Abstract: Systems and methods implementing a stack on a substrate, where the stack includes a plurality of films structured as layers to convert radiation incident to the stack to radiation of a nonlinear optical signal different from the incident radiation or to a harmonic of the incident radiation, can be used in a variety of applications. The stack can be structured having parameters selected with respect to conversion efficiency and bandwidth the converted radiation. Additional systems and methods can be used in a variety of applications.

Abstract: Apparatus, systems, and methods using an optically pumped gas filled hollow fiber laser can be implemented in a variety of applications. In various embodiments, operation of an optically pumped gas filled hollow fiber laser is based on population inversion in the gas. Additional apparatus, systems, and methods are disclosed.

Abstract: Apparatus, systems, and methods using an optically pumped gas filled hollow fiber laser can be implemented in a variety of applications. In various embodiments, operation of an optically pumped gas filled hollow fiber laser is based on population inversion in the gas. Additional apparatus, systems, and methods are disclosed.

Abstract: An optical absorption calorimeter performs absorbance measurements at low cryogenic temperatures, such as above 0K to 5K (e.g. near liquid helium temperature), using high-resolution thermometry with SQUID readout to probe optical absorption to better than 1 ppb. This improved sensitivity yields improved performance in calorimetric absorption spectroscopy by lowering the required excitation power, improving the spectral resolution, and opening up the full spectrum, from near-IR to near-UV and beyond for analysis.

Abstract: Systems and methods for addressable field enhancement microscopy are provided. In an embodiment, a nanoscale array of islands may be illuminated with an electromagnetic signal and addressed to differentiate signals from different islands of the nanoscale array. The differentiated signals originating from illuminating the nanoscale array may be applied to microscopy of a specimen.

Abstract: The present invention includes a system and method for coherent imaging. The system of the present invention includes a light source adapted to provide coherent light to illuminate a sample resulting in optically mixed coherent signals and a detector adapted to receive the optically mixed coherent signals and produce an output signal in response thereto. The optically mixed coherent signals will be a set of sum and difference frequency combinations of the frequencies in the coherent light. A processor is connected to the detector and adapted to ratio a selected two of the optically mixed coherent signals in response to the output signal received by the detector and to generate an image in response to the ratioed optically mixed coherent signals, which can be displayed for a user.