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Publications

Peer-Reviewed Journal Publications

(last updated on June 2016)

2016

Peer Reviewed Journals

  1. B. Abaie, E. Mobini, S. Karbasi, T. Hawkins, J. Ballato, and A. Mafi, "Random lasing in an Anderson localizing optical fiber," under review. 
  2. M Leonetti, B. Abaie, W. Schirmacher, A. Mafi, and G. Ruocco, "Disorder induced single-mode transmission," under review. 
  3. E. Mobini and A. Mafi, "Design of a wavelength tunable optical tweezer using a graded-index multimode optical fiber," ArXiv:1611.01895, under review.
  4. H. Pourbeyram and A. Mafi, "Photon pair generation in multimode optical fibers via intermodal phase-matching," Physical Review A 94, 023815 (2016).scientific reports
  5. B. Abaie and A Mafi, "Scaling analysis of transverse Anderson localization in a disordered optical waveguide," Physical Review B 94, 064201 (2016).
  6. M. Leonetti, S. Karbasi, A. Mafi, E. DelRe, and C.~Conti, "Secure information transport by transverse localization of light," Scientific Reports (Nature), in press (2016).
  7. E. Nazemosadat, H. Pourbeyram, and A. Mafi, "Phase matching for spontaneous frequency conversion via four-wave mixing in graded-index multimode optical fibers," Journal of the Optical Society of America, B 33, 144 (2016).
  8. B. Abaie, S. R. Hosseini, S. Karbasi, and A. Mafi, "Modal analysis of the impact of the boundaries on transverse Anderson localization in a one-dimensional disordered optical lattice," Optics Communications 365, 208 (2016).

Conference Proceedings and Abstracts

  1. B. Abaie and A. Mafi, "Scaling analysis of Anderson localizing optical fibers, " SPIE, Photnics West, San Francisco, CA (2017).
  2. E. Mobini and A. Mafi, "Wavelength-tunable optical-fiber tweezer," SPIE, Photnics West, San Francisco, CA (2017). 
  3. H. Pourbeyram and A. Mafi, "Nonlinear mode conversion for intermodal four-wave mixing Stokes and anti-Stokes in a multimode fiber," SPIE, Photnics West, San Francisco, CA (2017). 
  4. H. Pourbeyram and A. Mafi, "Factorable photon-pair generation in multimode optical fibers," OSA FiO/LS 2016, Rochester, NY (2016). 
  5. B. Abaie and A. Mafi, "Localization analysis and dimensional scaling in a disordered optical waveguide," OSA FiO/LS 2016, Rochester, NY (2016). 
  6. E. Mobini, B. Abaie, and A. Mafi, "Spectral selectivity in capillary dye lasers," OSA FiO/LS 2016, Rochester, NY (2016).
  7. B. Abaie, E. Mobini, S. Karbasi, J. Ballato and A. Mafi, "Observation of lasing in an Anderson localizing optical fiber," CLEO, San Jose, CA (2016).
  8. Invited: A. Mafi, "Anderson localizing optical fibres," The 46th Winter Colloquium on the Physics of Quantum Electronics (PQE-2016), Snowbird, Utah (Jan. 2016).
  9. H. Pourbeyram and A.~Mafi, "Non-universal Kerr nonlinearity in large-frequency shifted four-wave mixing in an optical fiber," The 46th Winter Colloquium on the Physics of Quantum Electronics (PQE-2016), Snowbird, Utah (Jan. 2016).
  10. B. Abaie, "Boundary effect on transversely localized modes of a one-dimensional disordered optical lattice," The 46th Winter Colloquium on the Physics of Quantum Electronics (PQE-2016), Snowbird, Utah (Jan. 2016).

2015

Peer Reviewed Journals

  1. A. Mafi, "Anderson localization in a partially random Bragg grating and a conserved area theorem," Optics Letters 40, 3603-3606 (2015).
  2. Invited Paper: A. Mafi, "Transverse Anderson localization of light: a tutorial," Advanced in Optics and Photonics 7, 459-515 (2015).
  3. H. Pourbeyram, E. Nazemosadat, and A. Mafi, "Detailed investigation of intermodal four-wave mixing in SMF-28: blue-red generation from green," Optics Express 23, 14487 (2015).
  4. Invited Paper: H. Pourbeyram and A. Mafi, "Four-wave mixing of a laser and its frequency-doubled version in a multimode optical fiber," Photonics 2, 906 (2015).

