-203 (1976). PDF

N. Takeuchi, S. Chandra, Y.C. Chen and S.R. Hartmann, "Photon exhoes in Nd3+:YAG and Nd3:Cawo4", Phys. Lett., 46A, 97-99 (1973). PDF

Mark Hillery

1.	Searches on star graphs and equivalent oracle problems by J. Lee, Hai-Woong Lee and Mark Hillery, Phys. Rev. A 83, 022318 (2011).
2.	Toward protocols for quantum-ensured privacy and secure voting by Marianna Bonanome, Vladimir Buzek, and Mario Ziman, Phys. Rev. A 84, 022332 (2011).
3.	Quantum tests for the linearity and permutation invariance of Boolean functions by Mark Hillery and Erika Andersson, Phys. Rev. A 84, 062329 (2011).
4.	Quantum walks as a probe of structural anomalies in graphs by Mark Hillery, Hongjun Zheng, Edgar Feldman, Daniel Reitzner, and Vladimir Buzek, Phys. Rev. A 85, 062325 (2012).
5.	Quantum algorithms for testing and learning Boolean functions by Dominik Floss, Erika Anderson, and Mark Hillery, Mathematical Structures in Computer Science 23, 386 (2013).
6.	Maximum quantum violations of a class of Bell inequalities by V. Ugur Guney and Mark Hillery, Phys. Rev. A 87, 052126 (2013).
7.	Extracting information from a qubit by multiple observers: Toward a theory of sequential state discrimination by Janos Bergou, Edgar Feldman, and Mark Hillery, Phys. Rev. Lett. 111, 100501 (2013).
8.	Finding structural anomalies in star graphs using quantum walks by Seth Cottrell and Mark Hillery, Phys. Rev. Lett. 112, 030501 (2014).
9.	Bell inequalities from group actions of single-generator groups by V. Ugur Guney and Mark Hillery, Phys. Rev. A 90, 062121 (2014).
10.	Bell inequalities from group actions: Three parties and non-Abelian groups by V. Ugur Guney and Mark Hillery, Phys. Rev. A 91, 052110 (2015).
11.	Coherence as a resource in decision problems: The Deutsch-Jozsa algorithm and a variation by Mark Hillery, Phys. Rev. A 93, 012111 (2016).
12.	Relations between coherence and path information by Emilio Bagan, Janos Bergou, Seth Cottrell, and Mark Hillery, Phys. Rev. Lett. 116, 160406 (2016).
13.	Retrodiction of a sequence of measurement results in qubit interferometers by Mark Hillery and Daniel Koch, Phys. Rev. A 94, 032118 (2016).

Steve Greenbaum

Janos Bergou

1.	J. Sólyom and J. Bergou, Reduced zero-point spin contraction in impure antiferro-magnets, Journal de Physique C1 32, 89-90 (1971).
2.	J. Bergou, Gy. Farkas, and Z. Gy. Horváth, The probability distribution of optical field emission counts, Acta Phys. Hung. 32, 319-322 (1972).
3.	J. Bergou and T. Salamon, Oscillating transition probability for photoelectron emission, Preprint KFKI-72-18, Budapest, 1972.
4.	J. Bergou, Non-perturbative approaches to the semiclassical theory of multiphoton ionization, Preprint KFKI-73-22, Budapest, 1973.
5.	J. Bergou and J. Rónaky, Calculation of the Faraday signal of a magneto-optical memory in the presence of magnetic circular dichroism, Preprint KFKI-74-38, Budapest, 1974; and Optica Applicata V, 61-63 (1975).
6.	J. Bergou, Approximative methods in the semiclassical theory of multiphoton processes, Acta Phys. Hung. 39, 183-190 (1975).
7.	J. Bergou, Charged particle scattering in the presence of an external electromagnetic field, Preprint KFKI-75-83, Budapest, 1975; and Acta Phys. Hung. 40, 55-61 (1976).
8.	Bergou J., Rózsa K., Tóth J., Folytonos gázlézer longitudinális üreges katóddal (Szabadalom, sz.: 10882/75 1975); CW gas laser with longitudinal hollow cathode, patent (1975).
9.	Bergou J., Fényszórás kétatomos molekulákon (Light scattering on diatomic molecules, in Hungarian), Magyar Fizikai Folyóirat (Hungarian Journal of Physics} XXV/1, 1-40 (1977).
10.	J. Bergou and A. Goltsov, Cross section of light scattering on diatomic molecules in the singlet state, Preprint D. Ph. S. P. A., 1-9, Saclay, 1977.
11.	Bergou J., Csillag L., Jánossy M., Rózsa K., Gázlézer a lézer erösítésének és teljesítményének növelésére, (Szabadalom, sz.: MA-2861, 1977); Gas laser to increase amplification and power of the laser, patent (1977).
12.	K. Rózsa, M. Jánossy, J. Bergou, and L. Csillag, Noble gas mixture hollow-cathode laser with internal anode system, Opt. Commun. 23, 15-18 (1977).
13.	K. Rózsa, M. Jánossy, L. Csillag, and J. Bergou, CW aluminium ion laser in a high voltage hollow-cathode discharge, Phys. Lett. 63A, 231-232 (1977).
14.	K. Rózsa, M. Jánossy, L. Csillag, and J. Bergou, CW CuII laser in a hollow anode-cathode discharge, Opt. Commun. 23, 162-164 (1977).
15.	J. Bergou, M. Jánossy, K. Rózsa, and L. Csillag, High voltage hollow-cathode lasers for spectroscopy, Proceedings of the 3. Fachtagung für Laserspektroskopie, Graz, 1978; Acta Phys. Austriaca, Suppl. XX, 273-280 (1979).
16.	M. Jánossy, K. Rózsa, L. Csillag, and J. Bergou, New cw laser lines in a noble gas mixture high voltage hollow cathode discharge, Phys. Lett. 68A, 317-319 (1978).
17.	K. Rózsa, J. Bergou, M. Jánossy, and J. K. Mizeraczyk, Effect of anode geometry on voltage of a hollow cathode discharge, Preprint KFKI-1979-14, Budapest (1979).
18.	Bergou J., A lézer kvantumelektronikája, E. W. Aslaksen: Kvantum-elektronika c. könyv 7., kiegészítö fejezete, 88-98 old. (Müszaki Kiadó, Budapest, 1978); Quantum electronics of the laser, Chapter 7, additional ch., to E. W. Aslaksen, Quantum electronics (in Hungarian).
