Patent application number | Description | Published |
20100254500 | Acoustic inertial confinement nuclear fusion device - An acoustic inertial confinement nuclear fusion device is disclosed. The device includes an enclosure that holds a fluid with dissolved alpha emitters. A generator is coupled to the enclosure, and the generator is configured to harmonically drive the fluid in the enclosure to induce an acoustic standing wave in the fluid. The dissolved alpha emitters nucleate bubble clusters in the fluid as the fluid is driven by the generator. Neutrons, tritium and/or gamma rays, are emitted from the fluid, without or with an external source of neutrons. | 10-07-2010 |
20110174990 | COMPOSITIONS AND METHODS FOR DETERMINING DIRECTIONALITY OF RADIATION - A method of determining directionality of radiation is disclosed which comprises dividing the tensioned metastable fluid liquid volume adjacent to a radioactive source into a plurality of sectors, determining the opposing sector ratio of the respective sector and determining the direction of the radiation based on the opposing sector ratios of the plurality of sectors. The method further comprising determining directionality of incoming radiation from the tension pressure assisted elongation of bubble shapes pointing towards direction of radiation particles that interacted with nuclei of tensioned metastable fluid detector system. A device capable of carrying out these methods is also disclosed. | 07-21-2011 |
20140339426 | DIRECTION-POSITION SENSING FAST NEUTRON DETECTOR - A directional-position sensing fast neutron sensor system is disclosed. The system includes one or more acoustically tensioned metastable fluid detector (ATMFD) for determining the direction of the source of incident neutron radiation. The system has been used to detect the position of a 1 Ci Pu—Be neutron radiation source. The ATMFD detector is comparable in technical performance with directional fast neutron detector-bank technologies but is significantly more economical, smaller, and has little to no interference from nonneutron background radiation. The ATMFD detector can be used to locate hidden neutron sources and has been used in blind tests to do so. Specifically an ATMFD system (with a 6×10 cm cross-sectional area) provides directional information for incoming neutron radiation from an 8 kg Pu source from a distance of 25 m with a resolution of 11.2° at a 68% confidence within 60 seconds. Position and neutron source image sensing were also demonstrated using two ATMFDs. | 11-20-2014 |
20150212212 | RADIATION DETECTOR - Alpha particle detecting devices are disclosed that have a chamber that can hold a fluid in a tensioned metastable state. The chamber is tuned with a suitable fluid and tension such that alpha emitting materials such as radon and one or more of its decay products can be detected. The devices can be portable and can be placed in areas, such as rooms in dwellings or laboratories and used to measure radon in these areas, in situ and in real time. The disclosed detectors can detect radon at and below 4 pCi/L in air; also, at and below 4,000 pCi/L or 300 pCi/L in water. | 07-30-2015 |