Conference Proceedings and Abstracts

  1. Invited: A. Mafi, "Anderson localization fibres," The 4th Workshop on Specialty Optical Fiber and Their Applications (WSOF 2015), Hong Kong, (Nov. 2015).
  2. A. Mafi, "Novel features of Anderson localization in a partially random Bragg grating," OSA FiO/LS 2015, San Jose, CA (2015).
  3. E. Nazemosadat, H. Pourbeyram, and A. Mafi, "An analytical approach for calculating the FWM idler and signal wavelengths in a graded index multimode optical fiber," OSA FiO/LS 2015, San Jose, CA (2015).
  4. H. Pourbeyram, E. Nazemosadat, and A. Mafi, "Detailed analysis of amplified spontaneous four-wave mixing in a multimode fiber," OSA FiO/LS 2015, San Jose, CA (2015).
  5. B. Abaie and A. Mafi, "Modal analysis of transverse Anderson localization near the boundary of a one-dimensional disordered optical lattice," OSA FiO/LS 2015, San Jose, CA (2015).
  6. Invited: A. Mafi, "Transverse Anderson localization and image transport through disordered fibers ," SPIE NanoScience + Engineering Symposium, San Diego, CA (Aug 2015).
  7. M. Leonetti, S. Karbasi, A. Mafi, and C. Conti, "Adaptive and nonlinear optics in the transverse localization regime," CLEO/Europe-EQEC Munich, Germany (June 2015).

2014

Peer Reviewed Journals

nature communications
  1. S. Karbasi, R. Frazier, K. Koch, T. Hawkins, J. Ballato, and A. Mafi, "Image transport through a disordered optical fiber mediated by transverse Anderson localization," Nature Communications 5, 3362 (2014). 
  2. M. Leonetti, S. Karbasi, A. Mafi, C. Conti, "Light focusing in the Anderson Regime," Nature Communications 5, 4534 (2014). nature communications
  3. M. Leonetti, S. Karbasi, A. Mafi, C. Conti, "Observation of migrating transverse-Anderson localizations of light in nonlocal media," Physical Review Letters 112, 193902 (2014).prl
  4. M. Leonetti, S. Karbasi, A. Mafi, and C. Conti, "Experimental observation of disorder induced self-focusing in optical fibers," Applied Physics Letters 105, 171102 (2014).
  5. E. Nazemosadat and A. Mafi, "Nonlinear switching in a two-concentric-core chalcogenide glass optical fiber for passively mode-locking a fiber laser," Optics Letters 9, 4675-4678 (2014).
  6. C. Jollivet, A. Mafi, D. Flamm, M. Duparre, K. Schuster, S. Grimm, and A. Sch ulzgen, "Mode-resolved gain analysis and lasing in multi-supermode multi-core fiber laser" Optics Express 22, 30377–30386 (2014).
  7. E. Nazemosadat and A. Mafi, "Design considerations for multi-core optical fibers in nonlinear switching and mode-locking applications," Journal of the Optical Society of America, B 31, 1874–1878 (2014).
  8. Invited Paper: A. Mafi, S. Karbasi, K. W. Koch, T. Hawkins, and J. Ballato, "Transverse Anderson localization in disordered glass optical fibers: A review," Materials 7, 5520–5527 (2014).
  9. A. Mafi, S. Karbasi, R. J. Frazier, K. W. Koch, T. Hawkins, and J. Ballato, "High quality image transport via transverse Anderson localization," Optics and Photonics News 13, 48 December (2014).