19.	J. Bergou, Special aspects of freee electrons in intense fields, Proceedings of the Symposium on “Laser Physics”, pp. 49-56 (Budapest, May 15-16, 1979).
20.	M. Jánossy, K. Rózsa, L. Csillag, and J. Bergou, Noble gas mixture hollow cathode ion lasers, Proceedings of the Symposium on “Laser Physics”, pp. 57-65 (Budapest, May 15-16, 1979).
21.	L. Csillag, M. Jánossy, K. Rózsa, and J. Bergou, Results and perspectives of hollow cathode gas lasers, Proc. of “Lasers ‘79, Opto-Electronics” Conf., Munich, 1979 (IPC Science and Technology Press, England, 1979), pp. 89-93.
22.	J. Bergou, Wavefunctions of a free electron in an external field and their applications in intense field interactions, I. Nonrelativistic treatment, Preprint KFKI-1979-69, Budapest, 1979; and J. Phys. A: Math. Gen. 13, 2817-2822 (1980).
23.	J. Bergou and S. Varró, Wavefunctions of a free electron in an external field and their application in intense field interactions, II. Relativistic treatment, Preprint KFKI-1979-70, Budapest 1979; and J. Phys. A: Math. Gen. 13, 2823-2837 (1980).
24.	J. Bergou and S. Varró, Optically induced band structure of free electrons in an external plane wave field, Preprint KFKI-1980-10, Budapest, 1980; and J. Phys. A: Math. Gen. 13, 3553-3559 (1980).
25.	J. Bergou and S. Varró, Nonlinear scattering processes in the presence of a quantized radiation field, I. Nonrelativistic treatment, Preprint KFKI-1980-14, Budapest, 1980; and J. Phys. A: Math. Gen. 14, 1469-1482 (1981).
26.	J. Bergou and S. Varró, Momentum distribution of free electrons in an intense radiation field, Technical Digest of 2nd International Conference on Multiphoton Processes (Budapest, 1980, paper A-2).
27.	J. Bergou and S. Varró, Quantum mechanical states of the system “electron + quantized radiation mode”, ibid, paper A-3.
28.	S. Varró and J. Bergou, Behaviour of free electrons in quantized electromagnetic environment, Abstract of EKON-80 (Poznan, 1980), paper B-64.
29.	J. Bergou, S. Varró, and M. V. Fedorov, e-e Scattering in the presence of an external field, Preprint KFKI-1980-53, Budapest, 1980; and J. Phys. A: Math. Gen. 14, 2305-2315 (1981).
30.	J. Bergou and S. Varró, Nonlinear scattering processes in the presence of a quantized radiation field, II. Relativistic treatment, Preprint KFKI-1980-54, Budapest, 1980; and J. Phys. A: Math. Gen. 14, 2281 (1981).
31.	J. Bergou, F. Ehlotzky, and S. Varró, Charged particle scattering in a magnetic and a laser field and nonlinear bremsstrahlung, Proc. of SASP (Maria Alm, 1982), pp. 195-199.
32.	J. Bergou and F. Ehlotzky, Behaviour of a model atom in a uniform magnetic and a laser field, ibid, pp. 200-204.
33.	J. Bergou and S. Varró, On the quantum mechanical states of a free charged particle in a uniform magnetic field and a laser field, J. Phys. B: At. Mol. Phys. 15, L179-L184 (1982).
34.	J. Bergou and F. Ehlotzky, Exact quantum mechanical states of a model atom in a uniform magnetic field and in a laser field, J. Phys. B: At. Mol. Phys. 15, L185-L189, (1982).
35.	Bergou J., Elektrodinamika lézerterekben (Electrodynamics in laser fields, in Hungarian), Magyar Fizikai Folyóirat XXXII, 1-55 (1982).
36.	Bergou J. Káosz optikai rendszerekben (Chaos in optical systems, in Hungarian), in the Proceedings of “Winter School on Statistical Physics II: Chaos” (Akadémiai Kiadó, Budapest, 1982), pp. 1-16.
37.	J. Bergou, F. Ehlotzky, and S. Varró, Charged particle scattering in a magnetic and a laser field and nonlinear bremsstrahlung, Phys. Rev. A 26, 470 (1982).
38.	F. A. Hopf and J. Bergou, Analytic solution of a laser amplifier with a delayed swept-gain boundary, Opt. Lett. 7, 411 (1982).
39.	J. Bergou and S. Varró, Nonlinear bremsstrahlung of electrons in the presence of a magnetic and a laser field, Appl. Phys. B 28, 105 (1982).
40.	J. Bergou, S. Varró, Gy. Farkas, and M. V. Fedorov, Absorption and stimulated emission of quanta of an external inhomogeneous electromagnetic field by a free electron, Sov. Phys. JETP 58, 33 (1983).
41.	J. Bergou and F. Ehlotzky, Relativistic quantum states of a particle in an electromagnetic plane wave and a homogeneous magnetic field, Phys. Rev. A 27, 2291 (1983).
42.	A. P. Kazantsev, V. L. Pokrovsky, and J. Bergou, Rydberg atoms in weak magnetic fields, Phys. Rev. A 28, 3659 (1983).
43.	J. Bergou, Gauge invariance and gauge independence in optical transitions, J. Phys. B 16, L647 (1983).
44.	S. Varró, F. Ehlotzky, and J. Bergou, Scattering of light by an electron in the presence of a magnetic field and a strong microwave field, J. Phys B 17, 483 (1984).
45.	R. R. Schlicher, W. Becker, J. Bergou, and M. O. Scully, Interaction Hamiltonian in quantum optics or p.A vs. E.r revisited, in Quantum Electrodynamics and Quantum Optics, NATO ASI series vol. 110, ed. A. O. Barut (Plenum, N.Y., 1984), p. 405.
46.	J. Bergou and F. Ehlotzky, Potential scattering of relativistic electrons in the simultaneous presence of a laser and a magnetic field, in “Coherence and Quantum Optics”, vol. 5, p. 825 (Proc. of 5th Rochester Conference on Coherence and Quantum Optics, June 13-15, 1983), eds. L. Mandel and E. Wolf (Plenum, NY, 1984).
