1. Foreword to the special issue on ionizing-radiation effects in microelectronics

   EditorialNotes Pages: 137 - 137

2. Physical principles of laser simulation for the transient radiation response of semiconductor structures, active circuit elements, and circuits: A nonlinear model

   • A. Y. Nikiforov
   • P. K. Skorobogatov

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 138 - 149

3. Estimating the IC upset/failure threshold of dose rate for a radiation pulse sequence

   • A. I. Chumakov
   • V. V. Gontar’

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 150 - 155

4. Modeling rail-span collapse in ICs exposed to a single radiation pulse

   • A. I. Chumakov

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 156 - 161

5. Dominant mechanisms of transient-radiation upset in CMOS RAM VLSI circuits realized in SOS technology

   • A. V. Kirgizova
   • A. Y. Nikiforov
   • P. K. Skorobogatov

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 162 - 176

6. Modeling and simulation of the enhanced low-dose-rate sensitivity of thick isolating layers in advanced ICs

   • G. I. Zebrev

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 177 - 184

7. Modeling neutron ionization effects on high-density CMOS circuit elements

   • G. I. Zebrev

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 185 - 196

8. Complementary-transistor wideband path for the compensation of analog ICs designed to operate under pulsed ionizing irradiation

   • T. M. Agakhanyan

   Radiation-Effect Modeling and Simulation in Silicon Microelectronics Pages: 197 - 199

9. Enhancing the performance of radiation-hardened embedded computer systems

   • V. M. Antimirov

   Ensuring Radiation Hardness Pages: 200 - 204