Conference Proceedings and Abstracts

  1. Invited: A. Mafi, S. Karbasi, K. Koch, T. Hawkins, J. Ballato, M. Leonetti, C. Conti, "Anderson localisation in fibres," ECOC 2014, Cannes, France (2014).
  2. E. Nazemosadat and A. Mafi, "All-fiber mode-locking using a two concentric core fiber saturable absorber," OSA FiO/LS 2014, Tucson, AZ (2014).
  3. C. Jollivet, A. Mafi, D. Flamm, M. Duparre, K. Schuster, S. Grimm, and A. Schülzgen, "Mode-resolved gain analysis of a 7-core fiber laser based on multi-supermode interference," Advanced Photonics Congress, Barcelona, Spain (2014).
  4. Invited: C. Conti, M. Leonetti, V. Folli, S. Karbasi, and A. Mafi, "Transverse disorder-induced localization in nonlocal nonlinear media: theory and experiments," SIAM conference on Nonlinear Waves and Coherent Structures, Cambridge, UK (2014).
  5. S. Karbasi, R. J. Frazier, K. W. Koch, T. Hawkins, J. Ballato, and A. Mafi, "Image transport using Anderson localized modes in disordered optical fibers," SPIE, Photnics West, San Francisco, CA (2014).
  6. S. Karbasi, S. Hosseini, K. W. Koch, T. Hawkins, J. Ballato, and A. Mafi, "Anderson localized modes in a disordered glass optical fiber," SPIE, Photnics West, San Francisco, CA (2014).
  7. E. Nazemosadat and A. Mafi, "Saturable absorption properties of multi-core fiber arrays," SPIE, Photnics West, San Francisco, CA (2014).

2013

Peer Reviewed Journals

  1. H. Pourbeyram, G. P. Agrawal, and A. Mafi, "SRS cascade spanning the wavelength range of 523 to 1750 nm using a graded-index multimode optical fiber," Applied Physics Letters, 102 201107 (2013).
  2. E. Nazemosadat and A. Mafi, "Nonlinear switching in multicore versus multimode waveguide junctions for mode-locked laser applications," Optics Express, 21 30739–30745 (2013).
  3. E. Nazemosadat and A. Mafi, "Saturable absorption in multi-core fiber couplers," Journal of the Optical Society of America, B, in press (2013).
  4. S. Karbasi, K. W. Koch, and A. Mafi, "Image transport quality can be improved in disordered waveguides," Optics Communications, 311 72-76 (2013).
  5. S. Karbasi, K. W. Koch, and A. Mafi, "A modal perspective on the transverse Anderson localization of light in disordered optical lattices," Journal of the Optical Society of America, B, 30 1452-1461 (2013).
  6. E. Nazemosadat and A. Mafi, "Nonlinear multimodal interference and saturable absorption using a short graded-index multimode optical fiber," Journal of the Optical Society of America, B, 30, 1357-1367 (2013).
  7. Invited Paper: S. Karbasi, R. J. Frazier, C. R. Mirr, K. W. Koch, and A. Mafi, "Fabrication and characterization of disordered polymer optical fibers for transverse Anderson localization of light," Journal of Visualized Experiments, 77, e50679 (2013).
  8. R. A. Herrera, C. T. Law, and A. Mafi, "Calculation of the acousto-optic coupling coefficients in optical fibers," Optics Communications, 305, 217-220 (2013).
  9. S. Karbasi, K. W. Koch, and A. Mafi, "Multiple-beam propagation in an Anderson localized optical fiber," Optics Express, 21, 305-313 (2013).

Conference Proceedings and Abstracts

  1. Invited: A. Mafi, S. Karbasi, R. Frazier, K. W. Koch, T. Hawkins, J. Ballato, "Transverse Anderson Localization in Disordered Optical Fibers," OSA FiO/LS 2013, Orlando, FL (2013).
  2. E.Nazemosadat and A. Mafi, "Mode-locking in multi-core fiber nonlinear couplers," OSA FiO/LS 2013, Orlando, FL (2013).
  3. M. Leonetti, S. Karbasi, A. Mafi, C. Conti, "Experimental study of Transverse Anderson localization in nonlocal media," Spatio-temporal complexity in optical fibers, Como, Italy (2013).
  4. C. Jollivet, J. Guer, P. Hofmann, A. Mafi, and A. Schulzgen, "All-fiber mode-field adapter for low coupling loss between step-index and large-mode area fibers," Advanced Solid-State Lasers, Paris, France (2013).
  5. S. Karbasi, E. Nazemosadat, and A. Mafi, "Enhancement of nonlinearity and phase-matching in Anderson localized 1D optical waveguides ," Nonlinear Optics (NLO), Kohala Coast, Hawaii (2013).
  6. E. Nazemosadat and A. Mafi, Saturable absorption in a short graded-index multimode optical fiber using nonlinear multimodal interference," Nonlinear Optics (NLO), Kohala Coast, Hawaii (2013).
  7. H. Pourbeyram, G. Agrawal, and A. Mafi, "SRS-mediated generation of new wavelengths from 523 nm to 1750 nm in a graded-index multimode optical fiber," CLEO, San Jose, CA (2013).
  8. S. Karbasi, R. Frazier, K. W. Koch, and A. Mafi, "Image transport in a polymer Anderson localized optical fiber," CLEO/Europe-IQEC, Munich, Germany (2013).
  9. S. Karbasi, T. Hawkins, J. Ballato, K. W. Koch, and A. Mafi, "Impact of macro-bending on the light propagation in an Anderson localized optical fiber," OFC/NFOEC Anaheim, CA (2013).
  10. S. Karbasi, K. W. Koch, and A. Mafi, "Anderson localized optical fibers," SPIE, Photnics West, San Francisco, CA (2013).