47.	J. Bergou, Rydberg atoms in weak magnetic fields, Proc. of Symp. on Atomic and Surface Physics (Maria Alm/Salzburg, 1984), ed. F. Howorka, Univ. Innsbruck Press, 1984, p. 354.
48.	J. Bergou and M. O. Scully, Multistability in an optical waveguide with nonlinear boundaries, Acta Phys. Austriaca 57, 139 (1985).
49.	K. Rózsa, P. Apai, M. Jánossy, J. Bergou, K. Fujii, G. Rubin, M. B. Denton, H. Phillips, and F. A. Hopf, The effect of oxide coating on the performance of the Al hollow cathode discharge, in Proc. of XVII. Intl. Conf. on Phenomena in Ionized Gases, vol. 2, p. 931 (1985).
50.	J. Bergou and F. Ehlotzky, Potential scattering of electrons in a quantized radiation field, Phys. Rev A 33, 3054 (1986).
51.	J. Bergou and F. Ehlotzky, Radiative properties of a model atom in external fields, J. Phys. B. 19, 3227 (1986).
52.	J. Bergou and M. O. Scully, An example of symmetry breaking in nonlinear optics, in Frontiers of Nonequilibrium Statistical Physics, eds. G. T. Moore and M. O. Scully, NATO ASI series, vol. 135 (Plenum, N. Y., 1986), p. 375.
53.	P. Kálmán and J. Bergou, Internal conversion in an intense radiation field, Phys. Rev. C 34, 1024 (1986).
54.	F. A. Hopf, J. Bergou, and S. Varró, Transient and asymptotic small signal gain in laser amplifiers, Phys. Rev A 34, 4821 (1986).
55.	J. Bergou, Quenching of quantum noise and detection of weak optical signals in the quantum beat laser, in “Fundamentals of Quantum Optics”, ed. F. Ehlotzky (Springer, 1987), p. 280.
56.	J. Bergou, P. Dobiasch, M. O. Scully, and J. M. O’Hare, Theory of the slab waveguide with nonlinear boundaries: Guided TE modes in a symmetric slab, Preprint, Center for Advanced Studies (1987).
57.	J. Bergou, M. O. Scully, and J. M. O’Hare, On the intrinsic properties of nonlinear TE waves guided by a symmetric slab, Preprint, Center for Advanced Studies (1987).
58.	M. O. Scully and J. Bergou, Correlated emission gyro, in Technical Digest of XV. Intl. Quantum Electronics Conference (April 26-May 1, 1987, Baltimore), p. 72.
59.	J. Bergou and M. Orszag, Dynamically correlated spontaneous emission laser: Theory and comparison with experiment, Journ. Opt. Soc. Am. B 5, 249 (1988).
60.	M. O. Scully, K. Wódkiewicz, M. S. Zubairy, J. Bergou, N. Lu, and J. Meyer ter Vehn, Two-photon correlated spontaneous emission laser: Quantum noise quenching and squeezing, Phys. Rev. Letts. 60, 1832 (1988).
61.	J. A. Bergou, M. Orszag, and M. O. Scully, Correlated emission laser: Nonlinear theory of the quantum beat laser, Phys. Rev. A 38, 754 (1988).
62.	J. Bergou and M. Orszag, Correlated emission laser: Theory of the quantum beat micromaser, Phys. Rev. A 38, 763 (1988).
63.	J. Bergou, M. Orszag, and M. O. Scully, Correlated emission laser: Phase noise quenching via coherent pumping and the effect of atomic motion, Phys. Rev. A 38, 768 (1988).
64.	J. Bergou, M. Orszag, M. O. Scully, and K. Wódkiewicz, Squeezing and quantum-noise quenching in phase-sensitive optical systems, Phys. Rev. A 39, 5136 (1989).
65.	N. Lu, F.-X. Zhao, and J. Bergou, Nonlinear theory of a two-photon correlated spontaneous emission laser: A coherently pumped two-level two-photon laser, Phys. Rev. A 39, 5189 (1989).
66.	M. Orszag, J. Bergou, W. Schleich, and M. O. Scully, The correlated spontaneous emission laser: Theory and recent developments, invited paper in "Squeezed and nonclassical light," edited by P. Tombesi and E. R. Pike (Plenum, London, 1989), p.287.
67.	F.-X. Zhao, M. Orszag, J. Bergou, and S.-Y. Zhu, Enhanced transient squeezing in the Jaynes-Cummings model with atomic coherence, Physics Lett. A 137, 479 (1989).
68.	J. Bergou, L. Davidovich, M. Orszag, C. Benkert, M. Hillery, and M. O. Scully, Influence of the pumping statistics in lasers and masers, Optics Commun. 72, 82 (1989).
69.	N. Lu and J. Bergou, Quantum theory of a laser with injected atomic coherence: Quantum noise quenching via nonlinear process, Phys. Rev. A 40, 237 (1989).
70.	N. Lu and J. Bergou, Effects of a squeezed vacuum on a laser exhibiting phase locking: An application to a laser with injected atomic coherence, Phys. Rev. A 40, 250 (1989).
71.	J. Bergou, N. Lu, and M. O. Scully, The two-photon correlated spontaneous emission laser in a squeezed vacuum, Optics Commun. 73, 57 (1989).
72.	J. Bergou, L. Davidovich, M. Orszag, C. Benkert, M. Hillery, and M. O. Scully, Role of pumping statistics in maser and laser dynamics: Density matrix approach, Phys. Rev. A 40, 5073 (1989).
73.	C. Benkert, M. O. Scully, J. Bergou, L. Davidovich, M. Hillery, and M. Orszag, Role of pumping statistics in laser dynamics: Quantum Langevin approach, Phys. Rev. A 41, 2756 (1990).
74.	C. Benkert, M. O. Scully, J. Bergou, and M. Orszag, Squeezing and quantum noise quenching in masers and lasers through atomic coherence and pump noise reduction, Phys. Rev. A 41, 4062 (1990).
75.	J. Bergou, Role of pump statistics in maser and laser dynamics, invited paper at the 10th Intl. School of Coherent Optics "Quantum Optics II" (Ustron, Poland, Sept. 19-26, 1989), Acta. Phys. Pol. A 78, 49 (1990).
76.	J. Bergou and M. O. Scully, Quantum theory of the Hanle laser and its use as a metric gravity probe, invited paper in "Level crossing spectroscopy," edited by F. Strumia and P. M. Moruzzi (Plenum, London, 1990), p. 341.
