Add to ORKGThe methodology of Monte Carlo simulation for electron scattering and energy dissipation in solid targets is reviewed. The basic concepts of single and multiple elastic scattering models are compared, and the continuous energy loss model for inelastic scattering is discussed. Some new developments in Monte Carlo simulation are reviewed, including improvements in the elastic scattering model and discrete models for inelastic scattering. A variety of practical applications of Monte Carlo calculations in the fields of electron microscopy, electron probe microanalysis, and electron beam lithography are reviewed. The Monte Carlo computer program listings available in the literature are also described
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...
Implementing a Monte Carlo simulation for application to electron sample interactions requires use o...
Significant advancements have occurred in recent years in computer calculation capability which allo...
A new Monte Carlo calculation model is introduced to simulate not only the primary electron behavior...
Computer simulation of high energy primary electron scattering and subsequent generation of fast s...
First the fundamentals of resist modelling required to implement an analysis of developed resist pat...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
This thesis deals with an electron scattering in STEM microscopy on objects with dif-ferent shapes, ...
A Monte Carlo procedure to simulate the penetration and energy loss of low¿energy electron beams thr...
Due to the fundamental role played by the interaction electron-matter in scanning electron microscop...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...
Implementing a Monte Carlo simulation for application to electron sample interactions requires use o...
Significant advancements have occurred in recent years in computer calculation capability which allo...
A new Monte Carlo calculation model is introduced to simulate not only the primary electron behavior...
Computer simulation of high energy primary electron scattering and subsequent generation of fast s...
First the fundamentals of resist modelling required to implement an analysis of developed resist pat...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
This thesis deals with an electron scattering in STEM microscopy on objects with dif-ferent shapes, ...
A Monte Carlo procedure to simulate the penetration and energy loss of low¿energy electron beams thr...
Due to the fundamental role played by the interaction electron-matter in scanning electron microscop...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
The state of the art in Monte Carlo simulations of scanning electron microscope (SEM) signals is rev...
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...