2012

Peer Reviewed Journals

  1. S. Karbasi, T. Hawkins, J. Ballato, K. W. Koch, and A. Mafi, "Transverse Anderson localization in a disordered glass optical fiber," Optical Materials Express, 2, 1496-1503 (2012).
  2. A. Mafi, "Pulse propagation in a short nonlinear graded-index multimode optical fiber," IEEE Journal of Lightwave Technology, 30, 2803-2811 (2012).
  3. S. Karbasi, C. R. Mirr, P. G. Yarandi, R. J. Frazier, K. W. Koch, and A. Mafi, "Detailed investigation of the impact of the fiber design parameters on the transverse Anderson localization of light in disordered optical fibers," Optics Express, 20, 18692-18706 (2012).
  4. P. Yarandi, S. Karbasi, and A. Mafi, "Improving the power efficiency in end-pumped gain-guided index-antiguided fiber amplifiers," IEEE Journal of Lightwave Technology, 30, 3203-3210 (2012).
  5. S. Karbasi, C. Mirr, P. Yarandi, R. Frazier, K. W. Koch, and A. Mafi, `Observation of transverse Anderson localization in an optical fiber," Optics Letters, 37, 2304-2306 (2012).
  6. P. Hofmann, A. Mafi, C. J. Salvin, T. Tiess, N. Peyghambarian, and A. Schulzgen, "Detailed investigation of mode-field adapters utilizing multimode-interference in graded index fibers," IEEE Journal of Lightwave Technology, 30, 2289-2297 (2012).

Conference Proceedings and Abstracts

  1. A. Mafi, "Nonlinear optics in graded-index multimode optical fibers," AFOSR 12, Albuquerque, New Mexico (2012).
  2. S. Karbasi, K. W. Koch, and A. Mafi, "Wavelength dependence of the beam radius in Anderson localized optical fibers," 96th FIO/LS, Frontiers in Optics (2012).
  3. P. Yarandi, S. Karbasi, and A. Mafi, "Power efficiency in tapered gain-guided index-antiguided fiber amplifiers," 96th FIO/LS, Frontiers in Optics (2012).
  4. S. Karbasi and A. Mafi, "Design and optimization of metal-dielectric surface plasmon resonance sensors," 96th FIO/LS, Frontiers in Optics (2012).
  5. A Mafi, P. Hofmann, C. J. Salvin, N. Peyghambarian, and A. Schulzgen, "low-loss coupling between single-mode optical fibers with very different mode-field diameters," Advanced Photonics Congress (2012).
  6. A. Mafi and P. Yarandi, "Poor power efficiency in gain-guided index-antiguided fiber amplifiers and lasers," CLEO, San Jose, CA (2012).
  7. P. Hofmann, A. Mafi, C. J. Salvin, T. Tiess, N. Peyghambarian, and A. Schulzgen, "Low-loss, broad-band coupling between single-mode optical fibers with very different mode-field diameters," CLEO, San Jose, CA (2012).

