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`Address:
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`Education:
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`ALEXANDER VLADIMIR SERGIENKO
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` Department of Electrical and
`(617) 353-‐6564 (office)
`Tel.:
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`(617) 262-‐3403 (home)
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`Computer Engineering
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`(617) 353-‐6440
`Fax:
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`Boston University
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`E-‐mail: AlexSerg@bu.edu
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`8 Saint Mary’s Street
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`URL: http://people.bu.edu/alexserg
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`Boston, MA 02215-‐2421
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`Ph.D., 1987, Moscow State University, Russia, Physics
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`M.S., 1981, Moscow State University, Russia, Physics
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`5/2003 – present Boston University, Department of Electrical and Computer
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`Engineering, Professor.
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`5/2003 – present Boston University, Department of Physics, Professor.
`9/1996 – present Boston University, Photonics Center, Faculty.
`1/2011 – 12/2011 Visiting Professor and Quantum Optics Lecturer, Department of
`Engineering Information (DEI), University of Padua, Italy
`11/2006–10/2009Quantum Information Partners LLP, Partner
`7/2006 – 10/2009 London Quantum Networks Ltd, Member Advisory Board
`1/2002 – 12/2005 Elsag S.p.A. Genoa, Italy, Consultant.
`9/2000 – 4/2003 Boston University, Department of Electrical and Computer
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`Engineering, Associate Professor.
`9/2000 – 4/2003 Boston University, Department of Physics, Associate Professor.
`10/1999 – 5/2001 MagiQ Technologies, Somerville, Massachusetts, Consultant.
`9/1996 -‐ 8/2000 Boston University, Department of Electrical and Computer
`Engineering, Assistant Professor.
`10/1993 -‐ 8/1996 University of Maryland Baltimore County, Department of Physics,
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`Research Assistant Professor.
`06/1993 -‐ 8/1996 National Institute of Standards and Technology, Physics Laboratory,
`Guest Researcher.
`6/1991 -‐ 9/1993 University of Maryland Baltimore County, Department of Physics,
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`Faculty Research Associate.
`9/1990 -‐ 5/1991 University of Maryland College Park, Department of Physics and
`Astronomy, Visiting Professor.
`4/1987 -‐ 8/1990 Moscow State University, Physics Department, Assistant Professor.
`2/1981 -‐ 3/1987 Moscow State University, Physics Department, Faculty Research
`Assistant.
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`Professional Positions:
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`Capella 2024
`Fujitsu v. Capella
`IPR2015-00727
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`ALEXANDER V. SERGIENKO
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` Optical Society of America – Fellow, Chair of the Quantum Computing and Communication
`Technical Group
`American Physical Society
`IEEE\LEOS
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`2010 Outstanding Referee -‐ American Physical Society
`2004 Fellow of the Optical Society of America
`2001 Professor of the Year Award in Recognition of Excellence in Teaching, College of
`Engineering, Boston University.
`1999 NSF CAREER award.
`
` "Optical Measurement" (SC764), “Quantum Optics” (SC762),
`“Introduction to Photonics” (EC560) for graduate students, “Analog Electronics” (SC412),
`“Introduction to Electronics”(SC410), “Electrical Circuit Theory” (EK307), for
`undergraduate students at Boston University. "Electromagnetic Theory" for undergraduate
`students at the University of Maryland Baltimore County. "Basic Radiophysics" at the
`undergraduate level at Moscow State University. "Laser Spectroscopy" and "Nonlinear
`Optics" at the graduate level at Moscow State University. Initiated and supervised a
`graduate student laboratory on "Laser Spectroscopy".
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` Quantum state engineering, entanglement manipulation and processing on a chip,
`micro-‐and nano-‐photonics, ultrafast quantum optics.
`• Quantum information processing, quantum cryptography and communication, quantum
`networking, linear-‐optical quantum computing.
`• Quantum imaging.
`• Ultra-‐precise optical measurement in science and technology (quantum metrology),
`characterization of organic, polymer, and semiconductor structures used in modern
`biophysics, nanophotonics, and optoelectronics.
