Photonic-Networks-on-Chip for High Performance Radiation Survivable Multi-Core Processor Systems

Abstract

The University of New Mexico has undertaken a study to determine the effects of radiation on Quantum Dot Photonic Integrated Circuits (QDPICs). Over the course of the last year, the constituent III-V active semiconductor materials and Si-photonic components forming these QDPICs have been designed, grown and fabricated. Photoluminescence studies before and after radiation exposure have been conducted on bare wafer samples for the III-V quantum-confined laser materials to isolate the damage to the active semiconductor materials themselves. Further techniques to probe radiation damage at the wafer level have been highlighted as well as methods to assess performance degradation at the device level. These studies should pave the way towards the quantitative assessment of the survivability of next-generation multi-cell processors based on optical interconnects.

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Document Details

Document Type
Technical Report
Publication Date
Dec 01, 2013
Accession Number
ADA594992

Entities

People

  • Ganesh Balakrishnan
  • Luke F. Lester

Organizations

  • University of New Mexico

Tags

Communities of Interest

  • Advanced Electronics

DTIC Thesaurus Topics

  • Current Density
  • Detectors
  • Differential Equations
  • Electronics Laboratories
  • Equations
  • Geometry
  • Ground State
  • Ionizing Radiation
  • Lasers
  • Materials
  • Measurement
  • Quantum Dot Lasers
  • Quantum Dots
  • Quantum Wells
  • Radiation
  • Semiconductor Lasers
  • Semiconductors

Readers

  • Explosive Engineering.
  • Integrated Circuit Design and Technology.
  • Quantum Dot Semiconductor Device Photonics and Graphene Optoelectronic Materials and THz Physics.

Technology Areas

  • Directed Energy
  • Microelectronics
  • Quantum Computing