DESCRIPTION (Applicant's abstract): Advanced Research Corporation (ARC) proposes to develop a device that is able to sequence single molecules of DNA up to the rate of one million bases per second. This will be accomplished through the use of semiconductor… More

DESCRIPTION (provided by applicant): The objective of this Phase II program is to complete the development of a commercializable solid state nanopore device for the accurate high speed sequencing of DNA. To achieve this goal a manufacturable device must be designed and fabrication processes… More

DESCRIPTION (provided by applicant): The objective of this Phase II program is to complete the development of a commercializable solid state nanopore device for the accurate high speed sequencing of DNA. To achieve this goal a manufacturable device must be designed and fabrication processes… More

To date, both IR polarization and spectral detectors have been developed and employed for the purpose of object discrimination imaging. Each of these detector families provides unique and complimentary data for object discrimination analysis. A hybrid detector, which is capable of both… More

High resolution magnetic mapping is a technique that has shown great value in the forensic evaluation of magnetic audio recording tapes. The use of single element raster scan systems has shown that the technique has promise in diagnosing many other systems where internal currents or magnetized… More

The DOE¿s interest in the fundamental research and development of advanced materials, devices, and structures necessitates associated research into advanced characterization metrology. Such characterization needs are particularly evident in regimes operating at nanometer scales. This project is… More

For IR sensors, the sensing detector and readout circuitry (ROIC) are commonly joined on a pixel by pixel level in a process referred to as Hybridization. Hybridization requires bonding an ROIC die and a detector die on a pixel level, where the total number of pixels required to bond and form… More

The purpose of this SBIR research is to develop an Indium Oxide (InOx) inhibitor coating for applications to high performing Large Format and High Definition FPAs with a fast hybridization cycle time and high yield. The primary constraint for this method of hybridization is an Indium Oxide layer… More