`• Dispersion cancellation and management, super-‐resolution phase sensors.
`• Precise characterization of polarization and chromatic dispersion in elements of 40Gb/s
`and 100 Gb/s metropolitan ROADM telecommunication networks including WSS and
`add-‐drop multiplexers.
`• Quantum nanoscale sensors, and sensor networks.
`• Quantum bio-‐photonics, characterization and diagnostic of biological materials and
`devices for life sciences and proteomics by exploiting the power of entangled-‐photon
`states.
`• Correlation spectroscopy with superconducting photon-‐counting detectors.
`• Study of fundamental optical interactions (quantum light -‐ quantum system) and
`quantum surface effects.
` Research Experience:
`Experimental quantum optics and quantum information
`processing, bio-‐photonics, ultra-‐precise optical measurement (quantum metrology), multi-‐
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`Research Interests:
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`Professional Societies:
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` CURRICULUM VITAE
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`Honors:
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`Professional Activities:
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` Teaching Experience:
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`Research Support:
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`Patents:
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`ALEXANDER V. SERGIENKO
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`spectral imaging and correlation spectroscopy. Laser physics and nonlinear optics of
`continuous wave and pulsed processes, parametric optical amplifiers and oscillators,
`ultrafast single photon detection and remote laser sensing, correlation spectroscopy and
`quantum radiometry in visible and infrared spectrum.
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`More than $9M in completed and current research grants from the Government and
`industry.
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`1. David Simon, Alexander Sergienko, Lee Edvin Goldstein, and Robert H.
`Webb“Correlation Confocal Microscope”, U.S. Patent Number US 8,829415 B2,
`September 9, 2014.
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`2. R. Wolleschensky M. Kempe, Magued B. Nasr, A. F. Abouraddy, M. C. Booth, B. E. A.
`Saleh, A. V. Sergienko, and M. C. Teich, “Methods and Systems for Microscopic
`Imaging” International Patent application WO 03/0606120. Pending.
` 3. M. C. Teich, B. E. A. Saleh, A. V. Sergienko, J. T. Fourkas, R. Wolleschensky, M. Kempe,
`and M. C. Booth, "High-‐Flux Entangled Photon Generation via Parametric Processes
`in a Laser Cavity," U.S. Patent Number 6,982,822, January 3, 2006.
` 4. Teich, Malvin C.; Saleh, Bahaa E A.; Sergienko, Alexander V.; Abouraddy, Ayman F.;
`Nasr, Magued B., “Quantum Optical Coherence Tomography Data Collection
`Apparatus and Method for Processing Therefore”, United States Patent 6882431,
`April 19, 2005.
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`5. K. C. Toussaint, A. F. Abouraddy, A. V. Sergienko, B. E. A. Saleh, and M. C. Teich
`“Entangled Photon Ellipsometry”, US Patent No. 6,822,739, November 24 2004.
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`6. A. V. Sergienko, B. E. A. Saleh, M. C. Teich, S. J. Bielagus, M. J. Merhar, ‘’Polarization
`Mode Dispersion Characterization Apparatus and Method’’ US Patent No. 6,646,727
`November 11, 2003.
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`7. D. N. Klyshko, A. A. Malygin, A. N. Penin, A. V. Sergienko, G. Kh. Kitaeva, M. V.
`Chekhova and S. P. Kulik "A Method for the Measurement of Spatial Distribution of
`Photodetectors Absolute Sensitivity and Device for Its Realization", Russia Patent
`No. 2030715, March 10, 1995.
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`8. G. Kh. Kitaeva, A. N. Penin, A. V. Sergienko, and A. V. Shepelev "A Method for the
`Measurement of Time Parameters of Optical Processes and Photoelectric Devices",
`USSR Patent No. 51533534, September 1, 1989.
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` “H-‐Index” = 47 (Google Scholar) (10196 citations)
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`ALEXANDER V. SERGIENKO
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`Book Chapters:
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`Alexander Sergienko, Saverio Pascazio, and Paolo Villoresi, (Eds.) “Quantum
`Communication and Quantum Networking”, Springer, New York, ISBN 978-‐3-‐642-‐
`11730-‐5 (2009).
