DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links

P. Bernasconi, L. Buhl, D. T. Neilson, J. H. Sinsky, N. Basavanhally, C. Bolle, M. A. Cappuzzo, E. Y. Chen, M. Earnshaw, R. Farah, R. Frahm, A. Gasparyan, D. Gill, L. Gomez, R. Keller, F. Klemens, P. Kolodner, Y. Low, R. Papazian, F. Pardo & 31 others D. Ramsey, Mahmoud Rasras, T. Salamon, E. M. Simon, E. Sutter, M. Achouche, S. Barbet, F. Blanche, F. Brillouet, N. Chimot, J. Decobert, H. Debregeas, O. Drisse, F. Franchin, H. Gariah, J. L. Gentner, G. Glastre, N. Lagay, D. Lanteri, F. Lelarge, F. Mallecot, F. Pommereau, J. G. Provost, G. Azzini, L. Fratta, P. Galli, V. Guja, S. Jovane, D. Palmisano, F. Perego, R. Peruta

    Research output: Contribution to journalArticle

    Abstract

    Compact parallel transmitters and receivers with an aggregate capacity of 107 Gb/s are built through hybrid integration of arrays of ten 100-GHz spaced directly modulated lasers, arrays of ten avalanche photodiodes, and high-index contrast silica arrayed waveguide grating multi- and demultiplexers. Unamplified transmission over 75 km of standard single-mode fiber and 155-km amplified links is demonstrated in the C-band, by using a modulation format based on spectral offset filtering and electronic dispersion compensation.

    Original languageEnglish (US)
    Article number6241404
    Pages (from-to)1657-1659
    Number of pages3
    JournalIEEE Photonics Technology Letters
    Volume24
    Issue number18
    DOIs
    StatePublished - Sep 10 2012

    Fingerprint

    Arrayed waveguide gratings
    Dispersion compensation
    Dense wavelength division multiplexing
    Avalanche photodiodes
    laser arrays
    C band
    Single mode fibers
    Silicon Dioxide
    avalanches
    transmitters
    Telecommunication links
    format
    photodiodes
    Transmitters
    receivers
    Silica
    Modulation
    gratings
    silicon dioxide
    waveguides

    Keywords

    • Hybrid photonic integration
    • optical communication systems
    • optical transmitters and receivers

    ASJC Scopus subject areas

    • Electronic, Optical and Magnetic Materials
    • Atomic and Molecular Physics, and Optics
    • Electrical and Electronic Engineering

    Cite this

    Bernasconi, P., Buhl, L., Neilson, D. T., Sinsky, J. H., Basavanhally, N., Bolle, C., ... Peruta, R. (2012). DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links. IEEE Photonics Technology Letters, 24(18), 1657-1659. [6241404]. https://doi.org/10.1109/LPT.2012.2208948

    DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links. / Bernasconi, P.; Buhl, L.; Neilson, D. T.; Sinsky, J. H.; Basavanhally, N.; Bolle, C.; Cappuzzo, M. A.; Chen, E. Y.; Earnshaw, M.; Farah, R.; Frahm, R.; Gasparyan, A.; Gill, D.; Gomez, L.; Keller, R.; Klemens, F.; Kolodner, P.; Low, Y.; Papazian, R.; Pardo, F.; Ramsey, D.; Rasras, Mahmoud; Salamon, T.; Simon, E. M.; Sutter, E.; Achouche, M.; Barbet, S.; Blanche, F.; Brillouet, F.; Chimot, N.; Decobert, J.; Debregeas, H.; Drisse, O.; Franchin, F.; Gariah, H.; Gentner, J. L.; Glastre, G.; Lagay, N.; Lanteri, D.; Lelarge, F.; Mallecot, F.; Pommereau, F.; Provost, J. G.; Azzini, G.; Fratta, L.; Galli, P.; Guja, V.; Jovane, S.; Palmisano, D.; Perego, F.; Peruta, R.

    In: IEEE Photonics Technology Letters, Vol. 24, No. 18, 6241404, 10.09.2012, p. 1657-1659.

