Search Results - "Monberg, Eric M"

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  1. 1

    Continuous Multicore Optical Fiber Grating Arrays for Distributed Sensing Applications by Westbrook, Paul S., Kremp, Tristan, Feder, Kenneth S., Wing Ko, Monberg, Eric M., Hongchao Wu, Simoff, Debra A., Taunay, Thierry F., Ortiz, Roy M.

    Published in Journal of lightwave technology (15-03-2017)
    “…We describe the fabrication and distributed sensing capabilities of very long continuous fiber grating sensor arrays in a twisted multicore fiber. The…”
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    Journal Article
  2. 2

    Enhanced Optical Fiber for Distributed Acoustic Sensing beyond the Limits of Rayleigh Backscattering by Westbrook, Paul S., Feder, Kenneth S., Kremp, Tristan, Monberg, Eric M., Wu, Hongchao, Zhu, Benyuan, Huang, Lei, Simoff, Debra A., Shenk, Scott, Handerek, Vincent A., Karimi, Mohammad, Nkansah, Anthony, Yau, Alan

    Published in iScience (26-06-2020)
    “…We report on engineered fibers with enhanced optical backscattering that exceeds Rayleigh scattering limits by more than one order of magnitude. We measure…”
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    Journal Article
  3. 3

    Polarization maintaining single-mode low-loss hollow-core fibres by Fini, John M., Nicholson, Jeffrey W., Mangan, Brian, Meng, Linli, Windeler, Robert S., Monberg, Eric M., DeSantolo, Anthony, DiMarcello, Frank V., Mukasa, Kazunori

    Published in Nature communications (28-10-2014)
    “…Hollow-core fibre (HCF) is a powerful technology platform offering breakthrough performance improvements in sensing, communications, higher-power pulse…”
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    Journal Article
  4. 4

    Performance characteristics of continuously grated multicore sensor fiber by Westbrook, Paul S., Kremp, Tristan, Feder, Kenneth S., Wing Ko, Monberg, Eric M., Hongchao Wu, Simoff, Debra A., Shenk, Scott, Ortiz, Roy M.

    “…We describe the fabrication and performance of a continuously grated twisted multicore fiber sensor array. The grated fiber sensor comprises nearly continuous…”
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    Conference Proceeding
  5. 5

    Low-loss hollow-core fibers with improved single-modedness by Fini, John M, Nicholson, Jeffrey W, Windeler, Robert S, Monberg, Eric M, Meng, Linli, Mangan, Brian, Desantolo, Anthony, DiMarcello, Frank V

    Published in Optics express (11-03-2013)
    “…Hollow-core fibers (HCFs) are a revolution in light guidance with enormous potential. They promise lower loss than any other waveguide, but have not yet…”
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    Journal Article
  6. 6

    Multicore Erbium Doped Fiber Amplifiers for Space Division Multiplexing Systems by Abedin, Kazi S., Fini, John M., Thierry, Taunay F., Supradeepa, V. R., Zhu Benyuan, Yan, Man F., Bansal, Lalit, Monberg, Eric M., DiGiovanni, David J.

    Published in Journal of lightwave technology (15-08-2014)
    “…We report on the recent development of multicore fiber amplifiers suitable for amplifying space division multiplexed signals. We designed and constructed…”
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    Journal Article
  7. 7

    Long-term stable, sub-femtosecond timing distribution via a 1.2-km polarization-maintaining fiber link: approaching 10(-21) link stability by Peng, Michael Y, Callahan, Patrick T, Nejadmalayeri, Amir H, Valente, Stefano, Xin, Ming, Grüner-Nielsen, Lars, Monberg, Eric M, Yan, Man, Fini, John M, Kärtner, Franz X

    Published in Optics express (26-08-2013)
    “…Long-term stable, sub-femtosecond timing distribution over a 1.2-km polarization-maintaining (PM) fiber-optic link using balanced optical cross-correlators for…”
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    Journal Article
  8. 8
  9. 9

    High-Capacity Space-Division-Multiplexed DWDM Transmissions Using Multicore Fiber by Benyuan Zhu, Fini, J. M., Yan, M. F., Xiang Liu, Chandrasekhar, S., Taunay, T. F., Fishteyn, M., Monberg, E. M., Dimarcello, F. V.

