Title :
Modeling Electrochemical Etching of Proton Irradiated p-GaAs for the Design of MEMS Building Blocks
Author :
Koppe, Tristan ; Rothfuchs, Charlotte ; Schulte-Borchers, Martina ; Hofsass, H. ; Boudinov, Henri ; Vetter, Ulrich
Author_Institution :
II. Phys. Inst., Georg-August-Univ. Gottingen, Göttingen, Germany
Abstract :
We model the electrochemical etching rates of p-type GaAs after proton irradiation using a finite element simulation with input from Monte Carlo simulations of the recoil distribution together with defect to conductivity mapping of implantation isolation data taken from literature. The simulations will allow for the design of advanced microelectromechanical systems through proton beam writing and subsequent electrochemical etching using multiple ion fluences as the novel technique for three-dimensional microstructuring.
Keywords :
III-V semiconductors; Monte Carlo methods; etching; finite element analysis; gallium arsenide; micromechanical devices; GaAs; MEMS building block design; Monte Carlo simulations; advanced microelectromechanical system design; conductivity mapping; electrochemical etching modelling; finite element simulation; implantation isolation data; multiple ion; proton beam writing; proton irradiated p-GaAs; recoil distribution; three-dimensional microstructuring technique; Conductivity; Etching; Finite element analysis; Gallium arsenide; Protons; Radiation effects; Substrates; GaAs; MEMS; MEMS.; Proton beam writing; electrochemical etching; finite elements;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2014.2309178