`Alexander V. Sergienko ed. “Quantum Communications and Cryptography”, CRC Press,
`Taylor & Francis Group, New York, ISBN 0-‐8483-‐3684-‐8, (2006).
`1. David Simon, Gregg Jaeger and Alexander V. Sergienko. “Quantum Information In
`Communication and Imaging“, International series on Modern Physics, World
`Scientific, Singapore, (2013).
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`2. Zachary D. Walton, Alexander V. Sergienko, Bahaa E. A. Saleh, and Malvin C. Teich,
`“Noise-‐Immune Quantum Key Distributions”, in “Quantum Communications and
`Cryptography”, CRC Press, Taylor & Francis Group, New York, ISBN 0-‐8483-‐3684-‐8,
`(2006).
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`3. Alexander V. Sergienko “Quantum Measurement With Entangled-‐Photon States”, in
`“Quantum Information Processing & Communications in Europe”, European
`Communities Publication Office, Brussels, November (2005). ISBN 92-‐894-‐8924-‐3
`[http://www.cordis.lu/ist/fet/qipc-‐eu.htm]
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`4. A. V. Sergienko, G. S. Jaeger, G. Di Giuseppe, B. E. A. Saleh, and M. C. Teich “Quantum
`Information Processing and Precise Optical Measurement With Hyper-‐Entangled
`Quantum States”, in NATO Advance Study Institute “Quantum Communication and
`Information Technologies”, Ankara, Turkey,
`June 2002, Kluwer Academic
`Publishers, Dordrecht, ISBN 1-‐4020-‐1453-‐8 (2003), pp. 13-‐46.
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`5. A. V. Sergienko “Quantum Metrology With Entangled Photons”,
`in CXLVI
`International School of Physics "Enrico Fermi", T. J. Quinn, S. Leschiutta, and P.
`Tavella (Eds.), IOS Press, Amsterdam ISBN 1 58603 167 8 (2001), pp. 715-‐746.
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`6. G. S. Jaeger and A. V. Sergienko “Multi-‐Photon Quantum Interferometry”, in E. Wolf,
`“Progress in Optics” 42, Elsevier Science B.V. ISBN 0 444 50908 9 (2001), pp. 277-‐
`324.
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` 1. David S. Simon, Casey Fitzpatrick, and Alexander V. Sergienko, “Discrimination and
`synthesis of recursive quantum states in high-‐dimensional Hilbert spaces”, Physical
`Review A, v. 91, 043806 (2015).
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`2. Casey A. Fitzpatrick, David S. Simon, Alexander V. Sergienko ''High-‐capacity imaging and
`rotationally insensitive object identification with correlated orbital angular momentum
`states'', International Journal of Quantum Information, v.13, 1560013, (2015).
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`Publications in Refereed Journals:
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`3. Gregg S. Jaeger and Alexander V. Sergienko ''Entanglement sudden death: a threat to
`advanced quantum key distribution?'' Natural Computing, .v. 13, pp. 459-‐467 (2014).
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`4. Alexander V. Sergienko, Néstor Uribe-‐Patarroyo, Andrew Fraine, David S. Simon, and
`Olga Minaeva ''Efficient Identification of Objects Carrying Elements of High-‐Order
`Symmetry By Using Correlated Orbital Angular Momentum (OAM) States,'' European
`Physical Journal, EPJ Web of Conferences v. 78, 01008 (2014).
` 5. David Simon, Gregg Jaeger, and Alexander Sergienko ''Quantum information in
`communication and imaging, '' International Journal of Quantum Information, v.12,
`143004 (2014).
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`6. David S. Simon and Alexander V. Sergienko, ''High Capacity Quantum Key Distribution
`via Hyperentangled Degrees of Freedom'', New Journal of Physics, v.16, 063052 (2014).
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`7. David S. Simon, Gregg Jaeger, and Alexander V. Sergienko, ''Entangled-‐Coherent-‐State
`Quantum Key Distribution with Entanglement Witnessing'', Physical Review A, v. 89,
`012315 (2014).