    Published in Journal of lightwave technology (15-02-2012)
    “…We describe a new multicore fiber (MCF) having seven single-mode cores arranged in a hexagonal array, exhibiting low crosstalk among them and low loss across…”
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    Journal Article
  10. 10

    Higher-order mode fiber enables high energy chirped-pulse amplification by Peng, Xiang, Kim, Kyungbum, Mielke, Michael, Booth, Tim, Nicholson, Jeffrey W, Fini, John M, Liu, Xiaoping, Desantolo, Anthony, Westbrook, Paul S, Windeler, Robert S, Monberg, Eric M, Dimarcello, Frank V, Headley, Cliff, Digiovanni, David J

    Published in Optics express (30-12-2013)
    “…Energy scaling of femtosecond fiber lasers has been constrained by nonlinear impairments and optical fiber damage. Reducing the optical irradiance inside the…”
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    Journal Article
  11. 11
  12. 12

    Space division multiplexed multicore erbium-doped fiber amplifiers by Abedin, Kazi S., Yan, Man F., Fini, John M., Thierry, Taunay F., Bansal, Lalit K., Zhu, Benyuan, Monberg, Eric M., DiGiovanni, David J.

    Published in Journal of optics (New Delhi) (01-09-2016)
    “…We report on the recent development of multicore fiber amplifiers suitable for amplifying space division multiplexed signals. We have constructed 7-core…”
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    Journal Article
  13. 13

    Improving Distributed Sensing with Continuous Gratings in Single and Multi-core Fibers by Westbrook, Paul S., Kremp, Tristan, Feder, Kenneth S., Ko, Wing, Monberg, Eric. M., Wu, Hongchao, Simoff, Debra A., Ortiz, Roy. M.

    “…We review advances in single and multicore continuous fiber grating array sensor technology. Grating enhanced backscattering offers order of magnitude signal…”
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    Conference Proceeding
  14. 14

    Frozen-in viscoelasticity for novel beam expanders and high-power connectors by Yablon, A.D., Yan, M.F., DiGiovanni, D.J., Lines, M.E., Jones, S.L., Ridgway, D.N., Sandels, G.A., White, I.A., Wisk, P., DiMarcello, F.V., Monberg, E.M., Jasapara, J.

    Published in Journal of lightwave technology (01-01-2004)
    “…Frozen-in viscoelasticity has a significant, yet previously overlooked, impact on the refractive index profile of optical fibers and can serve as the basis for…”
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    Journal Article Conference Proceeding
  15. 15

    State-of-the-art multicore fiber amplifiers for space division multiplexing by Abedin, Kazi S., Yan, Man F., Taunay, Thierry F., Zhu, Benyuan, Monberg, Eric M., DiGiovanni, David J.

    Published in Optical fiber technology (01-02-2017)
    “…•Recent development of multicore amplifiers for space division multiplexed signals is reviewed.•The different key components and various pumping architectures…”
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    Journal Article
  16. 16

    37-cell hollow-core-fiber designs with improved single-modedness by Fini, John M., Mangan, Brian, Meng, Linli, Monberg, Eric M., Nicholson, Jeffrey W., Windeler, Robert S.

    “…Simulations show that resonant shunt cores for suppression of higher-order modes in hollow-core fibers can be applied broadly, to cores larger than 19-cell and…”
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    Conference Proceeding
  17. 17

    Polarization maintaining dispersion compensating fiber by Gruner-Nielsen, Lars, Geisler, Tommy, Fini, John, Yan, Man F., Wisk, Patrick W., Mangan, Brian, Monberg, Eric M.

    “…For the first time fabrication results are presented for a polarization maintaining dispersion compensating fiber. Measurement of phase and group birefringence…”
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    Conference Proceeding
  18. 18

    Single-mode hollow core photonic bandgap fibers by Linli Meng, Fini, John M., Nicholson, Jeffrey W., Windeler, Robert S., Monberg, Eric M., Mangan, Brian, DeSantolo, Anthony, DiMarcello, Frank V.

    Published in CLEO: 2013 (01-06-2013)
    “…We demonstrate the first measured hollow-core fiber employing Perturbed Resonance for Improved Single Modedness (PRISM). The fiber has fundamental-mode loss of…”
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    Conference Proceeding
  19. 19

    Kilometer length, low loss enhanced back scattering fiber for distributed sensing by Westbrook, Paul S., Feder, Kenneth S., Ortiz, Roy M., Kremp, Tristan, Monberg, Eric M.

    “…We demonstrate a 1km long optical fiber with continuous grating enhanced back scattering and attenuation close to standard single mode fiber. Scattering was…”
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    Conference Proceeding
  20. 20

    Polarization-maintaining fiber for guiding light in large-effective-area higher-order-modes by Ahmad, Raja, Nicholson, Jeffrey W., Abedin, Kazi S., Westbrook, Paul S., Headley, Clifford, Wisk, Patrick W., Monberg, Eric M., Yan, Man F., DiGiovanni, David J.

    “…We present a polarization-maintaining (PM) fiber for higher-order optical modes (HOMs) with effective area 1200-2800 μm 2 . The LP 08 (LP 01 ) mode exhibits a…”
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    Conference Proceeding