Home  People  Publications


Applied Nanotechnology Lab at Stony Brook

Principle Investigator: Matthew Eisaman
Guest Scientist,Brookhaven National Lab


Publications

 Refereed Publications 
27. D. M. N. M. Dissanayake and M. D. Eisaman, Chemical-free
n-type and p-type multilayer-graphene transistors, Appl. Phys. Lett. 109,
053110 (2016).



26. D. M. N. M. Dissanayake, A. Ashraf, D. Dwyer, K. Kisslinger
, L. Zhang, Y. Pang, H. Efstathiadis & M. D. Eisaman, Spontaneous and strong multi-layer graphene n-doping on soda-lime glass and its application in graphene-semiconductor junctions, Scientific Reports, 6, 21070 (2016).

25. S. Hoang, A. Ashraf, M. D. Eisaman, D. Nykypanchuk, and C. Nam, Enhanced Photovoltaic Performance of Ultrathin Si Solar Cells via Semiconductor Nanocrystal Sensitization: Energy Transfer vs. Optical Coupling Effects, Nanoscale, 8, 5873-5883 (2016).


  • 24.
     
  • J. Claypoole, B. Peace, N. Sun, D. Dwyer, M. D. Eisaman, P. Haldar, and H. Efstathiadis, Characterization of Cu(In,Ga)Se2 (CIGS) films with varying gallium ratiosJournal of Alloys and Compounds, DOI: 10.1016 /j.jallcom. 2015.09.006 (2015).





  • 23.
     
  • A. Ashraf, D. M. N. M. Dissanayake, and M. D. EisamanThe effect of confinement on the crystalline microstructure of polymer: fullerene bulk heterojunctionsPhys. Chem. Chem. Phys., Advance Article, DOI: 10.1039/C5CP03399C (2015).





  • 22.
     
  • A. Ashraf, D. M. N. M. Dissanayake, and M. D. EisamanMeasuring charge carrier mobility in photovoltaic devices with micron-scale resolutionApplied Physics Letters, 106, 113504 (2015).







  • 21.
    Atikur Rahman
    ,
  • Ahsan Ashraf,
  • Huolin Xin,
  • Xiao Tong,
  • Peter Sutter,
  • Matthew D. Eisaman
  • and Charles T. Black
  • Sub-50-nm self-assembled nanotextures for enhanced broadband antireflection in silicon solar cells, Nature Communications, 6, 5963 (2015).



    20. F. E. Camino, C.-Y. Nam, Y. T. Pang, J. Hoy, M. D. Eisaman, C. T. Black, and M. Y. Sfeir, Characterization of plasmonic hole arrays as transparent electrical contacts for organic photovoltaics using high-brightness Fourier transform methodsJ. Mod. Opt., DOI:10.1080/09500340.2014.917731 (2014).




    19. Y. T. Pang, M. Bossart, and M. D. EisamanIndex-matched IWKB method for the measurement of spatially varying refractive index profiles within thin-film photovoltaicsOptics Express, 22, S1, A188-A197 (2014).




    18. Ahsan AshrafD. M. Nanditha M. DissanayakeDavid S. GermackConan Weiland, and Matthew D. EisamanConfinement-Induced Reduction in Phase Segregation and Interchain Disorder in Bulk Hetereojunction Films, ACS Nano, 8, 323-331 (2014).



    17. D. M. N. M. Dissanayake, A. Ashraf, Y. Pang, and M. D. Eisaman, Mapping Spatially Resolved Charge Collection Probability within Bulk Heterojunction Photovoltaics, Advanced Energy Materials, 41300525 (2014).




    16. D. M. N. M. Dissanayake, A. Ashraf, Y. Pang, and M. D. Eisaman, Guided-mode quantum efficiency: A novel optoelectronic characterization technique, Rev. Sci. Instrum. 83, 114704 (2012).





    15. Matthew D. Eisaman, Keshav Parajuly, Alexander Tuganov, Craig Eldershaw, Norine Chang, and Karl A. Littau, CO2 extraction from seawater using bipolar membrane electrodialysis, Energy & Environmental Science, 5, 7346-7352 (2012).




















     




    14. R. J. Pearson, M. D. Eisaman, J.W.G. Turner, P.P. Edwards, Z. Jiang, V. L. Kuznetsov, K. A. Littau, L. di Marco, and S. R. G. Taylor, Invited Paper: Energy Storage Via Carbon-Neutral Fuels Made From CO2, Water, and Renewable Energy, Proceedings of the IEEE, 100, 440 - 460 (2012).

     


    13. M. D. Eisaman, L. Alvarado, D. Larner, P. Wang,  and K. A. Littau, CO2 concentration usinghigh-pressure bipolar membrane electrodialysis, Energy & Environmental Science, 4, 4031 - 4037 (2011).