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`8. Luca Mazzarella, Francesco Ticozzi, Alexander V. Sergienko, Giuseppe Vallone, Paolo
`Villoresi, ''Asymmetric Architecture for Heralded Single Photon Sources'', Physical
`Review A, v. 88, 023848 (2013).
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`9. Gregg Jaeger, David Simon, and Alexander V. Sergienko, ''Implications of
`Disentanglement and Locality Induction for Quantum Information Processing and
`Cryptography, '' Quantum Matter v. 2, 427-‐435 (2013).
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`10. Carsten Schuck, Wolfram H. P. Pernice, Olga Minaeva, Mo Li, Gregory Gol’tsman,
`Alexander V. Sergienko, and Hong X. Tang, ''Matrix of integrated superconducting
`single-‐photon detectors with high timing resolution'', IEEE Transactions on Applied
`Superconductivity, v. 23, No 3, 2201007 (2013).
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`11. David S. Simon, Nate Lawrence, Jacob Trevino, Luca Dal Negro, Alexander V. Sergienko,
`''High-‐capacity quantum Fibonacci coding for key distribution'' Physical Review A, v. 87,
`033212 (2013).
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`12. M. Minozzi, S. Bonora, A. V. Sergienko, G. Vallone, and P. Villoresi, ''Optimization of Two-‐
`Photon Wavefunction in Parametric Down Conversion by Adaptive Optics Control of the
`Pump Radiation''. Optics Letters, v. 38, No. 4, pp. 489-‐491 (2013).
`13. Nestor Uribe-‐Patarroyo, Andrew Fraine, David S. Simon, Olga Minaeva, Alexander V.
`Sergienko, ''Object identification using correlated orbital angular momentum states''
`Physical Review Letters, v.110, 043601 (2013).
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`14. W. Pernice, C. Schuck, O. Minaeva, M. Li, G.N. Goltsman, A.V. Sergienko, H. X. Tang, ''High-‐
`speed and high-‐efficiency travelling wave single-‐photon detectors embedded in
`nanophotonic circuits'', Nature Communications v. 3, 1325, 27 Dec. 2012 (DOI:
`10.10308).
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`15. A. Fraine, O. Minaeva, D.S. Simon, R. Egorov, and A.V. Sergienko, ‘’Broadband source of
`polarization entangled photons’’ Optics Letters, v. 37, No. 11, pp. 1910-‐1912 (2012).
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`16. David S. Simon and Alexander V. Sergienko, ‘’Two-‐Photon Spiral Imaging with
`Correlated Orbital Angular Momentum States’’, Physical Review A v. 85, 043825 (2012).
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`17. A. Fraine, O. Minaeva, D.S. Simon, R. Egorov, and A.V. Sergienko, ''Evaluation of
`Polarization Mode Dispersion in a Telecommunication Wavelength Selective Switch
`Using Quantum Interferometry'', Optics Express, v. 20, No. 3, pp. 2025-‐2033 (2012).
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`18. A. Fraine, D.S. Simon, O. Minaeva, R. Egorov, and A.V. Sergienko, ‘’Precise evaluation of
`polarization mode dispersion by separation of even-‐ and odd-‐order effects in quantum
`interferometry,’’ Optics Express v. 19, No. 21, pp.22820-‐22836 (2011).
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`19. Kam Wai Clifford Chan, D. S. Simon, A. V. Sergienko, Nicholas D. Hardy, Jeffrey H.
`Shapiro, P. Ben Dixon, Gregory A.Howland, John C. Howell, Joseph H. Eberly, Malcolm N.
`O’Sullivan, Brandon Rodenburg, and Robert W. Boyd ''Theoretical analysis of quantum
`ghost imaging through turbulence,'' Physical Review A 84, 043807 (2011).
`20. P. Ben Dixon, Gregory Howland, Kam Wai Clifford Chan, Colin O'Sullivan-‐Hale, Brandon
`Rodenburg, Nicholas D. Hardy, Jeffrey H. Shapiro, D. S. Simon, A. V. Sergienko, R. W.
