Article: Simulation of transient nanoparticle pulse characteristic under high intensity compression Journal: International Journal of Nanomanufacturing (IJNM) 2022 Vol.18 No.1 pp.19 - 37 Abstract: The transient effect of nanoparticles is easy to generate transient pulses, which has a great influence on the radiation resistance of integrated circuits. In order to study the conditions of transient effect of nanoparticles, this paper studies the computer simulation of transient pulse characteristics of nanoparticles under high-intensity compression. Combining TCAD simulation with HSPICE simulation test, a new comparative test structure is proposed, which directly quantifies the influence of temperature and voltage on transient pulse by radiation test. The transient current, voltage and TCAD simulation results of nanoparticles, the transient current and voltage of nanoparticles are consistent. When 1.5E = 0.09 s, a transient pulse appears. The peak value of current reaches 0.0010A. When it reaches the highest point, it decreases rapidly. After 1.99E - 0.09 s, it tends to be stable gradually, while the voltage drops to 0V, then increases rapidly, and tends to be stable at 1.99E - 0.09 s. On the pulse width, the HSPICE model simulation results and TCAD simulation which can effectively simulate the transient pulse characteristics of nanoparticles under high-intensity compression, and simulation results show that with the increase of temperature, the transient pulse current and voltage of nanoparticles decrease, when the temperature rises to 480 K, the current and voltage are lower than 180 K. Inderscience Publishers - linking academia, business and industry through research

Title: Simulation of transient nanoparticle pulse characteristic under high intensity compression

Authors: Yaowei Meng; Juming Cheng

Addresses: School of Traffic and Transportation, Xuchang University, Xuchang 461000, China ' College of Science, Engineering & Technology, Texas Southern University, Houston 75835, USA

Abstract: The transient effect of nanoparticles is easy to generate transient pulses, which has a great influence on the radiation resistance of integrated circuits. In order to study the conditions of transient effect of nanoparticles, this paper studies the computer simulation of transient pulse characteristics of nanoparticles under high-intensity compression. Combining TCAD simulation with HSPICE simulation test, a new comparative test structure is proposed, which directly quantifies the influence of temperature and voltage on transient pulse by radiation test. The transient current, voltage and TCAD simulation results of nanoparticles, the transient current and voltage of nanoparticles are consistent. When 1.5E = 0.09 s, a transient pulse appears. The peak value of current reaches 0.0010A. When it reaches the highest point, it decreases rapidly. After 1.99E - 0.09 s, it tends to be stable gradually, while the voltage drops to 0V, then increases rapidly, and tends to be stable at 1.99E - 0.09 s. On the pulse width, the HSPICE model simulation results and TCAD simulation which can effectively simulate the transient pulse characteristics of nanoparticles under high-intensity compression, and simulation results show that with the increase of temperature, the transient pulse current and voltage of nanoparticles decrease, when the temperature rises to 480 K, the current and voltage are lower than 180 K.

Keywords: high strength compression; nanoparticles; transient pulse; computer simulation; mechanical properties; TCAD simulation; lactones; atom efficiency; functional nanomaterials; material properties.

DOI: 10.1504/IJNM.2022.130253

International Journal of Nanomanufacturing, 2022 Vol.18 No.1, pp.19 - 37

Received: 20 Aug 2021
Accepted: 28 Sep 2022
Published online: 10 Apr 2023 *

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Title: Simulation of transient nanoparticle pulse characteristic under high intensity compression

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