2011

Peer Reviewed Journals

  1. G. W. Hanson, A. B. Yakovlev, and A. Mafi, "Excitation of discrete and continuous spectrum for a surface conductivity model of graphene," Journal of Applied Physics, 110, 114305 (2011).
  2. A. Mafi, P. Hofmann, C. Salvin, and A. Schulzgen, "Low-loss coupling between two single-mode optical fibers with different mode-field diameters using a graded-index multimode optical fiber," Optics Letters, 36, 3596-3598 (2011).
  3. P. Yarandi, K. Gundu, and A. Mafi, "On the beam profile and beam quality of gain-guided index-antiguided fibers with finite cladding boundary," Journal of the Optical Society of America, B, 28, 2430-2435 (2011).
  4. M. Mlejnek and A. Mafi, "Viewing angle and voltage dependence of the visibility of cell gap defects in LCD panels," IEEE Journal of Display Technology, 7, 684-687 (2011).
  5. A. Mafi and S. Raghavan, "Nonlinear phase noise in optical communication systems using eigenfunction expansion method," Optical Engineering, 50, 055003 (2011).
  6. A. B. Yakovlev, Y. R. Padooru, G. W. Hanson, A. Mafi, and S. Karbasi, "A generalized additional boundary condition for mushroom-type and bed-of-nails-type wire media," IEEE Transactions on Microwave Theory and Techniques, 59, 527-532 (2011).

Conference Proceedings and Abstracts:

  1. A. Mafi and P. Yarandi, "Ultra-large-core index-antiguiding gain-guiding fiber lasers for high power applications," AFOSR 11, Albuquerque, New Mexico (2011).
  2. P. Yarandi, K. Gundu, and A. Mafi, "Beam quality factor of gain-guided index-antiguided fiber laser with a finite cladding diameter," 95th FIO/LS, Frontiers in Optics (2011).
  3. A. B. Yakovlev, G. W. Hanson, A. Mafi, Y. R. Padooru, S. Karbasi, "Modal Propagation on Thin Metal Mushroom-Type Surfaces in the Transition to Bed-of-Nails-Type Wire Media," IEEE AP-S International Symposium and URSI Radio Science Meeting, Spokane, Washington, July 3-8, (2011).

2010

Peer Reviewed Journals

  1. A. Mafi, "Bandwidth improvement in multimode optical fibers via scattering from core inclusions," IEEE Journal of Lightwave Technology, 28, 1547-1555 (2010).
  2. S. Karbasi and A. Mafi, "Optimizing plasmonic grating sensors for limit of detection based on a Cramer-Rao bound," IEEE Photonics Journal, 2, 543-552 (2010).
  3. K. Gundu, P. Yarandi, and A. Mafi, "Beam-quality factor of single-mode gain-guided fiber lasers," Optics Letters, 35, 4124-4126 (2010).
  4. K. Gundu and A. Mafi, "Constrained least squares Fourier modal method for computing scattering from metallic binary gratings," Journal of the Optical Society of America, A, 27, 2375-2380 (2010).
  5. K. Gundu and A. Mafi, "Reliable computation of scattering from metallic binary gratings using modal methods," Journal of the Optical Society of America, A, 27, 1694-1700 (2010).

Conference Proceedings and Abstracts

  1. P. Yarandi and A. Mafi, "Birefringence in Photonic Crystal Fibers: Cladding Lattice Shape versus Unit-Cell Anisotropy," 94th FIO/LS, Frontiers in Optics (2010).
  2. K. Gundu and A. Mafi, "On Convergence of Fourier Modal Methods Used for Computing Scattering from Metallic Binary Gratings," in Laser Science, OSA Technical Digest (CD) (Optical Society of America, 2010), paper JTuA28.
  3. A. B. Yakovlev, Y. R. Padooru, S. Karbasi, G. W. Hanson, and A. Mafi, "Nonlocal Homogenization Model for the Analysis of Absorbing Properties of Mushroom Structures with Graphene Patches at Microwaves IEEE AP-S International Symposium and URSI Radio Science Meeting," Toronto, Ontario, Canada, July 11-17, (2010).