77.	J. Bergou, C. Benkert, L. Davidovich, M. O. Scully, S. Y. Zhu, and M. S. Zubairy, Double two-photon correlated spontaneous emission lasers as bright sources of squeezed light, Phys. Rev. A 42, 5544 (1990).
78.	J. Bergou, M. Hillery, and D. Yu, Minimum uncertainty states for amplitude-squared squeezing: Hermite polynomial states, Phys. Rev. A 43, 515 (1991).
79.	L. Z. Wang, S.-Y. Zhu, and J. Bergou, Generation of sub-Poissonian photon statistics in a two-level atomic oscillator, Phys. Rev. A 43, 2436 (1991).
80.	J. Bergou and P. Kálmán, Effect of pump statistics on the micromaser, Phys. Rev. A 43, 3690 (1991).
81.	J. Bergou and P. Bogár, Quantum theory of a noninversion laser with injected atomic coherence, Phys. Rev. A 43, 4889 (1991).
82.	G. S. Agarwal, J. Bergou, C. Benkert, and M. O. Scully, Noise quenching in lasers and masers by strong coherent pumping, Phys. Rev. A 43(RC), 6451 (1991).
83.	J. Bergou and B.-G. Englert, Operators of the phase: Fundamentals, Annals of Physics 209, 479 (1991).
84.	J. Bergou and M. Hillery, Pump-coupled masers: Transient regime, Phys. Rev. A 44, 7502 (1991).
85.	S.-Y. Zhu, M. S. Zubairy, C. Su, and J. Bergou, Effects of regular pumping on photon statistics in masers and lasers, Phys. Rev. A 45, 499 (1992).
86.	M. Hillery, D. Yu, and J. Bergou, Quadratic squeezing: An overview, in Proc. of Workshop on Squeezed States and Uncertainty Relations, Univ. of Maryland, College Park, MD, March 28-30, 1991 (NASA Conference Publications # 3135, 1992), p. 125.
87.	M. Orszag, S.-Y. Zhu, J. Bergou, and M. O. Scully, Noise reduction, lasing without inversion, and pump statistics in coherently prepared l quantum beat media, Phys. Rev. A 45, 4872 (1992).
88.	T. Quang, G. S. Agarwal, J. Bergou, M. O. Scully, and H. Walther, Calculation of the micromaser spectrum. I. Green’s-function approach and approximate analytical techniques, Phys. Rev. A 48, 803 (1993).
89.	J. Bergou and M. Hillery, From sub-Poissonian to super-Poissonian pumping in the micromaser: Corrections to reservoir theory, Phys. Rev. A 49, 1214 (1994).
90.	M. Hillery, D. Yu, and J. Bergou, Effect of the pump state on the behavior of the degenerate parametric amplifier, Phys. Rev. A 49, 1288 (1994).
91.	P. Bogár, J. Bergou, and M. Hillery, Quantum island states in the micromaser, Phys. Rev A 50, 754 (1994).
92.	J. Bergou, J. Zhang, and A. Hourri, Nonlinear theory of a laser with injected atomic coherence, Phys. Rev A 50, 4188 (1994).
93.	P. Bogár, J. Bergou, Pump-coupled micromasers: Entangled trapping states of nonlocal fields, Phys. Rev. A 51, 2381 (1995).
94.	P. Bogár, J. Bergou, and M. Hillery, Pump-coupled high-Q micromasers with conditional measurements of atoms: Transient and steady state entanglement of nonlocal fields, Phys. Rev. A 51, 2396 (1995).
95.	J. Bergou, Sub-Poissonian photon statistics in the micromaser, Quantum and Semiclassical Optics 7, 327 (1995).
96.	J. Bergou and P. Bogár, Atomic coherence in lasers and masers, Quantum and Semiclassical Optics 7, 343 (1995).
97.	J. Bergou and D. Zhao, Effect of a squeezed vacuum input on optical bistability, Phys. Rev. A 52, 1550 (1995).
98.	J. Bergou and P. Bogár, Entangled fields and entangled atoms: tools to test fundamentals of quantum mechanics, Acta Physica Slovaca 45, 217 (1995).
99.	P. Bogár and J. Bergou, Quantum state engineering in pump-coupled micromasers, Annals of the New York Academy of Sciences 755, 110 (1995).
100.	J. Bergou, J. Zhang, and C. Su, Field dynamics, instabilities and phase squeezing in the two-photon correlated emission laser, Phys. Rev. A 52, 3183 (1995).
101.	M. Hillery, D. Yu, and J. Bergou, The role of the pump state in the parametric amplifier, Phys. Rev. A 52, 3209 (1995).
102.	M. Artoni and J. Bergou, Non-classical effects in resonance fluorescence from optical molasses, Phys. Rev. A 53, 424 (1996).
103.	P. Bogár and J. Bergou, Entanglement of atomic beams: Tests of complementarity and other applications, Phys. Rev. A 53, 49 (1996).
104.	M. Artoni and J. Bergou, Fermi’s golden rule and atomic decay in a phase-sensitive reservoir, Quantum and Semiclassical Optics 8, 387 (1996).
105.	J. Bergou, Entangled field states in multiple micromaser cavities and fundamental tests of quantum mechanics, Acta Physica Slovaca 46, 241 (1996).
106.	U. Herzog and J. Bergou, Non-Markovian micromaser field dynamics due to non-Poissonian pumping, Acta Physica Slovaca 46, 399 (1996).
107.	U. Herzog and J. Bergou, Non-Markovian dynamics of the micromaser due to discrete and continuous non-Poissonian pumping, Phys. Rev. A 54, 5334 (1996).
108.	U. Herzog and J. Bergou, Reflection of the Jaynes-Cummings dynamics in the spectrum of the regularly pumped micromaser, Phys. Rev. A 55, 1124 (1997).
109.	J. Bergou and M. Hillery, Generation of highly entangled field states in multiple micromaser cavities, Phys. Rev. A 55, 4585 (1997).
110.	J. Bergou, Quantum optics as a conceptual testing ground, Acta Physica Slovaca 47, 185 (1997).
111.	U. Herzog and J. Bergou, Nonclassical maximum-entropy states, Acta Physica Slovaca 47, 327 (1997).
112.	P. Bogár and J. Bergou, Two-mode lasing without inversion with injected atomic coherence, Phys. Rev. A 56, 1012 (1997).
