Abstract: Segmented waveguides electrically coupled to a resonator and methods for electrically coupling waveguides to a resonator are disclosed. The resonator can be a split ring resonator. The disclosed structures can be useful to fabricate waveguide devices included, for example, in sensors and optical elements.

Abstract: A near-field scanning microscopy probe and a method for doing the same. A metal plasmon or dielectric waveguide is connected to a deformable material and coupled to a dielectric waveguide on a chip. The probe pops up out of the plane of the chip. The probe can be easily integrated with standard on-chip optical components.

Abstract: A metal waveguide is coupled to a dielectric waveguide to obtain transmission of light in a plasmon mode along an edge of the metal waveguide. Efficient, broadband light transmission is obtained, achieving a low insertion loss, using standard processing tools. An efficient integrated optical circuit is obtained.

Abstract: The invention is a method of introducing porous membranes into MEMS elements by supporting the membranes by frames to form an heterostructure. This is achieved by attaching to a structured or porous substrate one or more monolithically fabricated frames and membranes. Having membranes disposed on frames enables them to be batch processed and facilitates separation, handling and mounting within MEMS or nanofluidic systems. Applications include, but are not limited to, filters for gases or liquids, electron transmissive windows and scanning electron microscopy (SEM) accessible arrays of nanotest tubes containing liquid phases and other sample states. The invention includes the apparatus made by the method.

Abstract: The present invention provides a method and apparatus for heterogeneous distributed computation. According to one or more embodiments, a semi-automatic process for setting up a distributed computing environment is used. Each problem that the distributed computing system must handle is described as an n-dimensional Cartesian field. The computational and memory resources needed by the computing system are mapped in a monotonic fashion to the Cartesian field.