Quantum Monte Carlo simulation of a resonant tunneling diode including phonon scattering

2003 Nanotechnology Conference and Trade Show - Nanotech 2003

Volumn 2, Issue , 2003, Pages 190-193

  Kosina, H ^a   Nedjalkov, M ^a   Selberherr, S ^a  

^a INSTITUTE FOR MICROELECTRONICS   (Austria)

Author keywords

Monte Carlo method; Quantum transport; Resonant tunneling diode; Wigner equation

Indexed keywords

COMPUTER SIMULATION; ELECTRON TUNNELING; FUNCTIONS; MATHEMATICAL MODELS; MATHEMATICAL OPERATORS; MONTE CARLO METHODS; PHONONS; QUANTUM THEORY; SEMICONDUCTOR DIODES;

PHONON SCATTERING; QUANTUM MECHANICAL EFFECTS; RESONANT TUNNELING DIODES; WIGNER EQUATIONS;

MICROELECTRONICS;

EID: 6344256553     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (3)

1. P. Bordone, A. Bertoni, R. Brunetti, and C. Jacoboni, "Monte Carlo Simulation of Quantum Electron Transport Based on Wigner Paths," in Abstracts Seminar on Monte Carlo Methods, (Salzburg), p. 53, Sept. 2001.
2. H. Kosina, M. Nedjalkov, and S. Selberherr, "Theory of the Monte Carlo Method for Semiconductor Device Simulation," IEEE Trans.Electron Devices, vol. 47, no. 10, pp. 1898-1908, 2000.
3. M. Nedjalkov, R. Kosik, H. Kosina, and S. Selberherr, "Wigner Transport through Tunneling Structures - Scattering Interpretation of the Potential Operator," in Proc. Simulation of Semiconductor Processes and Devices, (Kobe, Japan), pp. 187-190, Sept. 2002.