`Boyd, John C. Howell, ''Quantum Ghost Imaging through Turbulence'', Physical Review A
`Rapid Communications v. 83, 051803 (2011).
`21. D. S. Simon and A. V. Sergienko ''Correlated-‐Photon Imaging with Cancellation of Object-‐
`Induced Aberration'', J. Opt. Soc. Am. B, v. 28, pp. 247-‐252 (2011).
`22. D. S. Simon and A. V. Sergienko “Twin-‐Photon Confocal Microscopy”, Optics Express v. 18,
`No. 21, pp. 22147–22157 (2010).
`23. D. S. Simon and A. V. Sergienko ''Odd-‐order Aberration-‐Cancellation in Correlated-‐
`Photon Imaging'', Physical Review A v. 82, 023819 (2010).
`24. D. S. Simon and A. V. Sergienko, ''The Correlated Confocal Microscope'', Optics Express v.
`18, pp. 9765–9779 (2010).
`25. D. S. Simon and A. V. Sergienko
`''Spatial Dispersion Cancellation in Quantum
`Interferometry'', Physical Review A v. 80, 053813 (2009).
`26. N. Mohan, O. Minaeva, G. N. Goltsman, M. F. Saleh, M. B. Nasr, A. V. Sergienko, B. E. A.
`Saleh, and M. C. Teich, ''Ultra-‐Broadband Coherence-‐Domain Imaging Using Parametric
`Downvonversion and Superconducting Single-‐Photon Detectors at 1064 nm,'' Appl.
`Optics v. 48, 4009-‐4017 (2009).
`27. Cristian Bonato, David S. Simon, Paolo Villoresi, and Alexander V. Sergienko,
`''Multiparameter Entangled-‐State Engineering Using Adaptive Optics'', Physical Review A
`v. 79, 062304 (2009)
`28. Olga Minaeva, Cristian Bonato, Bahaa E. A. Saleh, David S. Simon, and Alexander V..
`Sergienko, “Odd-‐ and Even-‐Order Dispersion Cancellation in Quantum Interferometry”,
`Physical Review Letters, v. 102, 100504 (2009).
`29. Cristian Bonato, Alexander V. Sergienko, Bahaa E. A. Saleh, Stefano Bonora, and Paolo
`Villoresi, “Even-‐Order Aberration Cancellation in Quantum Interferometry’’, Physical
`Review Letters, v. 101, 233603 (2008).
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`30. D. S. Simon, A. V. Sergienko, and T. B. Bahder, ‘’Dispersion and Fidelity in Quantum
`Interferometry’’, Physical Review A v. 78, 053829 (2008).
`31. . C. Teich, M. B. Nasr, S. Carrasco, B. E. A. Saleh, A. V. Sergienko, J. P. Torres, L. Torner, D.
`S. Hum, M. M. Fejer ‘’Ultra-‐Broadband Biphotons Chirped QPM Down-‐conversion’’,
`Optics and Photonics News, p. 36 December (2008).
`32. Nishant Mohan, Olga Minaeva, Gregory N. Gol’tsman, Magued B. Nasr, Bahaa E.A. Saleh,
`Alexander V. Sergienko, and Malvin C. Teich ‘’Photon-‐Counting Optical Coherence-‐
`Domain Reflectometry Using Superconducting Singlephoton Detectors’’, Optics Express,
`v. 16, 18118 (2008).
`33. Magued B. Nasr, Olga Minaeva, Gregory N. Goltsman, Alexander V. Sergienko, Bahaa E. A.
`Saleh, and Malvin C. Teich “Submicron axial resolution in an ultrabroadband two-‐
`photon interferometer using superconducting single-‐photon detectors”, Optics Express,
`v. 16, 15104, (2008).
`34. Magued B. Nasr, Bahaa E. A. Saleh, Alexander V. Sergienko, Silvia Carrasco, Malvin C.
`Teich, Juan P. Torres, Lluis Torner, David S. Hum, and Martin M. Fejer ‘’Quasi-‐Phase-‐
`Matched Optical Parametric Down-‐Conversion’’, Physical Review Letters v. 100, 183601
`(2008).
