PROJECT INFORMATION

 1. Project Flyer

 2. Silicon photonics: silicon nitride versus silicon-on-isolator

 

CONFERENCE PROCEEDINGS

2016

  1. T. Klos, S. Steup, J. Witzens, S. Romero García, D. Geuzebroek, J. van Kerkhof, P. Leisching, "Photonic integrated circuits for multi-color laser engines," Proc. of micro photonics International Congress Expo, 2016.
  2. D. Geuzebroek, “PIX4life: SiN Photonic IC pilot line for integrated bio-photonic applications in the visible range,” Proc. of micro photonics International Congress Expo, 2016.
  3. E. P. Haglund, S. Kumari, E. Haglund, J. S. Gustavsson, R. G. Baets, G. Roelkens, and A. Larsson, "Impact of Bonding Interface Thickness on the Performance of Silicon-Integrated Hybrid-Cavity VCSELs," Proc. of ISLC, 2016. [link]
  4. E.P. Haglund, S. Kumari, P. Westbergh, J.S. Gustavsson, G. Roelkens, R. Baets, and A. Larsson, ”Dynamic properties of silicon-integrated short-wavelength hybrid-cavity VCSEL”, Proc. SPIE, vol. 9766, 976607 (2016). [link]
  5. G. Roelkens, E. P. Haglund, S. Kumari, E. Haglund, J. S. Gustavsson, R. Baets, A. Larsson, “850 nm hybrid vertical cavity laser integration for on-chip silicon photonics light sources”, OFC The Optical Networking and Communication Conference & Exhibition (invited), United States, p.W3E.6 (2016). [link]
  6. X. Nie, E. Ryckeboer, G. Roelkens, and R. G. F. Baets, "Broadband Stationary Fourier Transform Spectrometer Integrated on a Silicon Nitride Photonics Platform," in Light, Energy and the Environment, OSA Technical Digest (online) (Optical Society of America, 2016( [link]

2017

  1. A. Larsson, E.P. Haglund, S. Kumari, J.S. Gustavsson, E. Haglund, G. Roelkens, and R.G. Baets, "Hybrid Vertical-Cavity Laser Integration on Silicon," (invited paper) Proc. of SPIE Photonics West 2017, SPIE 10122, Vertical-Cavity Surface-Emitting Lasers XXI, 101220H (February 25, 2017). [link]
  2. S. Romero-Garcia, T. Klos, E. Klein, J. Leuermann, D. Geuzebroek, J. Van Kerhof, M. Büscher, J. Krieg, P. Leisching and J. Witzens, “Photonic integrated circuits for multi-color laser engines,” Proc. SPIE 10108, Silicon Photonics XII. 101080Z (2017) [link]
  3. J. P. Epping, D. Marchenko, A. Leinse, R. Mateman, M. Hoekman, L. Wevers, C. G. H. Roeloffzen, M. Dekkers, and R. G. Heideman, “Ultra-low-power stress-optics modulator for microwave photonics,”  Proc. of SPIE Photonics West 2017, SPIE 10106, Integrated Optics: Devices, Materials, and Technologies XXI, 101060F (February 16, 2017). [link]
  4. L. Lagae, “SiN biophotonic IC’s for life sciences - a trillion dollar opportunity?” PIC International 2017, 7-8/3/17, Brussels, Belgium. [link]
  5. J.S. Gustavsson, S. Kumari, E.P. Haglund, J. Bengtsson, G. Roelkens, R. Baets, A. Larsson, Silicon-Integrated Hybrid-Vertical-Cavity Lasers for Life Science Applications, (invited) publication in 30th Annual conference of the IEEE Photonics Society (IPC).
  6. G. Roelkens, E. P. Haglund, S. Kumasi, E. Haglund, J. Gustavsson, R. Baets, and A. G. Larsson, "850 nm hybrid vertical cavity laser integration for on-chip silicon photonics light sources," in Optical Fiber Communication Conference, paper W3E.6. (2017)
  7. P. Muñoz et al., "State of the art of Silicon Nitride photonics integration platforms," 2017 19th International Conference on Transparent Optical Networks (ICTON), Girona, Spain, 2017, pp. 1-4.

 

PEER-REVIEWED JOURNALS

2016

  1. E. P. Haglund et al., "Silicon-Integrated Hybrid-Cavity 850-nm VCSELs by Adhesive Bonding: Impact of Bonding Interface Thickness on Laser Performance," in IEEE Journal of Selected Topics in Quantum Electronics, vol. 23, no. 6, Nov.-Dec. 2016, Paper no. 1700109. [link]

2017

  1. A. Rahim; E. Ryckeboer; A. Subramanian; S. Clemmen; b. kuyken; A. Dhakal; A. Raza; A. Hermans; M. Muneeb; S. Dhoore; Y. Li; U. Dave; P. Bienstman; N. LeThomas; G. Roelkens; D. Van Thourhout; X. Rottenberg; P. Helin; S. Severi; R. Baets, “Expanding the Silicon Photonics Portfolio with Silicon Nitride Photonic Integrated Circuits,” Journal of Lightwave Technology, 2017. [link]
  2. X. Nie, E. Ryckeboer, G. Roelkens, R. Baets, “CMOS-Compatible Broadband Co-propagative Stationary Fourier Transform Spectrometer Integrated on a Silicon Nitride Photonics Platform” Optic Express, Vol. 25, Issue 8, pp. A409-A418 (2017). [link]
  3. S. Kumari, J. S. Gustavsson, E. P. Haglund, J. Bengtsson, A. Larsson, G. Roelkens, R. Baets, “Design of an 845 nm GaAs vertical-cavity silicon integrated laser with an intra-cavity grating for coupling to a SiN waveguide circuit” , IEEE Photonics Journal, vol. 9, no. 4, pp. 1-9, Aug. (2017) [link]
  4. A. Rahim et al., "Expanding the Silicon Photonics Portfolio With Silicon Nitride Photonic Integrated Circuits," in Journal of Lightwave Technology, vol. 35, no. 4, pp. 639-649, Feb.15, 15 2017. [link]

 

MAGAZINES

2016

  1. "PIX4life targets biophotonics with visible-range PICs, development capacity build," Laser focus world, June 2016 [link]

2017

  1. “Biophotonics‐on‐Chip: Great potential for medical devices” Novus light today, May 2017. [link]
  2. Imec, “SMART HEALTH – DIAGNOSTICS” New-Tech Magazine Europe, pp. 46-51, June 2017. [link]
  3. Biophotonics Insights from Prof. Liesbet Lagae, IMEC, Belgium.
  4. “Lighting up Silicon Photonics, ” CS magazine, submitted [link]
  5. VLC Photonics “Photonic Integration: New applications are visible”, Optik & Photonik, June 2017  [Link]
  6. A.B. Gonzalez, J. Pozo, “The biophotonics revolution in healthcare”, Optik & Photonik, June 2017 [link]