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  1. A flow-through gamma detection system for sub-surface radioxenon tracer measurements in LYNM PE1

    A continuous flow-through, real-time radioxenon sensor array has been designed to monitor either 127Xe or 133Xe tracer gas as part of a series of underground chemical explosions in the Low-Yield Nuclear Monitoring (LYNM) Physics Experiment 1 (PE1). The sensors are pairs of shielded thallium-doped sodium iodide gamma-ray detectors that surround a gas measurement chamber. Each measurement chamber is connected to a sampling location in the geology surrounding the chemical explosion or in the access tunnel. The first experiment in the series, PE1 A, occurred in 2023 and the system quantified the 127Xe tracer gas in the gas sampling lines formore » four weeks following the experiment execution. The array generated a set of radioxenon concentration time series with a 15-minute resolution that will be used to refine subsurface gas transport models.« less
  2. An implantable biomechanical energy harvester for animal monitoring devices

    Insufficient service life and the resulting need for battery replacements have been a great challenge for implantable electronic devices. This is particularly true for animal tracking applications, because recapturing animals is often unlikely once they are released to the wild. To tackle this problem, we developed a biomechanical energy harvester that uses a Macro Fiber Composite™ (MFC) piezoelectric beam to harvest the mechanical energy from animals’ body bending movements as the power source for implantable and wearable devices. Prototypes of an underwater acoustic transmitter using this technology were subdermally implanted into juvenile white sturgeon and their energy harvesting performance wasmore » evaluated through the device’s transmissions. Additionally, the fish successfully recovered from the implantation surgery and freely swam inside a tank. The transmitter prototypes in the fish continually transmitted signals for a period up to 5 weeks. A benchtop test setup was also created to emulate the fish’s body bending, estimate the device’s energy harvesting performance in the live fish, and perform accelerated fatigue testing of the energy harvester by applying test parameters learned from a video study of the fish’s body movement and behavior characteristics. The gradual depolarization of the piezoelectric ceramic material in the MFC under cyclic mechanical loading was the main limiting factor for the life span of the energy harvester. Pathways for improvement are proposed to achieve long-term efficacy of powering implantable and wearable electronic devices.« less
  3. A Frequency-Programmable Miniaturized Radio Frequency Transmitter for Animal Tracking

    In animal tracking applications, smaller transmitters can reduce the impact of the transmitter on the tagged animal and thus provide more accurate data about animal behavior. By combining a novel circuit design and a newly developed micro-battery, we developed frequency-programmable and more powerful radio frequency transmitters that are about 40% smaller and lighter in weight than the smallest commercial counterpart for animal monitoring at the time of development. The new radio frequency transmitter has a miniaturized form factor for studying small animals. Designs of two coding schemes were developed: one transmits unmodulated signals (weight: 152 mg; dimensions: Ø 2.95 mmmore » × 11.22 mm), and the other transmits modulated signals (weight: 160 mg; dimensions: Ø 2.95 mm × 11.85 mm). To accommodate different transmitter life requirements, each design can be configured to transmit in high or low signal strength. Prototypes of these transmitters were evaluated in the laboratory and exhibited comparable or longer service life and higher signal strength compared to their smallest commercial counterparts.« less
  4. An injectable acoustic transmitter for juvenile salmon

    Salmon recovery, and the potential detrimental effects of dams on fish, has been attracting national attention in due to great environmental and economic implications. Acoustic Telemetry has been the primary method for studying salmon passage. However, the size of the existing transmitters limits the minimum size of fish that can be studied, introducing bias to the study results. We developed the first acoustic fish transmitter that can be implanted by injection instead of surgery. The new injectable transmitter offers improved performance and 30% weight reduction. Because the new transmitter costs significantly less to use, substantially reduces adverse effects of implantation,more » and provides additional biological benefits for tagged fish, it will become the enabling technology for studying migration behavior and survival of species and sizes of fish that have never been studied before. This will lead to critical information for salmon recovery and the development of fish-friendly hydroelectric systems.« less
  5. Spectral anomaly methods for aerial detection using KUT nuisance rejection

    Aerial detection combines all the challenges of standoff detection with all the difficulties of mobile survey, including large and varying standoff distances and abrupt and significant changes in background. Critical issues for aerial detection include land-water interfaces, rapidly changing KUT backgrounds, and varying down scatter with altitude changes. To address these issues a spectral anomaly method has been adapted to aerial detection. The NSCRAD (Nuisance-Rejection Spectral Comparison Ratio) algorithm was initially developed at PNNL for medium resolution detectors. The algorithm has been used for a range of ground-based detection applications, including ground-based detection, portal monitoring, and OSI applications. The methodmore » used in NSCRAD includes both optimized energy windows for detection of threat sources and a nuisance rejection capability. Additionally, the spectral anomaly method was optimized in this work for aerial detection systems to increase the probability of detection of threat sources in aerial search while using the nuisance rejection capability to minimize false alarms from rapidly changing aerial background. The adaptation of NSCRAD for aerial detection includes re-optimization of energy windows, adapting KUT nuisance rejection for aerial backgrounds, development of new methods for background tracking and adjustment of tracking and detection thresholds.« less

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"Myjak, Mitchell J"

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