论文信息 - Etching techniques for realizing optical micro-cavity atom traps on silicon

Etching techniques for realizing optical micro-cavity atom traps on silicon

We have fabricated curved optical micromirrors on silicon. We expect to be able to form open optical cavities between these mirrors and plane mirrors coated on the ends of optical fibres. The curved mirror templates have been prepared with less than 10 nm surface roughness by means of isotropic chemical etching. Two different methods are used for the fabrication of the mirrors: the first method uses a silicon oxide mask, while the second uses dry etching to form an indentation in the silicon surface that is opened out by wet isotropic etching. After coating the silicon substrate with gold, good quality mirrors are obtained with R ∼ 98% in the near infra-red. We find that a reflectivity of approximately 98% can be achieved by this method. Cavities formed from these mirrors will be useful for manipulating single atoms.

[1] H. Mabuchi,et al. Real-time detection of individual atoms falling through a high-finesse optical cavity. , 1996, Optics letters.

[2] A. Yariv. Optical electronics in modern communications , 1997 .

[3] Towards single-atom detection on a chip , 2002, quant-ph/0210090.

[4] B. Schwartz,et al. Chemical Etching of Silicon IV . Etching Technology , 1959 .

[5] C. Zimmermann,et al. Bose-Einstein condensation in a surface microtrap. , 2001, Physical review letters.

[6] J. Schmiedmayer,et al. Microscopic atom optics: from wires to an atom chip , 2008, 0805.2613.

[7] Innsbruck,et al. Quantum gates with neutral atoms: Controlling collisional interactions in time-dependent traps , 2000 .

[8] G. Rempe,et al. Single slow atoms from an atomic fountain observed in a high-finesse optical cavity , 1999 .

[9] Ifan G. Hughes,et al. REVIEW ARTICLE: Magnetic atom optics: mirrors, guides, traps, and chips for atoms , 1999 .

[10] E A Hinds,et al. Two-wire waveguide and interferometer for cold atoms. , 2001, Physical review letters.

[11] Sauer,et al. Propagation of cold atoms along a miniature magnetic guide , 2000, Physical review letters.

[12] E. Andersson,et al. Multimode interferometer for guided matter waves. , 2001, Physical review letters.

[13] P. Hommelhoff,et al. Bose–Einstein condensation on a microelectronic chip , 2001, Nature.