2009 and before

Peer Reviewed Journals

  1. A. Mafi and K. W. Koch, "Photonic crystal fibers with a general Bravais lattice," IEEE Journal of Lightwave Technology, 27, 471-47181 (2009).
  2. A. Mafi, "Impact of lattice-shape moduli on band structure of photonic crystals," Physical Review B, 77, 115140-115143 (2008).
  3. A. Kobyakov, A. Zakharian, A. Mafi, S. Darmanyan, "Semi-analytical method for light interaction with 1D-periodic nanoplasmonic structure," Optics Express, 16, 8938-8957 (2008).
  4. A. Kobyakov, A. Mafi, A. Zakharian, S. Darmanyan, K. Sparks, "Fundamental and higher-order Bloch surface plasmons in planar bimetallic gratings on silicon and glass substrates," Journal of the Optical Society of America, B, 25, 1414-1421 (2008).
  5. A. Mafi and M. Mlejnek, "A study of visible defects caused by local cell gap variations in LCD panels," Optics Express, 15, 1553-1560 (2007).
  6. H. Li, A. Mafi, A. Schulzgen, L. Li, V. L. Temyanko, N. Peyghambarian, and J. V. Moloney, "Analysis and design of photonic crystal fibers based on an improved effective-index method," IEEE Journal of Lightwave Technology, 25, 1224-1230 (2007).
  7. A. Mafi and J. V. Moloney, "Beam quality of photonic crystal fibers," IEEE Journal of Lightwave Technology, 23, 2267 (2005).
  8. A. Mafi and J. V. Moloney, "Shaping modes in multicore photonic crystal fibers," IEEE Photonics Technology Letters, 17, 348-350 (2005).
  9. L. Li, H. Li, T. Qiu, V. L. Temyanko, M. M. Morrell, A. Schulzgen, A. Mafi, J. V. Moloney, and N. Peyghambarian, "Investigation of modal properties of microstructured optical fibers with large depressed-index cores," Optics Letters, 30, 3275-3277 (2005).
  10. L. Li, A. Schulzgen, V. L. Temyanko, T. Qiu, M. M. Morrell, Q. Wang, A. Mafi, J. V. Moloney, and N. Peyghambarian, "Short-length microstructured phosphate glass fiber lasers with large mode areas," Optics Letters, 24, 1141-1143 (2005).
  11. L. Li, H. Li, T. Qiu, V. L. Temyanko, M. M. Morrell, A. Schulzgen, A. Mafi, J. V. Moloney, and N. Peyghambarian, "3-Dimensional thermal analysis and active cooling of short-length high-power fiber laser," Optics Express, 13, 3420--3428 (2005).
  12. A. Mafi, J. V. Moloney, D. Kouznetsov, A. Schulzgen, S. Jiang, T. Luo, and N. Peyghambarian, "A large-core compact high-Power single-mode photonic crystal fiber laser," IEEE Photonics Technology Letters 16, 2595-2597 (2004).
  13. L. Li, M. M. Morrell, T. Qiu, V. L. Temyanko, A. Schulzgen, A. Mafi, D. Kouznetsov, J. V. Moloney, T. Luo, S. Jiang, and N. Peyghambarian, "Short cladding-pumped Er/Yb phosphate fiber laser with 1.5-W output power," Applied Physics Letters 85, 2721-2723 (2004).
  14. T. Qiu, L. Li, A. Schulzgen, V. L. Temyanko, T. Luo, S. Jiang, A. Mafi, J. V. Moloney, and N. Peyghambarian, "Generation of 9.3-W multimode and 4-W singlemode output from 7-cm short fiber lasers," IEEE Photonics Technology Letters 16, 2592-2594 (2004).
  15. A. Mafi and J. V. Moloney, "Phase locking in a passive multicore photonic crystal fiber," Journal of the Optical Society of America, B 21, 897-902 (2004).
  16. K. R. Dienes and A. Mafi, "Kaluza-Klein states versus winding states: Can both be above the string scale?," Physical Review Letters 89, 171602 (2002).
  17. K. R. Dienes and A. Mafi, "Shadows of the Planck scale: The scale dependence of compactification geometry," Physical Review Letters 88, 111602 (2002).
  18. H. Baer, C. Balazs, A. Belyaev, R. Dermisek, A. Mafi and A. Mustafayev, "Study of viable models with non-universal gaugino mediation with CompHEP and ISAJET," Nucl. Instrum. Meth. A 502, 560 (2003).
  19. H. Baer, C. Balazs, A. Belyaev, R. Dermisek, A. Mafi and A. Mustafayev, "Viable models with non-universal gaugino mediated supersymmetry breaking," Journal of High Energy Physics 0205, 061 (2002).
  20. R. Dermisek and A. Mafi, "SO(10) grand unification in five dimensions: Proton decay and the mu problem," Physical Review D 65, 055002 (2002).
  21. A. Mafi and S. Raby, "A solution to the mu problem in the presence of a heavy gluino LSP," Physical Review D 63, 055010 (2001).
  22. R. Dermisek, A. Mafi and S. Raby, "Supersymmetric grand unification under siege: Proton lifetime upper bound," Physical Review D 63, 035001 (2001) and hep-ph/0007213.
  23. A. Mafi and S. Raby, "An analysis of a heavy gluino LSP at CDF: The heavy gluino window," Physical Review D 62, 035003 (2000).

