Jeremy Witzens
Jeremy Witzens
Professor of Electrical Engineering, RWTH Aachen University
Verified email at - Homepage
Cited by
Cited by
Self-collimation in planar photonic crystals
J Witzens, M Loncar, A Scherer
IEEE Journal of Selected Topics in Quantum Electronics 8 (6), 1246-1257, 2002
Optically pumped GeSn microdisk lasers on Si
D Stange, S Wirths, R Geiger, C Schulte-Braucks, B Marzban, ...
ACS photonics 3 (7), 1279-1285, 2016
Silicon nitride CMOS-compatible platform for integrated photonics applications at visible wavelengths
S Romero-García, F Merget, F Zhong, H Finkelstein, J Witzens
Optics express 21 (12), 14036-14046, 2013
Demonstration of a low VπL modulator with GHz bandwidth based on electro-optic polymer-clad silicon slot waveguides
R Ding, T Baehr-Jones, Y Liu, R Bojko, J Witzens, S Huang, J Luo, ...
Optics Express 18 (15), 15618-15623, 2010
Liquid-crystal electric tuning of a photonic crystal laser
B Maune, M Lončar, J Witzens, M Hochberg, T Baehr-Jones, D Psaltis, ...
Applied Physics Letters 85 (3), 360-362, 2004
High-speed silicon photonics modulators
J Witzens
Proceedings of the IEEE 106 (12), 2158-2182, 2018
Polarization splitting grating couplers
LC Gunn III, TJ Pinguet, MJ Rattier, J Witzens
US Patent 7,298,945, 2007
GeSn/SiGeSn heterostructure and multi quantum well lasers
D Stange, N von den Driesch, T Zabel, F Armand-Pilon, D Rainko, ...
ACS photonics 5 (11), 4628-4636, 2018
Monolithically integrated high-speed CMOS photonic transceivers
T Pinguet, B Analui, E Balmater, D Guckenberger, M Harrison, ...
2008 5th IEEE international conference on group IV photonics, 362-364, 2008
A four-channel, 10Gbps monolithic optical receiver in 130nm CMOS with integrated Ge waveguide photodetectors
G Masini, G Capellini, J Witzens, C Gunn
Optical Fiber Communication Conference, PDP31, 2007
Optical peaking enhancement in high-speed ring modulators
J Müller, F Merget, SS Azadeh, J Hauck, SR García, B Shen, J Witzens
Scientific reports 4 (1), 1-9, 2014
Design of transmission line driven slot waveguide Mach-Zehnder interferometers and application to analog optical links
J Witzens, T Baehr-Jones, M Hochberg
Optics express 18 (16), 16902-16928, 2010
Fiber to chip coupler
LC Gunn III, TJ Pinguet, MJ Rattier, ZL Ji, J Witzens
US Patent 7,162,124, 2007
High-speed near infrared optical receivers based on Ge waveguide photodetectors integrated in a CMOS process
G Masini, S Sahni, G Capellini, J Witzens, C Gunn
Adv. Opt. Technol 196572, 2008, 2008
Low Vπ Silicon photonics modulators with highly linear epitaxially grown phase shifters
SS Azadeh, F Merget, S Romero-García, A Moscoso-Mártir, ...
Optics express 23 (18), 23526-23550, 2015
An ultra low power CMOS photonics technology platform for H/S optoelectronic transceivers at less than $1 per Gbps
A Narasimha, S Abdalla, C Bradbury, A Clark, J Clymore, J Coyne, A Dahl, ...
Optical Fiber Communication Conference, OMV4, 2010
A 40-Gb/s QSFP optoelectronic transceiver in a 0.13 µm CMOS Silicon-on-Insulator Technology
A Narasimha, B Analui, E Balmater, A Clark, T Gal, D Guckenberger, ...
Optical Fiber Communication Conference, 2008
Hybrid multi-chip assembly of optical communication engines by in situ 3D nano-lithography
M Blaicher, MR Billah, J Kemal, T Hoose, P Marin-Palomo, A Hofmann, ...
Light: Science & Applications 9 (1), 71, 2020
Mode matching interface for efficient coupling of light into planar photonic crystals
J Witzens, M Hochberg, T Baehr-Jones, A Scherer
Physical Review E 69 (4), 046609, 2004
Monolithic Infrared Silicon Photonics: The Rise of (Si) GeSn Semiconductors
O Moutanabbir, S Assali, X Gong, E O'Reilly, C Broderick, B Marzban, ...
Applied Physics Letters 118, 110502, 2021
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