    Research output: Contribution to journalArticle

    Bernasconi, P, Buhl, L, Neilson, DT, Sinsky, JH, Basavanhally, N, Bolle, C, Cappuzzo, MA, Chen, EY, Earnshaw, M, Farah, R, Frahm, R, Gasparyan, A, Gill, D, Gomez, L, Keller, R, Klemens, F, Kolodner, P, Low, Y, Papazian, R, Pardo, F, Ramsey, D, Rasras, M, Salamon, T, Simon, EM, Sutter, E, Achouche, M, Barbet, S, Blanche, F, Brillouet, F, Chimot, N, Decobert, J, Debregeas, H, Drisse, O, Franchin, F, Gariah, H, Gentner, JL, Glastre, G, Lagay, N, Lanteri, D, Lelarge, F, Mallecot, F, Pommereau, F, Provost, JG, Azzini, G, Fratta, L, Galli, P, Guja, V, Jovane, S, Palmisano, D, Perego, F & Peruta, R 2012, 'DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links', IEEE Photonics Technology Letters, vol. 24, no. 18, 6241404, pp. 1657-1659. https://doi.org/10.1109/LPT.2012.2208948
    Bernasconi P, Buhl L, Neilson DT, Sinsky JH, Basavanhally N, Bolle C et al. DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links. IEEE Photonics Technology Letters. 2012 Sep 10;24(18):1657-1659. 6241404. https://doi.org/10.1109/LPT.2012.2208948
    Bernasconi, P. ; Buhl, L. ; Neilson, D. T. ; Sinsky, J. H. ; Basavanhally, N. ; Bolle, C. ; Cappuzzo, M. A. ; Chen, E. Y. ; Earnshaw, M. ; Farah, R. ; Frahm, R. ; Gasparyan, A. ; Gill, D. ; Gomez, L. ; Keller, R. ; Klemens, F. ; Kolodner, P. ; Low, Y. ; Papazian, R. ; Pardo, F. ; Ramsey, D. ; Rasras, Mahmoud ; Salamon, T. ; Simon, E. M. ; Sutter, E. ; Achouche, M. ; Barbet, S. ; Blanche, F. ; Brillouet, F. ; Chimot, N. ; Decobert, J. ; Debregeas, H. ; Drisse, O. ; Franchin, F. ; Gariah, H. ; Gentner, J. L. ; Glastre, G. ; Lagay, N. ; Lanteri, D. ; Lelarge, F. ; Mallecot, F. ; Pommereau, F. ; Provost, J. G. ; Azzini, G. ; Fratta, L. ; Galli, P. ; Guja, V. ; Jovane, S. ; Palmisano, D. ; Perego, F. ; Peruta, R. / DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links. In: IEEE Photonics Technology Letters. 2012 ; Vol. 24, No. 18. pp. 1657-1659.
    @article{630e64444d9a4e52a657a5dd584aa9d2,
    title = "DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links",
    abstract = "Compact parallel transmitters and receivers with an aggregate capacity of 107 Gb/s are built through hybrid integration of arrays of ten 100-GHz spaced directly modulated lasers, arrays of ten avalanche photodiodes, and high-index contrast silica arrayed waveguide grating multi- and demultiplexers. Unamplified transmission over 75 km of standard single-mode fiber and 155-km amplified links is demonstrated in the C-band, by using a modulation format based on spectral offset filtering and electronic dispersion compensation.",
    keywords = "Hybrid photonic integration, optical communication systems, optical transmitters and receivers",
    author = "P. Bernasconi and L. Buhl and Neilson, {D. T.} and Sinsky, {J. H.} and N. Basavanhally and C. Bolle and Cappuzzo, {M. A.} and Chen, {E. Y.} and M. Earnshaw and R. Farah and R. Frahm and A. Gasparyan and D. Gill and L. Gomez and R. Keller and F. Klemens and P. Kolodner and Y. Low and R. Papazian and F. Pardo and D. Ramsey and Mahmoud Rasras and T. Salamon and Simon, {E. M.} and E. Sutter and M. Achouche and S. Barbet and F. Blanche and F. Brillouet and N. Chimot and J. Decobert and H. Debregeas and O. Drisse and F. Franchin and H. Gariah and Gentner, {J. L.} and G. Glastre and N. Lagay and D. Lanteri and F. Lelarge and F. Mallecot and F. Pommereau and Provost, {J. G.} and G. Azzini and L. Fratta and P. Galli and V. Guja and S. Jovane and D. Palmisano and F. Perego and R. Peruta",
    year = "2012",
    month = "9",
    day = "10",
    doi = "10.1109/LPT.2012.2208948",
    language = "English (US)",
    volume = "24",
    pages = "1657--1659",
    journal = "IEEE Photonics Technology Letters",
    issn = "1041-1135",
    publisher = "Institute of Electrical and Electronics Engineers Inc.",
    number = "18",

