Leonardo Marcon scite author profile

Silicon Photonics shows considerable potential as a radiation-hard technology for building the optical data transmission links for future high-energy physics experiments at CERN. Optical modulators are a key component of optical links, which will need to withstand radiation doses in excess of 10 MGy. The geometrical parameters and doping concentrations of two popular types of Silicon Photonics modulators, Mach-Zehnder and Ring Modulators, have been varied in order to study their impact on the device radiation tolerance. They were exposed to an X-ray beam to test their resistance to ionizing radiation. The Ring Modulator with the highest doping concentration is shown to be the most tolerant, showing no degradation in performance up to the highest dose of 11 MGy. Moreover, we report first evidence of the dependence of the radiation tolerance on the Ring Modulator operating temperature.

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Single Channel 106 Gbit/s 16QAM Wireless Transmission in the 0.4 THz Band

Pang

Jia

Ozoliņš

et al. 2017

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Mode Coupling Analysis of Hollow Ring-Core Fibers for OAM Transmission

Lonardi

Guerra

Marcon

et al. 2017

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Leonardo Marcon

260 Gbit/s photonic-wireless link in the THz band

High-frequency high-resolution distributed acoustic sensing by optical frequency domain reflectometry

Ionizing Radiation Effects in Silicon Photonics Modulators

Single Channel 106 Gbit/s 16QAM Wireless Transmission in the 0.4 THz Band

Mode Coupling Analysis of Hollow Ring-Core Fibers for OAM Transmission

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