Design and Characterization of MEMS Micromirrors for Ion-Trap Quantum Computation

Author

Kim, Changsoon ; Knoernschild, Caleb ; Liu, Bin ; Kim, Jungsang

Author_Institution

Dept. of Electr. & Comput. Eng., Duke Univ., Durham, NC

Volume

13

Issue

2

fYear

2007

Firstpage

322

Lastpage

329

Abstract

To build a large-scale quantum information processor (QIP) based on trapped ions or neutral atoms, integrated optical systems capable of delivering laser beams to multiple target locations are necessary. We consider a beam-shifting element consisting of a tilting micromirror located at the focal point of a lens, as a fundamental building block for such a system. We explore the design space of the micromirrors and characterize their dc, frequency, and transient responses. The fastest mirror features the resonant frequency of 113 kHz and the 98% settling time of 11 mus. The design tradeoffs are discussed to facilitate further optimization of the mirror performance for this application

Keywords

lenses; micromechanical devices; micromirrors; optical design techniques; particle traps; quantum computing; MEMS micromirrors; beam-shifting element; integrated optical systems; ion-trap quantum computation; quantum information processor; Atom optics; Atomic beams; Charge carrier processes; Integrated optics; Large scale integration; Micromechanical devices; Micromirrors; Mirrors; Quantum computing; Space exploration; Micromirrors; microoptoelectromechanical systems (MOEMS); optical design; quantum computation;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/JSTQE.2007.893561

Filename

4159981