     


    12. M. D. Eisaman, J. Fan, A. Migdall, and S. V. Polyakov, Invited Review Article: Single-photon sources and detectors, Review of Scientific Instruments, 82, 071101 (2011).

    • Featured as the front cover image.


    11. M. D. Eisaman, L. Alvarado, D. Larner, P. Wang, B. Garg, and K. A. Littau, CO2 concentration using bipolar membrane electrodialysis, Energy & Environmental Science, 4, 1319 - 1328 (2011)

    • Featured as the inside front cover image.



    10. E. A. Goldschmidt, M. D. Eisaman, J. Fan, S. V. Polyakov, and A. Migdall, Spectrally bright and broad fiber-based heralded single-photon source, Phys. Rev. A 78, 013844 (2008).

     


    9.  J. Chen, J. Fan, M. D. Eisaman, and A. Migdall, Generation of high-flux hyperentangled photon pairs using a microstructure-fiber Sagnac interferometer, Phys. Rev. A 77, 053812 (2008).

     


    8.  M. D. Eisaman, E. A. Goldschmidt, J. Chen, J. Fan, and A. Migdall, Experimental test of nonlocal realism using a fiber-based source of polarization-entangled photon pairs, Phys. Rev. A 77, 032339 (2008).

    • NIST Tech Beat article (link)
     


    7.
     
    J. Fan, M. D. Eisaman, and A. Migdall, Quantum state tomography of a fiber-based source of polarization-entangled photon pairs, Optics Express 15, 18339 - 18344 (2007).
     
     


    6.  J. Fan, M. D. Eisaman, and A. Migdall, Bright phase-stable broadband fiber-based source of polarization-entangled photon pairs, Phys. Rev. A 76, 043836 (2007).

     


    5. M. D. Eisaman, A. André, F. Massou, M. Fleischhauer, A. S. Zibrov, and M. D. Lukin, Electromagnetically induced transparency with tunable single-photon pulses, Nature 438, 837-841 (2005).

     
     


    4. A. André, M. D. Eisaman, R. Walsworth, A. S. Zibrov, and M. D. Lukin, Quantum Control of Light Using Electromagnetically Induced Transparency, J. Phys. B: At. Mol. Opt. Phys. 38, S589 (2005).

     


    3. M. D. Eisaman, L. Childress, A. André, F. Massou, A. S. Zibrov, and M. D. Lukin, Shaping Quantum Pulses of Light via Coherent Atomic Memory, Phys. Rev. Lett. 93, 233602 (2004).

     


    2. C. H. van der Wal, M. D. Eisaman, A. André, R. L. Walsworth, D. F. Phillips, A. S. Zibrov, and M. D. Lukin, Atomic Memory for Correlated Photon States, Science 301, 196 (2003).

     


    1. X. Luo, M. D. Eisaman, and T. R. Gosnell, Laser Cooling of a Solid by 21 K Starting From Room Temperature, Opt. Lett. 23, 639 (1998).

     

    Ph.D. Thesis

    1. M. D. Eisaman, Generation, storage, and Retrieval of Nonclassical States of Light using Atomic Ensembles, Department of Physics, Harvard University (2006).


    Reviews and other publications

    4. Matthew Eisaman, Tailored single photons, Nature Photonics, Advanced Online Publication, doi:10.1038/nphoton.2013.96, (2013).

    3. Matthew Eisaman, Don't Forget R744, Letter to the Editor, Chemical & Engineering News, 90, 2 (2012).

    2. M. D. Eisaman, M. Fleischhauer, M. D. Lukin, and A. S. Zibrov, Electromagnetically Induced Transparency: towards quantum control of single photons, Optics & Photonics News 17, 22 – 27 (2006).

    1. Mikhail Lukin and Matthew Eisaman, Quantum leap from light to atoms, Nature 443, 512-513 (2006).


    Conference Proceedings

    18. Y. Pang, H. Efstathiadis, D. Dwyer, and M. D. Eisaman, Reconstruction of the charge collection probablity in a CIGS solar cell by the regularization method, Proceedings of the 42th IEEE Photovoltaic Specialists Conference, New Orleans, LA, June 14 – 19, 2015 (in press).

    17. A. Ashraf, K. O. Davis, K. Öğütman, W. V. Shoenfeld, and M. D. Eisaman, Hyperspectral laser beam induced current system for solar cell characterization, Proceedings of the 42th IEEE Photovoltaic Specialists Conference, New Orleans, LA, June 14 – 19, 2015 (in press).

    16. Y. T. Pang, and M. D. Eisaman, Measuring Refractive Index Profiles within Thin-Film Photovoltaics with High Spatial Resolution using the Modified IM-IWKB Method, Proceedings of the 40th IEEE Photovoltaic Specialists Conference, Denver, CO, June 8 – 13, 2014, pp. 0655 - 0659.

