Evanescent atom guiding in metal-coated hollow-core optical fibers

TL;DR: In this paper, an apparatus for three dimensional materials deposition comprising a tiltable deposition head attached to a non-tiltable atomizer is described. And methods and apparatuses for depositing different materials either simultaneously or sequentially.

TL;DR: In this paper, an atomizer is used to render a supply of source material into many discrete particles, and a force applicator is employed to push the particles in continuous, parallel streams of discrete particles.

TL;DR: In this article, a method and device for using laser light to trap non-atomic size particles optically within a hollow region of a hollow core optical fiber are disclosed, which allows manipulating and guiding particles made of a wide variety of materials, including biological tissue and aerosols, along the optical fibers and deposit the materials on various substrates.

TL;DR: A miniaturized aerosol jet, or an array of miniaturised aerosol jets for direct printing of various aerosolized materials, was proposed in this article. But this work focused on a planar or non-planar target, forming a pattern that is thermally or photochemically processed to achieve physical, optical and/or electrical properties near that of the corresponding bulk material.

TL;DR: In this article, two-and three-dimensional boundary value problems are studied for two-dimensional waveguides with Cylindrical Conducting Boundaries (CCLB).

TL;DR: In this paper, a method of stably trapping, cooling, and manipulating atoms on a continuous-wave basis using resonance radiation pressure forces is proposed using highly focused laser beams and atomic beam injection should give a very deep trap for confining single atoms or gases at temperatures

TL;DR: It is shown that atoms may be guided around bends in the fiber and that in initial experiments the atoms experience up to 18 reflections from the potential walls with minimal loss.