Mark Earnshaw

Murray Hill, NJ, USA
Activity Leader

Education

Master of Engineering, University of York 1994
Doctor of Philosophy in Engineering, University of York 1999


Selected Articles and Publications

[1] W. Pöhlmann, B. Deppisch, T. Pfeiffer, C. Ferrari, M. P. Earnshaw, A. Duque, R. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. Van Veen, and P. Vetter, “Low Cost TWDM by Wavelength‐Set Division Multiplexing,” Bell Labs Tech. J., vol. 18, no. 3, pp. 173–193, 2013.

[2] P. Bernasconi, M. P. Earnshaw, H. Debregeas, M. Achouche, J. Sinsky, D. T. Neilson, Y. Low, R. Farah, D. Ramsey, M. Rasras, N. Basavanhally, F. Pardo, and F. Brillouet, “Design and Challenges in a 100 Gb / s Hybrid-Integrated Photonic Circuit,” in ECOC, 2012, pp. 4–6.

[3] C. Bolle, M. A. Cappuzzo, E. Chen, C. Ferrari, L. T. Gomez, R. Keller, F. Klemens, Y. Low, M. Rasras, F. Pardo, M. P. Earnshaw, P. Bernasconi, and D. T. Neilson, “Compact Hybridly Integrated 10x11.1-Gb/s DWDM Optical Receiver,” Photonics Technol. Lett. IEEE, vol. 24, no. 13, pp. 1166–1168, 2012.

[4] M. S. Rasras, D. M. Gill, M. P. Earnshaw, C. R. Doerr, J. S. Weiner, C. A. Bolle, and Y.-K. Chen, “CMOS Silicon Receiver Integrated With Ge Detector and Reconfigurable Optical Filter,” Photonics Technol. Lett. IEEE, vol. 22, no. 2, pp. 112–114, Jan. 2010.

[5] C. R. Doerr, M. S. Rasras, J. S. Weiner, M. P. Earnshaw, L. Chen, and Y. K. Chen, “Diplexer With Integrated Filters and Photodetector in Ge-Si Using Gamma-$\$X$\$ and Gamma-$\$M$\$ Directions in a Grating Coupler,” Photonics Technol. Lett. IEEE, vol. 21, no. 22, pp. 1698–1700, Nov. 2009.

[6] C. Doerr, P. Winzer, S. Chandrasekhar, M. Rasras, M. P. Earnshaw, J. Weiner, D. M. Gill, and Y. K. Chen, “Monolithic silicon coherent receiver,” in OFC, 2009, no. Mmi, p. PDPB2.

[7] I. Kang, S. Chandrasekhar, L. Buhl, P. G. Bernasconi, X. Liu, C. R. Giles, C. Kazmierski, N. Dupuis, J. Decobert, F. Alexandre, C. Jany, A. Garreau, J. Landreau, M. Rasras, M. Cappuzzo, L. T. Gomez, Y. F. Chen, M. P. Earnshaw, J. Lee, A. Leven, and C. Dorrer, “A hybrid electroabsorption modulator device for generation of high spectral-efficiency optical modulation formats,” Opt. Express, vol. 16, no. 12, pp. 8480–8486, 2008.

[8] M. P. Earnshaw, M. A. Cappuzzo, E. Chen, and L. Gomez, “Ultra-low power thermo-optic silica-on-silicon waveguide membrane switch,” Electron. Lett., vol. 43, no. 7, pp. 4–5, 2007.

[9] M. Earnshaw, A. Griffin, C. Bolle, and J. Soole, “Reconfigurable optical add-drop multiplexer (ROADM) with integrated sub-band optical cross-connect,” in OFC, 2005, vol. 2, p. OTuD2.

[10] M. Earnshaw, M. Cappuzzo, E. Chen, L. Gomez, A. Griffin, E. Laskowski, A. Wong-Foy, and J. Soole, “Planar lightwave circuit based reconfigurable optical add-drop multiplexer architectures and reusable subsystem module,” Sel. Top. Quantum Electron. IEEE J., vol. 11, no. 2, pp. 313–322, 2005.

[11] J. B. D. Soole, R. Pafchek, C. Narayanan, G. Bogert, L. Jampanaboyana, N. Chand, J. Yu, M. Fischer, M. Ling, M. P. Earnshaw, K. Kojima, and V. Swaminathan, “DWDM performance of a packaged reconfigurable optical add-drop multiplexer subsystem supporting modular systems growth,” Photonics Technol. Lett. IEEE, vol. 15, no. 11, pp. 1600–1602, 2003.

[12] M. Earnshaw and J. Soole, “8× 8 optical switch matrix using generalized Mach-Zehnder interferometers,” Photonics Technol. Lett. IEEE, vol. 15, no. 6, pp. 810–812, 2003.


Patents

US7391936, Microfluidic Sensors And Methods For Making The Same
US7565038, Thermo-Optic Waveguide Apparatus
US8326109, Low-Cost Fast Variable Optical Attenuator For Optical Wavelength Tracking
US8634691,
Low-Cost Fast Variable Optical Attenuator For Optical Wavelength Tracking
US8639070, Optical Assembly For A WDM Receiver Or Transmitter