`35. Alexander V. Sergienko, “Beyond Singe-‐Photon Counting”, Nature Photonics, v. 2,
`pp.268-‐269 (2008).
`36. Cristian Bonato, Paolo Villoresi, and Alexander V. Sergienko, ‘’Two-‐photon spectral
`coherence matrix and characterization of multi-‐parameter entangled states’’, Physics
`Letters A, v. 372, pp.3109-‐3117 (2008).
`37. Gregg Jaeger and Alexander Sergienko, “Constructing Four-‐Photon States for Quantum
`Communication and Information Processing”, International Journal of Theoretical
`Physics, v. 47, pp.2120-‐2125 (2008)
`38. H. Guillet de Chatellus, G. Di Giuseppe, A. V. Sergienko, B. E. A. Saleh, and M. C. Teich,
`“Non-‐collinear and Non-‐degenerate Polarization-‐Entangled Photon Generation via
`Concurrent Type-‐I Parametric Downconversion in PPLN“, Optics Express, v. 14, 10060-‐
`10072 (2006).
`39. Fabio A. Bovino, Giuseppe Castagnoli, Artur Ekert, Pawel Horodecki, Carolina Moura
`Alves, and Alexander V. Sergienko, “Direct Measurement of Bipartite Quantum States”,
`Open Systems & Information Dynamics, v. 13, 281-‐289 (2006).
`40. Mark C. Booth, Bahaa E. A. Saleh, Alexander V. Sergienko, and Malvin C. Teich
`“Temperature and wavelength dependence of Fermi-‐tail photoemission and two-‐photon
`photoemission from multialkali semiconductors”, Journal of Applied Physics, v. 100,
`023521 (2006).
`41. S. Carrasco, A. V. Sergienko, B. E. A. Saleh, M. Teich, J. P. Torres and L. Torner “Spectral
`engineering of entangled two-‐photon states”, Physical Review A, v. 73, 063802 (2006).
`42. S. Carrasco, M. B. Nasr, A. V. Sergienko, B. E. A. Saleh, M. Teich, J. P. Torres and L. Torner
`“Broadband Light Generation by Noncollinear Parametric Down-‐Conversion”, Optics
`Letters, v. 31, pp. 253-‐255 (2006).
`43. Fabio A.. Bovino, Giuseppe Castagnoli, Artur Ekert, Pawel Horodecki, Carolina Moura
`Alves, and Alexander V. Sergienko, “Direct Measurement of Nonlinear Properties of
`Bipartite Quantum States”, Physical Review Letters, v. 95, 240407 (2005).
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`44. Bahaa E. A. Saleh, Malvin C. Teich, and Alexander V. Sergienko, “Wolf Equations for Two-‐
`Photon Light”, Physical Review Letters, v. 94, 223601 (2005).
`45. Ivan Avrutsky and Alexander Sergienko, “Design of Integrated Optical Source of Twin
`Photons”, Physical Review A, v. 71, 033812 (2005).
`46. Magued B. Nasr, Giovanni Di Giuseppe, Bahaa E. A. Saleh, Alexander V. Sergienko, Malvin
`C. Teich, “Generation of High-‐flux Ultra-‐broadband Light by Bandwidth Amplification in
`Spontaneous Parametric Down Conversion, Optics Communications, v. 246, pp. 521-‐528
`(2005).
`47. F. A. Bovino, P. Varisco, A. Martinoli, P. De Nicolo, S. Bruzzo, A. M. Colla, G. Castagnoli, G.
`Di Giuseppe, and A. V. Sergienko, “Practical Quantum Key Distribution Using
`Polarization Entangled States”, International Journal of Quantum Information, v. 3, pp.
`141-‐146 (2005).
`48. A. Abouraddy, P. R. Stone, A. V. Sergienko, B. E. A. Saleh, and M. C. Teich “Entangled-‐
`Photon Imaging of a Pure Phase Object”, Physical Review Letters, v.93, 213903 (2004).
`49. Zachary D. Walton, Alexander V. Sergienko, Bahaa E. A. Saleh, Malvin C. Teich
`“Polarization-‐Entangled Photon Pairs with Arbitrary Joint Spectrum”, Physical Review A,
`v. 70, 052317 (2004).
