Generic foundry model for InP-based photonics
Generic foundry model for InP-based photonics
- Author(s): M. Smit ; X. Leijtens ; E. Bente ; J. Van der Tol ; H. Ambrosius ; D. Robbins ; M. Wale ; N. Grote ; M. Schell
- DOI: 10.1049/iet-opt.2010.0068
For access to this article, please select a purchase option:
Buy article PDF
Buy Knowledge Pack
IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.
Thank you
Your recommendation has been sent to your librarian.
- Author(s): M. Smit 1 ; X. Leijtens 1 ; E. Bente 1 ; J. Van der Tol 1 ; H. Ambrosius 1 ; D. Robbins 2 ; M. Wale 3 ; N. Grote 4 ; M. Schell 4
-
-
View affiliations
-
Affiliations:
1: COBRA – TU Eindhoven, Eindhoven, The Netherlands
2: Willow Photonics, Abthorpe, UK
3: Oclaro Technology Ltd, Caswell, UK
4: Fraunhofer Heinrich Hertz Institut, Berlin, Germany
-
Affiliations:
1: COBRA – TU Eindhoven, Eindhoven, The Netherlands
- Source:
Volume 5, Issue 5,
October 2011,
p.
187 – 194
DOI: 10.1049/iet-opt.2010.0068 , Print ISSN 1751-8768, Online ISSN 1751-8776
Similarities and differences between photonic and microelectronic integration technology are discussed and a vision of the development of InP-based photonic integration in the coming decade is given.
Inspec keywords: indium compounds; integrated circuits; III-V semiconductors; integrated optics
Other keywords:
Subjects: Integrated optics; Integrated optics
References
-
-
1)
- The MOSIS service: www.MOSIS.org.
-
2)
- C. Cremer , G. Ebbinghaus , G. Heise , R. Muller-Nawrath , M. Schienle , L. Stoll . Grating spectrograph in InGaAsP/InP for dense wavelength division multiplexing. Appl. Phys. Lett.
-
3)
- Clarke, C.F., Griffin, R.A., Goodall, T.C.: `Highly integrated DQPSK modules for 40 Gb/s transmission', Proc. Conf. Optical Fiber Communication, OFC 2009, March 2009, San Diego, Paper NWD3.
-
4)
- S.E. Miller . Integrated optics: an introduction. Bell Syst. Tech. J. , 2059 - 2069
-
5)
- P.K. Tien . Integrated optics and new wave phenomena in optical waveguide. Rev. Modern Phys. , 2 , 361 - 420
-
6)
- R. Kaiser . Monolithically integrated polarisation diversity heterodyne receivers on GaInAsP/InP. Electron. Lett. , 1446 - 1447
-
7)
- U. Koren , T.L. Koch , B.I. Miller . WDM light source with integrated QW tunable lasers and optical amplifier. Appl. Phys. Lett. , 2056 - 2058
-
8)
- C.G.P. Herben , D.H.P. Maat , X.J.M. Leijtens . Polarization independent dilated WDM optical cross-connect on InP. IEEE Photon. Technol. Lett. , 12 , 1599 - 1601
-
9)
- Y. Barbarin , X.J.M. Leijtens , E.A.J.M. Bente , C.M. Louzao , J.R. Kooiman , M.K. Smit . Extremely small AWG demultiplexer fabricated on InP by using a double etch process. IEEE Photonics Technol. Lett. , 11 , 2478 - 2480
-
10)
- R. Nagarajan . Large-scale photonic integrated circuits. IEEE J. Sel. Top. Quantum Electron. , 1 , 50 - 65
-
11)
- Kunkel, R., Bach, H.-G., Hoffmann, D.: `A thermal InP based 90°-hybrid Rx OEICs with pin-PDs >60 GHz for coherent DP-QPSK photoreceivers', Proc. IPRM 2010, 2010, Kagawa (Japan), p. 449–452.
-
12)
- Bente, E., Heck, M., Munoz, P.: `Fast pulsed mode-locked lasers', Proc. Opto-Electronics and Communication Conf. OECC/ACOFT 2008, 7–10 July 2008, Sydney, p. 1–4.
-
13)
- A. Carter . Unlocking the value of fab ownership. Compound Semiconductor , 1 , 34 - 37
-
14)
- U. Sharma , E.W. Chang , S.H. Yun . Long-wavelength optical coherence tomography at 1.7 µm for enhanced imaging depth. Opt. Express , 19712 - 19723
-
15)
- B. Glisic , D. Inaudi . (2007) Fibre optic methods for structural health monitoring.
-
16)
- S. Corzine . Large-scale InP transmitter PICs for PM-DQPSK fiber transmission systems. IEEE Photonics Technol. Lett. , 14 , 1015 - 1017
-
17)
- Caprioli, D., den Besten, J.H., Smalbrugge, E.: `A 10 Gb/s traveling wave MZ-modulator for integration with a laser', European Conf. Integrated Optics (ECIO), 2–4 April 2003, Prague, p. 145–148.
-
18)
- M.K. Smit , J. van der Tol , M. Hill . Moore's law in photonics.
-
19)
- Europractice: www.Europractice.org.
-
20)
- The TriPleX platform: www.lionixbv.nl/integratedoptics/triplex.
-
21)
- The InP-based platform JePPIX: www.JePPIX.eu.
-
22)
- Towards a foundry model in micro- and nanophotonics: a vision for Europe.
-
23)
- J. Van der Tol , R. Zhang , J. Pello . Photonic integration in indium-phosphide membranes on silicon (IMOS).
-
24)
- M.T. Hill , X.J.M. Leijtens , G.-D. Khoe , M.K. Smit . Optimizing imbalance and loss in 2′2 3-dB multimode interference couplers via access waveguide width. J. Lightwave Technol. , 10 , 2305 - 2313
-
25)
- PARADIGM project: www.paradigm.jeppix.eu.
-
26)
- M.J.R. Heck , A. La Porta , X.J.M. Leijtens , L.M. Augustin , T. Vries , E. de Smalbrugge , Y.S. Oei , R. Nötzel , R. Gaudino , D.J. Robbins , M.K. Smit . Monolithic AWG-based discretely tunable laser diode with nanosecond switching speed. IEEE Photonics Technol. Lett. , 13 , 905 - 907
-
27)
- EuroPIC project: www.europic.jeppix.eu.
-
28)
- M. Gustavsson , B. Lagerström , L. Thylén . Monolithically integrated 4′4 InGaAsP/InP laser amplifier gate switch arrays. Electron. Lett. , 2223 - 2225
-
29)
- Y. Barbarin , E. Bente , M. Heck . Realization and modeling of a 27-GHz integrated passively mode-locked ring laser. IEEE Photonics Technol. Lett. , 2277 - 2279
-
30)
- Y. Liu , E. Tangdiongga , M.T. Hill . Ultrafast all-optical wavelength routing of data packets utilizing an SOA-based wavelength converter and a monolithically integrated optical flip-flop. IEEE J. Sel. Top. Quantum Electron. , 801 - 807
-
31)
- L.M. Augustin , R. Hanfoug , J.J.G.M. van der Tol , W.J.M. de Laat , M.K. Smit . A compact integrated polarization splitter/converter in InGaAsP–InP. IEEE Photon. Technol. Lett. , 17 , 1286 - 1288
-
32)
- The silicon-photonics platform ePIXfab: www.epixfab.eu.
-
33)
- Piña, C.A.: `Evolution of the MOSIS VLSI educational program', Proc. First IEEE Int. Workshop on Electronic Design, Test and Applications (DELTA'02), 29–31 January 2002, Christchurch, New Zealand.
-
1)