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Stress and Strain Engineering at Nanoscale in Semiconductor Devices

Om Stress and Strain Engineering at Nanoscale in Semiconductor Devices

Anticipating a limit to the continuous miniaturization (More-Moore), intense research efforts are being made to co-integrate various functionalities (More-than-Moore) in a single chip. Currently, strain engineering is the main technique used to enhance the performance of advanced semiconductor devices. Written from an engineering applications standpoint, this book encompasses broad areas of semiconductor devices involving the design, simulation, and analysis of Si, heterostructure silicongermanium (SiGe), and III-N compound semiconductor devices. The book provides the background and physical insight needed to understand the new and future developments in the technology CAD (TCAD) design at the nanoscale. Features Covers stressstrain engineering in semiconductor devices, such as FinFETs and III-V Nitride-based devices Includes comprehensive mobility model for strained substrates in global and local strain techniques and their implementation in device simulations Explains the development of strain/stress relationships and their effects on the band structures of strained substrates Uses design of experiments to find the optimum process conditions Illustrates the use of TCAD for modeling strain-engineered FinFETs for DC and AC performance predictions This book is for graduate students and researchers studying solid-state devices and materials, microelectronics, systems and controls, power electronics, nanomaterials, and electronic materials and devices.

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  • Språk:
  • Engelsk
  • ISBN:
  • 9780367519339
  • Bindende:
  • Paperback
  • Sider:
  • 260
  • Utgitt:
  • 25. september 2023
  • Dimensjoner:
  • 156x15x234 mm.
  • Vekt:
  • 390 g.
  • BLACK NOVEMBER
  Gratis frakt
Leveringstid: 2-4 uker
Forventet levering: 19. desember 2024

Beskrivelse av Stress and Strain Engineering at Nanoscale in Semiconductor Devices

Anticipating a limit to the continuous miniaturization (More-Moore), intense research efforts are being made to co-integrate various functionalities (More-than-Moore) in a single chip. Currently, strain engineering is the main technique used to enhance the performance of advanced semiconductor devices. Written from an engineering applications standpoint, this book encompasses broad areas of semiconductor devices involving the design, simulation, and analysis of Si, heterostructure silicongermanium (SiGe), and III-N compound semiconductor devices. The book provides the background and physical insight needed to understand the new and future developments in the technology CAD (TCAD) design at the nanoscale.
Features
Covers stressstrain engineering in semiconductor devices, such as FinFETs and III-V Nitride-based devices
Includes comprehensive mobility model for strained substrates in global and local strain techniques and their implementation in device simulations
Explains the development of strain/stress relationships and their effects on the band structures of strained substrates
Uses design of experiments to find the optimum process conditions
Illustrates the use of TCAD for modeling strain-engineered FinFETs for DC and AC performance predictions
This book is for graduate students and researchers studying solid-state devices and materials, microelectronics, systems and controls, power electronics, nanomaterials, and electronic materials and devices.

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