`50. Silvia Carrasco, Juan P. Torres, and Lluis Torner, Alexander Sergienko, Bahaa E. A. Saleh,
`and Malvin C. Teich “Spatial to Spectral Mapping in Spontaneous Parametric
`Downconversion”, Physical Review A, v. 70, 043817 (2004).
`51. Anthony N. Vamivakas, Bahaa E. A. Saleh, Alexander V. Sergienko, and Malvin C. Teich,
`“Theory of Spontaneous Parametric Down conversion from Photonic Crystals”, Physical
`Review A, v. 70, 043810 (2004).
`52. Silvia Carrasco, Juan P. Torres, and Lluis Torner, Alexander Sergienko, Bahaa E. A. Saleh,
`and Malvin C. Teich “Enhancing the Axial Resolution of Quantum Optical Coherence
`Tomography by Aperiodic Quasi-‐Phase-‐Matching”, Optics Letters, v. 29, 2429-‐2431
`(2004).
`53. Kimani C. Toussaint, Jr.,Giovanni Di Giuseppe, Kenneth J. Bycenski, Alexander V.
`Sergienko, Bahaa E. A. Saleh, and Malvin C. Teich “Quantum Ellipsometry Using
`Correlated-‐Photon Beams”, Physical Review A, v. 70, 023801 (2004).
`54. Francesco Lissandrin, Bahaa E. A. Saleh, Alexander V. Sergienko, and Malvin C. Teich
`“Quantum Theory of Entangled-‐Photon Photoemission”, Physical Review B, v. 69,
`165317 (2004).
`55. Mark C. Booth, Giovanni Di Giuseppe, Bahaa E. A. Saleh, Alexander V. Sergienko, Malvin
`C. Teich “Polarization-‐Sensitive Quantum-‐Optical Coherence Tomography”, Physical
`Review A, v. 69, 043815 (2004).
`56. Magued B. Nasr, Bahaa E. A. Saleh, Alexander V. Sergienko, and Malvin C. Teich
`“Dispersion-‐Cancelled
`and Dispersion-‐Sensitive Quantum Optical Coherence
`Tomography”, Optics Express, v. 12, pp. 1353-‐1362 (2004).
`57. G. Di Giuseppe, M. Atature, M. Shaw, A. V. Sergienko, B. E. A. Saleh, M. C. Teich, A. J. Miller,
`S. W. Nam, and J. M. Martinis, " Direct Observation of Photon Pairs at a Single Output
`Port of a Beam Splitter Interferometer", Physical Review A, v. 68, 063817, (2003).
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`
`58. Fabio Antonio Bovino, Pietro Varisco, Anna Maria Colla, Giuseppe Castagnoli, Giovanni
`Di Giuseppe and Alexander V. Sergienko “Effective Fiber-‐Coupling of Entangled Photons
`for Quantum Communication”, Optics Communications, v. 227, pp. 343-‐348 (2003).
`59. Magued B. Nasr, Bahaa E. A. Saleh, Alexander V. Sergienko, and Malvin C. Teich
`“Demonstration of Dispersion-‐Cancelled Quantum-‐Optical Coherence Tomography”,
`Physical Review Letters, v. 91, 083601 (2003).
`60. Gregg Jaeger, Alexander V. Sergienko, Bahaa E. A. Saleh, Malvin C. Teich “Entanglement,
`Mixedness, and Spin-‐Flip Symmetry in Multiple-‐Qubit System”, Physical Review A, v. 68,
`022318 (2003).
`61. Zachary D. Walton, Mark C. Booth, Alexander V. Sergienko, Bahaa E.A. Saleh, Malvin C.
`Teich “Decoherence-‐Free Subspaces in Quantum Key Distribution” Physical Review
`Letters, v. 91, 087901 (2003).
`62. A. V. Sergienko and G. S. Jaeger “Quantum Information Processing and Precise Optical
`measurement with Entangled-‐Photon Pairs”, Contemporary Physics, v. 44, 341-‐356
`(2003).
`