113.	U. Herzog and J. Bergou, Nonclassical maximum-entropy states, Physical Review A 56, 1658 (1997).
114.	J. Bergou, Entangled fields in multiple cavities as a testing ground for quantum mechanics, J. Mod. Opt. 44, 1957 (1997).
115.	B.-G. Englert and J. Bergou, Heisenberg's dog and quantum computing, J. Mod. Opt. 45, 701 (1998).
116.	Y. Abranyos, M. Jakob, and J. Bergou, Quantum eraser and the decoherence time of a local measurement process, Acta Physica Slovaca 48, 255 (1998).
117.	J. Bergou and T. Geszti, Komplementaritás, Complementarity, quantum eraser and interaction-free measurement: what the new interference experiments tell us about the foundation of quantum mechanics (in Hungarian), plenary lecture at the Annual Meeting of the Hungarian Physical Society (Gödöllö, August 26-29 1998), published in Fizikai Szemle (Hungarian Physical Review) 50, 76 (1999).
118.	J. Bergou and P. Bogár, Phase structures in the micromaser photon statistics, Zeitschrift für Naturforschung 54a, 39 (1999).
119.	J. Bergou, Entangled fields in multiple cavities as a testing ground for quantum mechanics, Foundations of Physics 29(4), 503 (1999).
120.	J. Bergou, M. Jakob, and Y. Abranyos, Resonance fluorescence of a trapped four-level atom with bichromatic driving, Acta Physica Slovaca 49, 501 (1999).
121.	Y. Abranyos, M. Jakob, and J. Bergou, Quantum eraser as a testing ground of a measurement process, Phys. Rev. A 60, R2618 (1999).
122.	M. Jakob and J. Bergou, Resonance fluorescence spectra and squeezing properties of a bichromatically driven four-level atom, Phys. Rev. A 60, 4179 (1999).
123.	Y. Abranyos, M.Jakob, and J. Bergou, Interference and partial which way information: A quantitative test of duality in two atom resonance fluorescence, Phys. Rev. A 61, 013804 (2000).
124.	J. Bergou, M. Hillery, and Y. Sun, Nonunitary transformations in quantum mechanics: an optical realization, J. Mod. Opt. 47, 487 (2000).
125.	J. Bergou, M. Hillery, and P. Bogár, Pump-coupled micromasers: coherent and incoherent coupling, Optics Commun. 179, 289 (2000).
126.	B.-G. Englert and J. Bergou, Quantitative quantum erasure, Optics Commun. 179, 337 (2000).
127.	J. Bergou, B.-G. Englert, M. Lax, M. O. Scully, H. Walther, and M. S. Zubairy, Quantum theory of the laser, Ch. 26, invited review article in OSA Handbook of Optics, vol. IV, ed. F. Bass (McGraw-Hill, New York, 2001) pp. 26/1-26/101.
128.	Bergou J., Relativitáselmélet (J. Bergou, The theory of relativity, textbook in Hungarian), Budapest, Tankönyvkiadó (Textbook Publishers), 2000.
129.	U. Herzog and J. Bergou, Quantum limited linewidth of a good-cavity laser: An analytical theory from near to far above threshold, Phys. Rev. A 62, 063814 (2000).
130.	M. Jakob, Y. Abranyos, and J. Bergou, Comparative study of hyperbunching in the fluorescence from a bichromatically driven atom, Journal of Optics B: Quantum and Semiclassical Optics 3, 130 (2001).
131.	Y. Sun, M. Hillery, and J. Bergou, Optimum unambiguous discrimination between linearly independent nonorthogonal quantum states and its optical realization, Phys. Rev. A 64, 022311 (2001).
132.	Y. Abranyos, M. Jakob, and J. Bergou, Quantum measurement apparatus with a squeezed reservoir: Control of decoherence and nonlocality in phase space, Phys. Rev. A 64, 062102 (2001).
133.	J. Bergou, J. Gea-Banacloche, and M. O. Scully, CEL gyroscope with injected squeezed vacuum, Journal of Modern Optics 49, 453 (2001).
134.	J. Bergou, M. Hillery, and Y. Sun, Optimum discrimination of nonorthogonal quantum states: An optical realization, Fortschritte der Physik 49, 915 (2001).
135.	T. Bükki, P. Kálmán, and J. Bergou, Nuclear-coupled Rabi flopping, Phys. Rev. A 65, 045402 (2002).
136.	U. Herzog and J. Bergou, Minimum-error discrimination between subsets of linearly dependent quantum states, Phys. Rev. A 65, 050305(R) (2002); quant-ph/0112171.
137.	M. Jakob and J. A. Bergou, Polarization-correlated photon pairs in the fluorescence from a bichromatically driven four-level atom, J. Opt. B: Quantum Semiclass. Opt. 4, 308 (2002).
138.	M. Jakob, Y. Abranyos, and J. Bergou, Degree of entanglement in a quantum-measurement process, Phys. Rev. A 66, 022113 (2002); quant-ph/0204054.
139.	Y. Sun, M. Hillery, and J. Bergou, Optimum unambiguous discrimination between sets of nonorthogonal quantum states, Phys. Rev. A 66, 032315 (2002); quant-ph/0112051.
140.	M. Jakob and J. Bergou, Quantitative conditional quantum erasure in two-atom resonance fluorescence, Phys. Rev. A 66, 062107 (2002).
141.	J. Bergou, U. Herzog, and M. Hillery, From unambiguous quantum state discrimination to quantum state filtering, Fortschritte der Physik 51, 73 (2003).
142.	U. Herzog and J. Bergou, Minimum-error strategy for discriminating between subsets of nonorthogonal quantum states, Fortschritte der Physik 51, 139 (2003).
143.	J. Bergou, U. Herzog, and M. Hillery, Quantum state filtering and discrimination between sets of Boolean functions, quant-ph/0209007; Physical Review Letters 90, 257901 (2003).
144.	M. Hillery, J. Bergou, and E. Feldman, Quantum walks based on an interferometric analogy, quant-ph/0302161; Physical Review A 68, 032314 (2003).
145.	M. Jakob and J. Bergou, Quantitative complementary relations in bipartite systems, quant-ph/0302075 (2003); submitted to Physical Review A (2004).
