Zhe Xuan
Zhe Xuan
Email verificata su intel.com
TitoloCitata daAnno
Silicon photonics: the next fabless semiconductor industry
M Hochberg, NC Harris, R Ding, Y Zhang, A Novack, Z Xuan, ...
IEEE Solid-State Circuits Magazine 5 (1), 48-58, 2013
1212013
Germanium photodetector with 60 GHz bandwidth using inductive gain peaking
A Novack, M Gould, Y Yang, Z Xuan, M Streshinsky, Y Liu, G Capellini, ...
Optics Express 21 (23), 28387-28393, 2013
902013
Highly linear silicon traveling wave Mach-Zehnder carrier depletion modulator based on differential drive
M Streshinsky, A Ayazi, Z Xuan, AEJ Lim, GQ Lo, T Baehr-Jones, ...
Optics express 21 (3), 3818-3825, 2013
692013
A 25 Gb/s, 4.4 V-Swing, AC-Coupled Ring Modulator-Based WDM Transmitter with Wavelength Stabilization in 65 nm CMOS
H Li, Z Xuan, A Titriku, C Li, K Yu, B Wang, A Shafik, N Qi, Y Liu, R Ding, ...
IEEE Journal of Solid-State Circuits 50 (12), 3145-3159, 2015
582015
Ultra-compact 320 Gb/s and 160 Gb/s WDM transmitters based on silicon microrings
Y Liu, R Ding, Q Li, Z Xuan, Y Li, Y Yang, AEJ Lim, PGQ Lo, K Bergman, ...
Optical Fiber Communications Conference and Exhibition (OFC), 2014, 1-3, 2014
362014
22.6 A 25Gb/s 4.4 V-swing AC-coupled Si-photonic microring transmitter with 2-tap asymmetric FFE and dynamic thermal tuning in 65nm CMOS
H Li, Z Xuan, A Titriku, C Li, K Yu, B Wang, A Shafik, N Qi, Y Liu, R Ding, ...
2015 IEEE International Solid-State Circuits Conference-(ISSCC) Digest of …, 2015
262015
A Compact Low-Power 320-Gb/s WDM Transmitter Based on Silicon Microrings
R Ding, Y Liu, Q Li, Z Xuan, Y Ma, Y Yang, AEJ Lim, GQ Lo, K Bergman, ...
Photonics Journal, IEEE 6 (3), 1-8, 2014
232014
Silicon microring modulator for 40 Gb/s NRZ-OOK metro networks in O-band
Z Xuan, Y Ma, Y Liu, R Ding, Y Li, N Ophir, AEJ Lim, GQ Lo, P Magill, ...
Optics Express 22 (23), 28284-28291, 2014
222014
Silicon Mod-MUX-Ring transmitter with 4 channels at 40 Gb/s
Y Liu, R Ding, Y Ma, Y Yang, Z Xuan, Q Li, AEJ Lim, GQ Lo, K Bergman, ...
Optics Express 22 (13), 16431-16438, 2014
222014
Silicon multi-project wafer platforms for optoelectronic system integration
Y Zhang, T Baehr-Jones, R Ding, T Pinguet, Z Xuan, M Hochberg
The 9th International Conference on Group IV Photonics (GFP), 63-65, 2012
162012
Silicon Microring Based Modulator and Filter for High Speed Transmitters at 1310 nm
Y Ma, Z Xuan, Y Liu, R Ding, Y Li, AE Lim, G Lo, T Baehr-Jones, ...
IEEE Opt. Interconnect Conf. MC6, 23-24, 2014
102014
A low-power hybrid-integrated 40-Gb/s optical receiver in silicon
Z Xuan, R Ding, Y Liu, T Baehr-Jones, M Hochberg, F Aflatouni
IEEE Transactions on Microwave Theory and Techniques 66 (1), 589-595, 2017
82017
100-Gb/s NRZ optical transceiver analog front-end in 130-nm SiGe BiCMOS
R Ding, Z Xuan, P Yao, D Prather, M Hochberg, T Baehr-Jones
Optical Interconnects Conference, 2014 IEEE, 113-114, 2014
82014
Power-efficient low-noise 86 GHz broadband amplifier in 130 nm SiGe BiCMOS
R Ding, Z Xuan, P Yao, T Baehr-Jones, D Prather, M Hochberg
Electronics Letters 50 (10), 741-743, 2014
72014
A 40-GHz bandwidth transimpedance amplifier with adjustable gain-peaking in 65-nm CMOS
R Ding, Z Xuan, T Baehr-Jones, M Hochberg
2014 IEEE 57th International Midwest Symposium on Circuits and Systems …, 2014
62014
A 92 mW, 20 dB gain, broadband lumped SiGe amplifier with bandwidth exceeding 67 GHz
Z Xuan, R Ding, T Baehr-Jones, M Hochberg
2013 IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), 107-110, 2013
62013
A low-power 40 Gb/s optical receiver in silicon
Z Xuan, R Ding, Y Liu, T Baehr-Jones, M Hochberg, F Aflatouni
2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 315-318, 2015
52015
Frequency locking of semiconductor lasers to RF oscillators using hybrid-integrated opto-electronic oscillators with dispersive delay lines
Z Xuan, L Du, F Aflatouni
Optics Express 27 (8), 10729-10737, 2019
12019
Direct Frequency Locking of Lasers to RF Oscillators
Z Xuan, L Du, F Aflatouni
2018 IEEE Optical Interconnects Conference (OI), 15-16, 2018
12018
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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