Nanophotonic Devices for Optical Interconnect

Publication: Research - peer-review › Journal article – Annual report year: 2010

Standard

Nanophotonic Devices for Optical Interconnect. / Van Thourhout, D.; Spuesens, T.; Selvaraja, S.K.; Liu, Liu; Roelkens, G.; Kumar, R.; Morthier, G.; Rojo-Romeo, P.; Mandorlo, F.; Regreny, P.; Raz, O.; Kopp, C.; Grenouillet, L.

In: I E E E Journal on Selected Topics in Quantum Electronics, Vol. 16, No. 5, 2010, p. 1363-1375.

Publication: Research - peer-review › Journal article – Annual report year: 2010

Harvard

Van Thourhout, D, Spuesens, T, Selvaraja, SK, Liu, L, Roelkens, G, Kumar, R, Morthier, G, Rojo-Romeo, P, Mandorlo, F, Regreny, P, Raz, O, Kopp, C & Grenouillet, L 2010, 'Nanophotonic Devices for Optical Interconnect' I E E E Journal on Selected Topics in Quantum Electronics, vol 16, no. 5, pp. 1363-1375.

APA

Van Thourhout, D., Spuesens, T., Selvaraja, S. K., Liu, L., Roelkens, G., Kumar, R., Morthier, G., Rojo-Romeo, P., Mandorlo, F., Regreny, P., Raz, O., Kopp, C., & Grenouillet, L. (2010). Nanophotonic Devices for Optical Interconnect. I E E E Journal on Selected Topics in Quantum Electronics, 16(5), 1363-1375.

CBE

Van Thourhout D, Spuesens T, Selvaraja SK, Liu L, Roelkens G, Kumar R, Morthier G, Rojo-Romeo P, Mandorlo F, Regreny P, Raz O, Kopp C, Grenouillet L. 2010. Nanophotonic Devices for Optical Interconnect. I E E E Journal on Selected Topics in Quantum Electronics. 16(5):1363-1375.

MLA

Van Thourhout, D. et al."Nanophotonic Devices for Optical Interconnect". I E E E Journal on Selected Topics in Quantum Electronics. 2010, 16(5). 1363-1375.

Vancouver

Van Thourhout D, Spuesens T, Selvaraja SK, Liu L, Roelkens G, Kumar R et al. Nanophotonic Devices for Optical Interconnect. I E E E Journal on Selected Topics in Quantum Electronics. 2010;16(5):1363-1375.

Author

Van Thourhout, D.; Spuesens, T.; Selvaraja, S.K.; Liu, Liu; Roelkens, G.; Kumar, R.; Morthier, G.; Rojo-Romeo, P.; Mandorlo, F.; Regreny, P.; Raz, O.; Kopp, C.; Grenouillet, L. / Nanophotonic Devices for Optical Interconnect.

In: I E E E Journal on Selected Topics in Quantum Electronics, Vol. 16, No. 5, 2010, p. 1363-1375.

Publication: Research - peer-review › Journal article – Annual report year: 2010

Bibtex

@article{c156bae0fe4848e8a721982305757468,

title = "Nanophotonic Devices for Optical Interconnect",

publisher = "I E E E",

author = "{Van Thourhout}, D. and T. Spuesens and S.K. Selvaraja and Liu Liu and G. Roelkens and R. Kumar and G. Morthier and P. Rojo-Romeo and F. Mandorlo and P. Regreny and O. Raz and C. Kopp and L. Grenouillet",

year = "2010",

volume = "16",

number = "5",

pages = "1363--1375",

journal = "I E E E Journal on Selected Topics in Quantum Electronics",

issn = "1077-260X",

}

RIS

TY - JOUR

T1 - Nanophotonic Devices for Optical Interconnect

A1 - Van Thourhout,D.

A1 - Spuesens,T.

A1 - Selvaraja,S.K.

A1 - Liu,Liu

A1 - Roelkens,G.

A1 - Kumar,R.

A1 - Morthier,G.

A1 - Rojo-Romeo,P.

A1 - Mandorlo,F.

A1 - Regreny,P.

A1 - Raz,O.

A1 - Kopp,C.

A1 - Grenouillet,L.

AU - Van Thourhout,D.

AU - Spuesens,T.

AU - Selvaraja,S.K.

AU - Liu,Liu

AU - Roelkens,G.

AU - Kumar,R.

AU - Morthier,G.

AU - Rojo-Romeo,P.

AU - Mandorlo,F.

AU - Regreny,P.

AU - Raz,O.

AU - Kopp,C.

AU - Grenouillet,L.

PB - I E E E

PY - 2010

Y1 - 2010

N2 - We review recent progress in nanophotonic devices for compact optical interconnect networks. We focus on microdisk-laser-based transmitters and discuss improved design and advanced functionality including all-optical wavelength conversion and flip-flops. Next we discuss the fabrication uniformity of the passive routing circuits and their thermal tuning. Finally, we discuss the performance of a wavelength selective detector.

AB - We review recent progress in nanophotonic devices for compact optical interconnect networks. We focus on microdisk-laser-based transmitters and discuss improved design and advanced functionality including all-optical wavelength conversion and flip-flops. Next we discuss the fabrication uniformity of the passive routing circuits and their thermal tuning. Finally, we discuss the performance of a wavelength selective detector.

KW - photonic integration

KW - network-on-chip

KW - process uniformity

KW - silicon-on-insulator (SOI)

KW - heterogeneous integration

KW - microdisk laser (MDL)

KW - Flip-flop

KW - wavelength conversion

U2 - 10.1109/JSTQE.2010.2040711

DO - 10.1109/JSTQE.2010.2040711

JO - I E E E Journal on Selected Topics in Quantum Electronics

JF - I E E E Journal on Selected Topics in Quantum Electronics

SN - 1077-260X

IS - 5

VL - 16

SP - 1363

EP - 1375

ER -