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Heterogeneous integration on silicon photonics

(2018) PROCEEDINGS OF THE IEEE. 106(12). p.2258-2269
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Center for nano- and biophotonics (NB-Photonics)
Abstract
To enhance the functionality of the standard silicon photonics platform and to overcome its limitations, in particular for light emission, ultrafast modulation, and nonlinear applications, integration with novel materials is being investigated by several groups. In this paper, we will discuss, among others, the integration of silicon waveguides with ferroelectric materials such as lead zirconate titanate (PZT) and barium titanate (BTO), with electro-optically active polymers, with 2-D materials such as graphene and with III-V semiconductors through epitaxy. We discuss both the technology and design aspects.
Keywords
ORGANIC HYBRID SOH, QUANTUM-DOT LASERS, WAVE-GUIDE, ELECTROOPTICAL, MODULATION, GRAPHENE PHOTODETECTOR, HIGH-RESPONSIVITY, HIGH-SPEED, SI, BATIO3, GENERATION, Electro-optic modulation, hybrid integration, integrated optics, laser, silicon photonics, III-V on silicon epitaxy

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Citation

Please use this url to cite or link to this publication:

Chicago
Marshall, Owen, Mark Hsu, Zhechao Wang, Bernardette Kunert, Christian Koos, and Dries Van Thourhout. 2018. “Heterogeneous Integration on Silicon Photonics.” Proceedings of the Ieee 106 (12): 2258–2269.
APA
Marshall, O., Hsu, M., Wang, Z., Kunert, B., Koos, C., & Van Thourhout, D. (2018). Heterogeneous integration on silicon photonics. PROCEEDINGS OF THE IEEE, 106(12), 2258–2269.
Vancouver
1.
Marshall O, Hsu M, Wang Z, Kunert B, Koos C, Van Thourhout D. Heterogeneous integration on silicon photonics. PROCEEDINGS OF THE IEEE. Piscataway: Ieee-inst Electrical Electronics Engineers Inc; 2018;106(12):2258–69.
MLA
Marshall, Owen et al. “Heterogeneous Integration on Silicon Photonics.” PROCEEDINGS OF THE IEEE 106.12 (2018): 2258–2269. Print.
@article{8606026,
  abstract     = {To enhance the functionality of the standard silicon photonics platform and to overcome its limitations, in particular for light emission, ultrafast modulation, and nonlinear applications, integration with novel materials is being investigated by several groups. In this paper, we will discuss, among others, the integration of silicon waveguides with ferroelectric materials such as lead zirconate titanate (PZT) and barium titanate (BTO), with electro-optically active polymers, with 2-D materials such as graphene and with III-V semiconductors through epitaxy. We discuss both the technology and design aspects.},
  author       = {Marshall, Owen and Hsu, Mark and Wang, Zhechao and Kunert, Bernardette and Koos, Christian and Van Thourhout, Dries},
  issn         = {0018-9219},
  journal      = {PROCEEDINGS OF THE IEEE},
  language     = {eng},
  number       = {12},
  pages        = {2258--2269},
  publisher    = {Ieee-inst Electrical Electronics Engineers Inc},
  title        = {Heterogeneous integration on silicon photonics},
  url          = {http://dx.doi.org/10.1109/JPROC.2018.2858542},
  volume       = {106},
  year         = {2018},
}

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