146.	J. Bergou, U. Herzog, and M. Hillery, Discrimination of quantum states, Ch. 11: invited review article in Lecture Notes in Physics vol. 649: Quantum state estimation, M. Paris and J. Rehacek eds. (Springer, Berlin, 2004) pp. 417-465.
147.	J. Bergou, Discrimination of quantum states and probabilistic quantum algorithms, Proc. of SPIE 5472, 266-274 (2004).
148.	M. Mohseni, A. Steinberg, and J. Bergou, Optical realization of optimal unambiguous discrimination for pure and mixed quantum states, quant-ph/0401002, Physical Review Letters 93, 200403 (2004).
149.	U. Herzog and J. Bergou, Distinguishing mixed quantum states: Minimum-error discrimination versus optimum unambiguous discrimination, quant-ph/0403124; Physical Review A 70, 022302 (2004).
150.	E. Andersson, J. Bergou, and I. Jex, Comparison of unitary transforms using Franson interferometry, Journal of Modern Optics 52, 1485 (2005).
151.	J. Bergou and. M. Hillery, A universal programmable quantum state discriminator that is optimal for unambiguously distinguishing between unknown states, Physical Review Letters 94, 160501 (2005).
152.	J. Bergou, U. Herzog, and M. Hillery, Optimal unambiguous filtering of a quantum state: An instance in mixed state discrimination, Physical Review A 71, 042314 (2005).
153.	U. Herzog and J. Bergou, Unambiguous discrimination of mixed quantum states, quant-ph/0502117, Physical Review A 71, 050301R (2005).
154.	J. Bergou, Programmable state discriminators for the optimum discrimination of unknown quantum states, Proc. of SPIE 5842, 119-131 (2005).
155.	J. Bergou and M. Hillery, Quantum state filtering applied to the discrimination of Boolean functions, Physical Review A 72, 012302 (2005).
156.	I. Nemeth and J. Bergou, Quantum theory of the coherently pumped micromaser I: Model and steady state solution, Physical Review A 72, 023823 (2005).
157.	J. Bergou, The role of noise in quantum communication, AIP Conference Proceedings 800, 31-38 (2005).
158.	U. Herzog and J. Bergou, Optimum measurement for unambiguously discriminating two mixed states: General considerations and special cases, quant-ph/0510170, to appear in Journal of Physics A (2006).
159.	J. Bergou and L. Kish, An absolutely secure QKD scheme with no detection noise, entanglement and classical communication, quant-ph/0505097; submitted to Physics Letters A (2005).
160.	J. Bergou, E. Feldman, and M. Hillery, Unambiguous discrimination of two subspaces, submitted to Physical Review A (2005).
161.	I. Nemeth and J. Bergou, Quantum theory of the coherently pumped micromaser II: Phase properties, submitted to Physical Review A (2005).
162.	H. Adamyan, J. A. Bergou, N. Gevorgyan,
163.	M. Jakob and J. Bergou, Complementarity defines quantitative entanglement measures, submitted to Physical Review A (2005).
164.	M. Jakob and J. Bergou, Complementarity in nÄm-dimensional composite quantum systems, submitted to Physical Review Letters (2005).
165.	I. Nemeth and J. Bergou, Quantum theory of the coherently pumped micromaser III: Transient behavior and spectrum, in preparation (2006).
166.	J. Bergou, V. Buzek, E. Feldman, U. Herzog, and M. Hillery, Programmable quantum state discriminators with simple programs, submitted to Phys. Rev. A (2006).
167.	J. Bergou and U. Herzog, Field correlations and spectral properties of the two-photon micromaser: quasi-exact results, in preparation (2006).
168.	O. Cizmeci, J. Bergou, and M. S. Zubairy, Quantum Theory of a One Atom Laser, in preparation (2006).
169.	Bing He and J. Bergou, A programmable state discriminator with multiple copies of the program state, in preparation (2006).
170.	J. Bergou, E. Feldman, and S. Probst, A programmable state discriminator for qudits, in preparation (2006).
171.	J. Bergou, E. Feldman, and M. Hillery, A programmable state discriminator for the discrimination of more than two unknown states, in preparation (2006).

Godfrey Gumbs

Frank Owens

1.	Application of SERS for Ultra Sensitive Detection of Small Molecules, Chapter in SERS Methods, Analysis and Research, Edited by V. Bhardwai, Nova Science Publishers, 2017
2.	Modelling Boron Doped Carbon and Boron Nitride Nanostructures as Catalysts at the Cathode in Fuel Cells, F. J. Owens, chapter in Boron Nitride, Synthesis and Applications, Edited by E. Morgan, Nova Science Publishers, 2017
3.	Density Functional Theory Modelling of Boron Doped Carbon Nanostructures as Catalysts in Fuel Cells, F. J. Owens, Advanced Nano Energy 1, 39 (2017)
4.	Modelling Boron Nitride Nanostructures as Catalysts in Fuel Cells, F. J. Owens, Molecular Simulation 43, 24 (2017)
5.	Structure and Stability of Solvation Complexes of Trimethyl Phosphate and Dimethyl Methyl Phosphate, F. J. Owens, International Journal of Quantum Chemistry 2017
6.	On the Possibility of Planar Graphyne and Graphdiyne Chains, Frank J. Owens, Solid State Comm. 250, 71 (2017)
7.	Modeling Electrocatalytic Activity of Nitrogen Radicals, Frank J. Owens, International Res. Journal of Pure and Applied Chemistry 12(2) 1 (2016)
8.	Boron-Filled Hybrid Carbon Nanotubes, Rajen Patel, Tsengming Chou, Alokik Kanwal, David Apigo, Joseph Lefebvre, Frank Owens, and Zafar Iqbal Scientific Reports 6,30495 (2016)
9.	Prediction of Electrocatalytic Activity of Some Nitrogen Doped Polyaromatic Hydrocarbons By Molecular Modeling, F. J. Owens. Molecular Simulation 42, 976 (2016)
