We introduce a neutron-gamma emission tomography (NGET) technique for rapid detection, three-dimensional imaging, and characterization of special nuclear materials like weapons-grade plutonium and uranium. The technique is adapted from fundamental nuclear physics research and represents a previously unexplored approach to the detection and imaging of small quantities of these materials. The method is demonstrated on a radiation portal monitor prototype system based on fast organic scintillators, measuring the characteristic fast time and energy correlations between particles emitted in nuclear fission processes. The use of these correlations in real time in conjunction with modern machine learning techniques provides unprecedented imaging efficiency and high spatial resolution. This imaging modality addresses global security threats from terrorism and the proliferation of nuclear weapons. It also provides enhanced capabilities for addressing different nuclear accident scenarios and for environmental radiological surveying.
We introduce a novel technique, neutron-gamma emission tomography (NGET), for rapid detection, 3D imaging, and characterization of special nuclear materials like weapons grade plutonium and uranium. The technique is adapted from fundamental nuclear physics research and represents a paradigm shift in the approach to detection and imaging of small quantities of such materials.The method uses a granular detection system based on fast organic scintillators, measuring the characteristic fast time and energy correlations between particles emitted in nuclear fission processes. The radically new approach of using such correlations in real time in conjunction with modern machine learning techniques provides unprecedented imaging efficiency, spatial resolution and ultra-low false alarm rates, addressing global security threats from terrorism, the proliferation of nuclear weapons, as well as different nuclear accident scenarios and environmental radiological surveying.
Uvod: Kofein je prirodni alkaloid, izolovan iz više od 60 biljnih vrsta. Preko 80% svetske populacije svakodnevno unosi kofein u organizam kroz konzumaciju kafe, čajeva, čokolade i, u poslednje vreme, energetskih pića. Ne treba zanemariti da kao farmaceutski aktivna supstanca jakog delovanja ulazi u sastav mnogih lekova, koji se na tržištu Republike Srbije izdaju bez lekarskog recepta. Sem toga, kofein je psihoaktivni stimulans, blag je diuretik i pokazuje interakciju sa nekim lekovima usled indukcije CYP1 i CYP2 izoenzima zbog čega je potrebno voditi računa o količini koja se unese u organizam. U skladu sa tim, važno je i da sadržaj kofeina u energetskim pićima odgovara podacima koje proizvođači navode na deklaraciji. Cilj: Cilj ovog rada bio je spektrofotometrijsko sadržaja kofeina u uzorcima energetskih pića i čajeva, proizvođača dostupnih na tržištu R. Srbije. Materijal i metode: Kofein je određivan metodom UV-VIS spektrofotometrije u devet vrsta energetskih pića i po četiri uzorka crnog i zelenog čaja. Rezultati: U uzorcima energetskih pića određeni sadržaj kofeina je u opsegu od 26,81 do 35,44 mg/100 mL i u skladu je sa deklarisanim sadržajem. Sadržaj kofeina u uzorcima čajeva varira u odnosu na vrstu (11,27-22,61 mg/100 mL zeleni i 13,85-22,73 mg/100 mL crni), ali je vezan i za poreklo, uslove gajenja i proces prerade čajeva. Zaključak: UV/VIS spektrofotometrija se pokazala kao brza, precizna i jednostavna metoda za određivanje kofeina u energetskim pićima i čajevima. Imajući u vidu dobijene rezultate, važno je istaći da unos kofeina kroz uobičajenu dnevnu konzumaciju čajeva i energetskih pića ne bi trebalo da utiče negativno na zdravlje ljudi. Svakako treba imati u vidu da se ovaj alkaloid dodatno može uneti i putem drugih izvora, što je posebno važno za određene grupe pacijenata. Ključne reči: kofein, čaj, energetska pića, UV/VIS spektrofotometrija
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