    }

    TY - JOUR

    T1 - DWDM hybrid-integrated TOSA and ROSA for 10times;10.7-Gb/s transmission over 75-km links

    AU - Bernasconi, P.

    AU - Buhl, L.

    AU - Neilson, D. T.

    AU - Sinsky, J. H.

    AU - Basavanhally, N.

    AU - Bolle, C.

    AU - Cappuzzo, M. A.

    AU - Chen, E. Y.

    AU - Earnshaw, M.

    AU - Farah, R.

    AU - Frahm, R.

    AU - Gasparyan, A.

    AU - Gill, D.

    AU - Gomez, L.

    AU - Keller, R.

    AU - Klemens, F.

    AU - Kolodner, P.

    AU - Low, Y.

    AU - Papazian, R.

    AU - Pardo, F.

    AU - Ramsey, D.

    AU - Rasras, Mahmoud

    AU - Salamon, T.

    AU - Simon, E. M.

    AU - Sutter, E.

    AU - Achouche, M.

    AU - Barbet, S.

    AU - Blanche, F.

    AU - Brillouet, F.

    AU - Chimot, N.

    AU - Decobert, J.

    AU - Debregeas, H.

    AU - Drisse, O.

    AU - Franchin, F.

    AU - Gariah, H.

    AU - Gentner, J. L.

    AU - Glastre, G.

    AU - Lagay, N.

    AU - Lanteri, D.

    AU - Lelarge, F.

    AU - Mallecot, F.

    AU - Pommereau, F.

    AU - Provost, J. G.

    AU - Azzini, G.

    AU - Fratta, L.

    AU - Galli, P.

    AU - Guja, V.

    AU - Jovane, S.

    AU - Palmisano, D.

    AU - Perego, F.

    AU - Peruta, R.

    PY - 2012/9/10

    Y1 - 2012/9/10

    N2 - Compact parallel transmitters and receivers with an aggregate capacity of 107 Gb/s are built through hybrid integration of arrays of ten 100-GHz spaced directly modulated lasers, arrays of ten avalanche photodiodes, and high-index contrast silica arrayed waveguide grating multi- and demultiplexers. Unamplified transmission over 75 km of standard single-mode fiber and 155-km amplified links is demonstrated in the C-band, by using a modulation format based on spectral offset filtering and electronic dispersion compensation.

    AB - Compact parallel transmitters and receivers with an aggregate capacity of 107 Gb/s are built through hybrid integration of arrays of ten 100-GHz spaced directly modulated lasers, arrays of ten avalanche photodiodes, and high-index contrast silica arrayed waveguide grating multi- and demultiplexers. Unamplified transmission over 75 km of standard single-mode fiber and 155-km amplified links is demonstrated in the C-band, by using a modulation format based on spectral offset filtering and electronic dispersion compensation.

    KW - Hybrid photonic integration

    KW - optical communication systems

    KW - optical transmitters and receivers

    UR - http://www.scopus.com/inward/record.url?scp=84865762943&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=84865762943&partnerID=8YFLogxK

    U2 - 10.1109/LPT.2012.2208948

    DO - 10.1109/LPT.2012.2208948

    M3 - Article

    VL - 24

    SP - 1657

    EP - 1659

    JO - IEEE Photonics Technology Letters

    JF - IEEE Photonics Technology Letters

    SN - 1041-1135

    IS - 18

    M1 - 6241404

    ER -