10.	Electronic Structure of Phospherene Nanoribbons, F. J. Owens, Solid State Communications , 223, 37 (2015)
11.	Raman and Surface Enhanced Raman Spectroscopy Evidence for Oxidation Induced Decomposition of Graphite, F.J. Owens, Molecular Physics, 113, 1208 (2015)
12.	Pentacene and Poly-Pentacene: as Graphene Nanoribbons, F. J. Owens, Solid State Comm. 185, 58 (2014)
13.	Prediction of Unusual Curled Nitrogen Oligomers, F. J. Owens, Chem. Phys. Lett. 583.20 (2014)
14.	Defect Induced Distortion in Graphene and Boron Nitride Nanoribbons M. Miller and F.J. Owens , Chem. Phys. Lett. 570, 42 (2013)
15.	Evidence for Stable High Temperature Ferromagnetism in Fluorine Treated C60, R. Patel and F. J. Owens, J of Materials, 2013, 261304 (2013)
16.	On the Possibility of Ferromagnetism in Nanosized CuCl2, F.J. Owens, J. of Nanoparticles 2013, 756473 (2013)
17.	Ferromagnetism in Thermally Decomposed Polyimide Films, F. J. Owens and R. Patel, J. of Macromolecular Science B52, 1 (2012)
18.	Application of Self Consistent Reaction Field Theory to Thermally Induced Exothermic Reactions in Energetic Molecules, M. Miller and F. J. Owens, Computational and Theoretical Chemistry 989 ,86 (2012)
19.	Stability of Functionalized C60 Paramagnetic Dimers and Monomers, M. Miller and F. J. Owens Chemical Physics 394,52 (2012)
20.	Ferromagnetism in Carbon and Boron Nitride Nanostructures, F.J. Owens, R. Patel and M. Miller in Magnetic Nanoparticles: Properties, Synthesis and Applications, Nova Science Publishers (2012) ed by B. Acklin and E. Lautens
21.	Paramagnetic Resonance as a Probe of the Spin Gap in the Normal State of Hg-Pb-Ba-Ca-Cu ISNR Condensed Matter Physics.929713 (2011)
22.	Evidence of Laser Induced Decomposition of Triaminotrinitrobenzene from Surface Enhanced Raman Spectroscopy, F. J. Owens, Molecular Physics 109, 2587 (2011)
23.	Tuning Electronic and magnetic properties of Boron Nitride Nanotubes, M. Miller and F. J. Owens,. Solid State Communications 151, 1001 (2011)
24.	Ferromagnetic Resonance of Magnetic field Aligned Iron Nanoparticles, F. J. Owens, NanoScience and Technology Lett. 3, 1 (2011)
25.	Prediction of a Free Standing Nitrogen Oligomer, F. J. Owens ,Computational and Theoretical Chemistry , 137, 966 (2011)
26.	Increasing the B/N Ratio in Boron Nitride Nanoribbons, a Possible Approach to Dilute Magnetic Semiconductors, F. J. Owens, Molecular Physics, 20 1527 (2011)
27.	High Temperature Magnetic Order in Zinc Sulphide Doped with Copper, F. J. Owens et. al. J. Phys. Chem. Solids 72, 648 (2011)
28.	Reprodicible Surface Enhanced Raman Spectroscopy of Small Molecular Anions, F. J. Owens, Molecular Physics 109, 667 (2011)
29.	On the Possibility of Zigzag and Armchair Silicon Nanoribbons having the Graphene , Structure, M. Miller and F. J. Owens Chem. Phys 381, 1 (2011)
30.	Room Temperature Ferromagnetism in Cu-doped ZnO Synthetized from CuO and ZnO Nanoparticles , Journal of Magnetism and Magnetic Materials 321, 3734 (2009)
31.	NMR and Raman Measurements of Single Walled Carbon Nanotube Composites of Polybutadience, G. D. Bennett, S. G. Greenbaum and F. J. Owens ,Journal of Materials Research 24, 2215 (2009)
32.	Ferromagnetic Resonance of Field Aligned Fe2O3 Nanoparticles ,Evidence of a Phase Transition, Journal of Magnetism and Magnetic Materials 321, 2386 (2009)
33.	Effect of Oxidation of Graphene Nanoribbons on Electronic and Magnetic Properties, F. J. Owens, Molecular Physics 106, 2441 (2008)
34.	Electronic and Magnetic Properties of Armchair and Zigzag Graphene Nanoribbons. F. J. Owens J. Chem..Phys.. 128, 19470 (2008)
35.	Characterization and Intrinsic Magnetic properties of Nickel Nanoparicles, F. J. Owens and V. Stepanov, Journal of Experimental Nanoscience 3, 141 (2008)
36.	Structural and Ferromagnetic Properties of Cu Doped GaN. B. Seiepel , F.J. Owens et. al. J. Mater Res. 22 ,1396 (2007)
37.	Boron and Nitrogen Doped Single Walled Carbon Nanotubes as Possible Dilute Magnetic Semiconductors, Nano Research Letters 2,447 (2007)
38.	In situ synthetized Iron -multiwalled Carbon Nanotube with Enhanced Mechanical Properties, A. Goyal, D.A.Wiegand, F.J. Owens , Z. Iqbal, Chem. Phys. Lett 442, 365 (2007)
39.	Enhanced Yield Strength in Iron Nanocomposites with in situ grown Single walled Carbon Nanotubes, A. Goyal, D.A.Wiegand, F.J. Owens ,Z. Iqbal, J. Mater. Res. 21, 1 (2006)
40.	Evidence for High Temperature Ferromagnetism in Photolyzed C60, F. J. Owens, Z. Iqbal, L. Belova and K. V. Rao, Phys. Rev
41.	Ferromagnetism Tailored Above Room Temperature in Bulk and Thin Films of Mn doped ZnO, P. Sharma, A. Gupta, K. V. Rao, F. J. Owens, R. Ahuja, B. Johansson, G. Gehring, Nature Materials 2, 639 (2003)
42.	High Temperature Ferromagnetism In Bulk Sintered Gallium Phosphide Doped with Manganese, F. J. Owens, J. Phys. Chem. Solids. 66,793 (2005)
43.	High Temperature Ferromagnetism in Cu Doped GaP by SQUID Magnetometry and Ferromagnetic Resonance Measurements, A. Gupta, F. J. Owens and K. V. Rao, Phys. Rev B74, 224449 (2006)

Yuhang Ren

1.	“Engineering nanoscale polarization at the SrTiO3/Ge interface”, T. Le, O. Kurt, J. Ouyang, J. J. Wang, L. Q. Chen, E. L. Lin, J. G. Ekerdt, and Y. H. Ren*, Scripta Materialia 178, 489-492 (2020).
