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A Photon Counting Fiber Optic Scintillator Dosimeter will be constructed to extend the range of useful measurements around low energy photon sources. A micromachined plastic scintillator will be bonded to the end of a fiber optic cable. A photon counting detector package will be constructed to receive the light from the scintillator and record the count rate. Neutral density filters will be employ ...

We will develop a compact external cavity stabilization system, which will employ independent electro-optic control over the optical path length of the cavity and a wavelength-selective element. The system should be able to cover a 30 nm range and give mode-hop-free tuning over 20 nm intervals. The design of the feedback system will be compatible with any commercially available laser diode from 63 ...

This Small Business Innovation Research Phase 1 project proposes to develop a femtosecond laser system optimized for optical clocks and other precision metrology applications. In principle, atomic optical transitions have the potential to provide radically higher-accuracy timekeeping, because of the very high frequency of an optical transition. The problem of counting, or down-counting, the oscill ...

We propose to compare alternative architectures for phase noise measurement by directly sampling the RF waveform. Out of band modulation and cross correlation will reduce noise. The capabilities of each architecture will be determined using analysis and simulation. The results will be used to determine the feasibility of developing a commercially useful measurement instrument. If the results are p ...

The goal of phase 1 was to create a channel electron multiplier that could be used in an array for configuration in the synchrotron beam application. In order to have little variance in first strike statistics contamination needed to be eliminated from the surface. This was accomplished with phase 1 research. During Phase 2 the primary objective is to manufacture a circular array of multipliers th ...

Next-generation smart machine tools are currently under research and development. Critical to the success of these tools will be the inclusion of smart sensors. These sensor suites will need to measure physical parameters such as temperature, vibration, pressure and so on. Luna Innovations has extensive experience in developing solar powered wireless systems to transmit sensor data. Luna proposes ...

Thin film multilayers of nanometer scale thickness are fundamental to the future of electronics and communications technologies. Chemical depth profiling by ion etching techniques are critical to the characterization of these structures. A fundamental problem with current ion etching technologies is that typical ion energies (~1k eV to 20 keV) create extensive damage and intermixing of nanometer t ...

The region of the electromagnetic spectrum from 100 GHz to 400 GHz is currently underutilized but an area of exciting promise. Although atmospheric attenuation is higher in this region, the high frequency enables higher bandwidth operation. Transmit and receive components are also small resulting in the potential for lightweight miniature systems. Sub-millimeter waves also have the unique ability ...

Solid-state light sources promise many advantages over traditional technologies. Among these advantages is the ability to construct a source whose relative spectral distribution can be tuned to better match a desired spectrum. We propose addressing this technical and market opportunity through the development of a novel single-chip semiconductor device which delivers high optical output power (>20 ...

PaneraTech is proposing a non-contact dual sensor for broadband and real-time characterization of thin nanofiber films during the manufacturing. Our solution offers several unique aspects that are ideal for this application. For instance, it uses a dual CPW sensor for low frequencies and free space transmission system for higher frequency band. Our proposed sensor system is also equipped with high ...