Tymon Barwicz
Tymon Barwicz
X (Google)
Verified email at - Homepage
Cited by
Cited by
Polarization-transparent microphotonic devices in the strong confinement limit
T Barwicz, MR Watts, MA Popović, PT Rakich, L Socci, FX Kńrtner, ...
Nature Photonics 1 (1), 57-60, 2007
High performance and highly uniform gate-all-around silicon nanowire MOSFETs with wire size dependent scaling
S Bangsaruntip, GM Cohen, A Majumdar, Y Zhang, SU Engelmann, ...
2009 IEEE International Electron Devices Meeting (IEDM), 1-4, 2009
300-mm monolithic silicon photonics foundry technology
K Giewont, K Nummy, FA Anderson, J Ayala, T Barwicz, Y Bian, ...
IEEE Journal of Selected Topics in Quantum Electronics 25 (5), 1-11, 2019
Polarization rotator-splitters in standard active silicon photonics platforms
WD Sacher, T Barwicz, BJF Taylor, JKS Poon
Optics express 22 (4), 3777-3786, 2014
Three-dimensional analysis of scattering losses due to sidewall roughness in microphotonic waveguides
T Barwicz, HA Haus
Journal of Lightwave Technology 23 (9), 2719, 2005
Microring-resonator-based add-drop filters in SiN: fabrication and analysis
T Barwicz, MA Popovic, PT Rakich, MR Watts, HA Haus, EP Ippen, ...
Optics express 12 (7), 1437-1442, 2004
A 90nm CMOS integrated nano-photonics technology for 25Gbps WDM optical communications applications
S Assefa, S Shank, W Green, M Khater, E Kiewra, C Reinholm, ...
2012 International Electron Devices Meeting, 33.8. 1-33.8. 3, 2012
Multistage high-order microring-resonator add-drop filters
MA PopovÝc, T Barwicz, MR Watts, PT Rakich, L Socci, EP Ippen, ...
Optics letters 31 (17), 2571-2573, 2006
Monolithic silicon integration of scaled photonic switch fabrics, CMOS logic, and device driver circuits
BG Lee, AV Rylyakov, WMJ Green, S Assefa, CW Baks, ...
Journal of Lightwave Technology 32 (4), 743-751, 2013
Silicon photonics for compact, energy-efficient interconnects
T Barwicz, H Byun, F Gan, CW Holzwarth, MA Popovic, PT Rakich, ...
Journal of Optical Networking 6 (1), 63-73, 2007
Fabrication of add-drop filters based on frequency-matched microring resonators
T Barwicz, MA Popović, MR Watts, PT Rakich, EP Ippen, HI Smith
Journal of lightwave technology 24 (5), 2207, 2006
Maximizing the thermo-optic tuning range of silicon photonic structures
F Gan, T Barwicz, MA Popovic, MS Dahlem, CW Holzwarth, PT Rakich, ...
2007 Photonics in Switching, 67-68, 2007
A 25 Gbps silicon microring modulator based on an interleaved junction
JC Rosenberg, WMJ Green, S Assefa, DM Gill, T Barwicz, M Yang, ...
Optics express 20 (24), 26411-26423, 2012
Polarization rotator-splitters and controllers in a Si3N4-on-SOI integrated photonics platform
WD Sacher, Y Huang, L Ding, T Barwicz, JC Mikkelsen, BJF Taylor, ...
Optics express 22 (9), 11167-11174, 2014
A novel approach to photonic packaging leveraging existing high-throughput microelectronic facilities
T Barwicz, Y Taira, TW Lichoulas, N Boyer, Y Martin, H Numata, JW Nah, ...
IEEE Journal of Selected Topics in Quantum Electronics 22 (6), 455-466, 2016
Coupling modulation of microrings at rates beyond the linewidth limit
WD Sacher, WMJ Green, S Assefa, T Barwicz, H Pan, SM Shank, ...
Optics express 21 (8), 9722-9733, 2013
An O-band metamaterial converter interfacing standard optical fibers to silicon nanophotonic waveguides
T Barwicz, A Janta-Polczynski, M Khater, Y Thibodeau, R Leidy, J Maling, ...
Optical Fiber Communication Conference, Th3F. 3, 2015
Demonstration of electrooptic modulation at 2165nm using a silicon Mach-Zehnder interferometer
MA Van Camp, S Assefa, DM Gill, T Barwicz, SM Shank, PM Rice, ...
Optics express 20 (27), 28009-28016, 2012
Photocurrent induced by nonradiative energy transfer from nanocrystal quantum dots to adjacent silicon nanowire conducting channels: toward a new solar cell paradigm
S Lu, Z Lingley, T Asano, D Harris, T Barwicz, S Guha, A Madhukar
Nano letters 9 (12), 4548-4552, 2009
Low-cost interfacing of fibers to nanophotonic waveguides: design for fabrication and assembly tolerances
T Barwicz, Y Taira
IEEE Photonics Journal 6 (4), 1-18, 2014
The system can't perform the operation now. Try again later.
Articles 1–20