2.	“Strain Engineering of Dischargeable Energy Density of Ferroelectric Thin-Film Capacitors”, J. J. Wang, Y. J. Su, B. Wang, J. Ouyang, Y. H. Ren, and L. Q. Chen, Nano Energy, 72, 104665 (2020).
3.	“Local structural changes due to the electric field‐induced migration of oxygen vacancies at Fe‐doped SrTiO3 interfaces”, David Ascienzo, Onur Kurt, Steve Greenbaum, Thorsten J. M. Bayer, Maier Russell, Jianjun Wang, Clive A. Randall, and Yuhang Ren*, Journal of the American Ceramic Society, 102, 4353-4366 (2019).
4.	“Analysis of ferroelectric nanostructures—spectroscopic methods/second harmonic generation polarimetry”, Y. H. Ren, Nanostructures in Ferroelectric Films for Energy Applications, 339-357 (2019).
5.	“Detection of Nanoscale Structural Defects in Degraded Fe-Doped SrTiO3 by Ultrafast Photoacoustic Waves”, Y. Zhang, O. Kurt, D. Ascienzo, Q. Yang, T. Le, S. G. Greenbaum, T. J. M. Bayer, C. A. Randall, Y. H. Ren*, The Journal of Physical Chemistry C, 122, 12864 (2018).
6.	“Optimization of the defects and nonradiative lifetime of undoped GaAs/AlGaAs double heterostructures”, Z. Cevher, P. Folkes, H. Hier, B. VanMil, B. C. Connelly, W. Beck, and Y. H. Ren*, Journal of Applied Physics 123, 161512 (2018).
7.	“Formation of structural defects and strain in electrodegraded Fe‐doped SrTiO3 crystals due to oxygen vacancy migration”, D. Ascienzo, O. Kurt, S. Greenbaum, T. J. M Bayer, R. A Maier, C. A. Randall, Y. H. Ren*, Journal of the American Ceramic Society, 101, 2545 (2018).
8.	“Demonstration of ultra-high recyclable energy densities in domain-engineered ferroelectric films”, H. B. Cheng, J. Ouyang, Y. X. Zhang, D. Ascienzo, Y. Li, Y. Y. Zhao and Y. H. Ren, Nature Communications, 8, 1999 (2017).
9.	“Nonlinear optical detections of structural distortions at degraded Fe-doped SrTiO3 interfaces” O. Kurt, D. Ascienzo, S. Greenbaum, T. J. M. Bayer, C. A. Randall, N. Madamopoulos, Y. H. Ren*, Materials Chemistry and Physics, 198, 131 (2017).
10.	“Experimental demonstration of 55-fs spin canting in photoexcited iron nanoarrays”, Yuhang Ren*, Wei Lai, Zehra Cevher, Yu Gong, and G. P. Zhang, Applied Physics Letters, 110, 082404 (2017).
11.	Probing electrocolored Fe-doped SrTiO3 bulks using optical second harmonic generation”, D. Ascienzo, S, Greenbaum, T.J.M. Bayer, C. A. Randall, Y. H. Ren*, Acta Materialia, 126, 520 (2017).
12.	Printable and flexible phototransistors based on blend of organic semiconductor and biopolymer”, J. Huang, J. Du, Z. Cevher, Y. H. Ren, X. Wu, Y. Chu, Advanced Functional Materials, 27, 1604163 (2017).
13.	“Investigation of electric field–induced structural changes at Fe-doped SrTiO3 anode interfaces by second harmonic generation”, D. Ascienzo, H. Yuan, S. Greenbaum, T.J.M. Bayer, R. A. Maier, J. J. Wang, E. C. Dickey, H. B. Zhao, and Y. H. Ren*, Materials 9, 883 (2016).
14.	“Observation of structural inhomogeneity at degraded Fe-doped SrTiO3 interfaces”, D. Ascienzo, S. Greenbaum, T.J.M. Bayer, R. Maier, C. A. Randall, Y. H. Ren*, Applied Physics Letters 109, 031602 (2016).
15.	Energy barrier at the N719-dye/CsSnI3 iterface for photogenerated holesin dye-sensitized solar cells, Jin Zhang, Chunhui Yu, Lili Wang, Yizhi Li, Yuhang Ren, Kai Shum, Scientific Reports, 4, 6954 (2014).
16.	Ultrafast optical detection of magnetic inhomogeneity in ferromagnetic La0.67Ca0.33MnO3, Y. Gong, Z. Zhang, D. Ascienzo, Y. Abranyos, H. B. Zhao, G. Lupke, Qi Li, Y. H. Ren, Europhysics Letters, 108, 17010 (2014).
17.	One-pot synthesis and characterization of chalcopyrite CuInS2 nanoparticles, Chivin Sun, Zehra Cevher, Jin Zhang, Bo Gao, Kai Shum, and Yuhang Ren, J. Mater. Chem. A, 2, 10629 (2014).

1.	"¹⁴NQR Study of Substituted Anilines and Prediction of in vitro Activity of Sulfanilamides" with S.N. Subbarao, P.J. Bray, and T. Oja, Organic Magnetic Resonance 14, 379 (1980).
2.	"¹⁴N Nuclear Quadrupole Resonance in Carcinostatic Phosphamides", with P.J. Bray, Physics Letters 75A, 438 (1980).
3.	"¹⁴N Nuclear Quadrupole Resonance in N-Acetyl Amino Acids", with G.F. Sadiq and P.J. Bray, Organic Magnetic Resonance 17, 191 (1981).

1.	Physics Of Low Dimensional Solids by F. J. Owens (World Scientic Publishing) in press
2.	Physics Of Magnetic Nanostructures by F. J. Owens (John Wiley & Sons, 2008)
3.	Physics And Chemistry Of Nanosolids by F. J.Owens and C. P. Poole, (John Wiley & Sons,2008)
4.	Introduction To Nanotechnology by C.P. Poole and F. J. Owens, (John Wiley & Sons 2003)
5.	Electromagnetic Absorption In Copper Oxide Superconductors by F. J. Owens and C.P. Poole, (Plenum Publishing,1999)
6.	The New Superconductors - by F. J.Owens & C .P Poole (Plenum Publishing,1996)
7.	Vibrational Spectroscopy Of Phase Transitions - Edited by Z. Iqbal and F. J. Owens (Academic Press,1984)
8.	Magnetic Resonance Of Structural Phase Transitions - Edited by F. J. Owens, C .P.Poole and H.A. Farach (Academic Press,1979)