    15. N. Dissanayake, A. Ashraf, Y. Pang, and M. D. Eisaman, Hyperspectral guided-mode quantum efficiency: A novel characterization technique for thin-film photovoltaics, Proceedings of the 39th IEEE Photovoltaic Specialists Conference, Tampa, FL, June 16-21, 2013, pp. 1406 - 1411.

    14. Y. Pang, N. Dissanayake, and M. D. Eisaman, Guided-mode absorption in ultrathin organic photovoltaics, Proceedings of the 38th IEEE Photovoltaic Specialists Conference, Austin, TX, June 3-8, 2012, pp. 003131 - 003136.

    13. M.D. Eisaman, D.E. Schwartz, S. Amic, D. Larner, J. Zesch, K. Littau, Energy-efficient electrochemical CO2 capture from the atmosphere, Technical Proceedings of the 2009 Clean Technology Conference and Trade Show, pp. 175-178 (2009).

    12. R.J. Pearson, J.W.G. Turner, M.D. Eisaman, K.A. Littau, G. Taylor, Sustainable Organic Fuels for Transport (SOFT) – A Concept for Compatible Affordable Mobility Using Carbon-Neutral Liquid Fuels, Proceedings of SIA (Société des Ingénieurs de l’Automobile) 2009, Strasbourg, France, Dec. 2-3, 2009.

    11. R.J. Pearson, J.W.G. Turner, M.D. Eisaman, and K.A. Littau, Extending the Supply of Alcohol Fuels for Energy Security and Carbon Reduction, Proceedings of SAE 2009 Powertrains Fuels and Lubricants Meeting, November 2009, San Antonio, TX, paper number 2009-01-2764.

    10. J. Chen, M. D. Eisaman, E.Goldschmidt, J. Fan, and A. Migdall, Experimental implementation of quantum entanglement and hyperentanglement with a fiber-based two-photon source , Proc. SPIE 7092, 709209 (2008).

    9. M. D. Eisaman, S. Polyakov, M. Hohensee, J. Fan, P. Hemmer, and A. Migdall, Optimizing the storage and retrieval efficiency of a solid-state quantum memory through tailored state preparation, Proc. of SPIE 6780, 67800K (2007).

    8. J. Fan, M. D. Eisaman, and A. Migdall, An optical fiber-based source of polarization-entangled photon pairs, Proc. of SPIE 6780, 67800Q (2007).

    7. P. Walther, M. D. Eisaman, A. Nemiroski, A. Gorshkov, A. S. Zibrov, A. Zeilinger, and M. D. Lukin, Multi-photon entanglement: From quantum curiosity to quantum computing and quantum repeaters, Proc. of SPIE 6664, 66640G (2007).

    6. P. Walther, M. D. Eisaman, A. André, F. Massou, M. Fleischhauer, A. S. Zibrov, and M. D. Lukin, Generation of Narrow-Bandwidth Single Photons using Electromagnetically Induced Transparency in Atomic Ensembles, International Journal of Quantum Information 5, 51-62 (2007).

    5. M. D. Eisaman, A. André, F. Massou, G.-W. Li, A.S. Zibrov, and M.D. Lukin, Progress toward generating, shaping, and communicating single-photon states using atomic memory, Proc. of SPIE 5842, 105 (2005).

    4. L. Childress, M. D. Eisaman, A. André, F. Massou, A. S. Zibrov, and M. D. Lukin, Towards quantum control of light: shaping quantum pulses of light via coherent atomic memory, in Decoherence, Entanglement, and Information Protection in Complex Quantum Systems, V. M. Akulin, A. Sarfati, G. Kurizki and S. Pellegrin, eds. (Kluwer Academic Publisher, Boston 2005).

    3. A. André, M. Bajcsy, L. Childress, M. D. Eisaman, F. Massou, A. S. Zibrov, and M. D. Lukin, Quantum Control of Light using Coherent Atomic Memory, Atomic Physics 19, XIX International Conference on Atomic Physics, L. G. Marcassa, V. S. Bagnato, K. Helmerson, eds. (American Institute of Physics, Melville, New York, 2005).

    2. C. H. van der Wal, M. D. Eisaman, A. S. Zibrov, A. André, D. F. Phillips, R. L. Walsworth, and M. D. Lukin, Towards non-classical light storage via atomic-vapor Raman scattering, Proc. of SPIE 5115, 236 (2003).

    1. M. D. Lukin, A. Andre, M. D. Eisaman, M. Hohensee, D. F. Phillips, C. H. van der Wal, R. L. Walsworth, A. S. Zibrov, Toward Manipulating Quantum Information with Atomic Ensembles, Proceedings of the International Conference on Atomic Physics 2002, Volume XVIII, H. R. Sadeghpour, D. E. Pritchard, E. J. Heller, eds. (World Scientific, Singapore, 2003).