Conference Proceedings and Abstracts

  1. A. B. Yakovlev, G. W. Hanson, and A. Mafi, "High-impedance surfaces with graphene patches as absorbing structures at microwaves," Meta-09, London, United Kingdom (2009).
  2. A. Mafi, "Bandwidth Enhancement in Multimode Fibers," in Frontiers in Optics, OSA Technical Digest (CD) (Optical Society of America, 2009), paper JWC38.
  3. A. Mafi, K. W. Koch,''Birefringence of photonic crystal fibers with a general lattice," 93rd FIO/LS, Frontiers in Optics (2009).
  4. A. Kobyakov, A. Zakharian, S. Darmanyan, and A. Mafi,''Bloch surface plasmons in the presence of gain," NanoMeta2009 conference (2009).
  5. A. Mafi, K. W. Koch,''The effects of lattice shape on photonic band gaps," 92nd FIO/LS, Frontiers in Optics (2008).
  6. A. Mafi, S. Lobanov, S. Raghavan,''Nonlinear Phase Noise in DPSK Systems: BER Calculation," 92nd FIO/LS, Frontiers in Optics (2008).
  7. A. Zakharian, A. Kobyakov, A. Mafi, S. Darmanyan,''Enhanced radiation forces in the near-field of a structured thin metallic film," Frontiers in Nanophotonics and Plasmonics (2008).
  8. A. Kobyakov, A. Mafi, A. Zakharian, S. Darmanyan,''Bloch surface plasmon modes in a periodic bimetallic film," Frontiers in Nanophotonics and Plasmonics (2007).
  9. A. Mafi, M. Mlejnek, M. Shen, W. Wood, Y. Mauro, K. Sparks,''Local cell gap variations and visible defects in LCD panels," 90th FIO/LS, Frontiers in Optics (2006).
  10. N. Peyghambarian, M. Fallahi, L. Li, A. Mafi, M. Mansuripur, J. V. Moloney, R. A. Norwood, D. Panasenko, A. Polynkin, T. Qiu, A. Schulzgen, V. L. Temyanko, J. Wu, S. Jiang, A. Chavez, J. Geng, and C. Spiegelberg, "Microstructured and Multicore Fibers and Fiber Lasers," Technical Digest. OFC/NFOEC (2006).
  11. T. Qiu, A. Schulzgen, A. Mafi, L. Li, J. Wu, V. L. Temyanko, J. V. Moloney, and N. Peyghambarian, "Experiments and modeling of high power Er-Yb doped short fiber lasers," Technical Digest. OFC/NFOEC 2, 3 (2005).
  12. N. Peyghambarian, A. Schulzgen, L. Li, V. L. Temyanko, P. Polynkin, D. Panasenko, M. Mansuripur, A. Mafi, and J. V. Moloney, "Summary Microstructured Fiber Lasers," 18th Annual Meeting LEOS 2005, 432 (2005).
  13. N. Peyghambarian, A. Schulzgen, M. Mansuripur, J. V. Moloney, T. Qiu, Y. Kaneda, P. Polynkin, L. Li, J. Wu, A. Polynkin, V. L. Temyanko, A. Mafi, S. Jiang, C. Spiegelberg, A. Chavez, J .Geng, and T. Luo, "Chip-Scale, High Power Microstructure Fiber Laser," Mater. Res. Soc. Symp. Proc., Vol. 883, FF2.1.1 (2005).
  14. L. Li, A. Schulzgen, V. L. Temyanko, T. Qiu, A. Mafi, J. V. Moloney, and N. Peyghambarian, "Microstructured phosphate glass fiber lasers with large mode area," Technical Digest. OFC/NFOEC (2005).
  15. N. Peyghambarian, A. Schulzgen, T. Qiu, L. Li, V. Temyanko, P. Polynkin, M. Mansuripur, A. Mafi, and J. V. Moloney, "Recent advances towards 1 W/cm single mode fiber lasers," 17th Annual Meeting LEOS (2004).
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