AdvaPIX TPX3
Identifikátory výsledku
Kód výsledku v IS VaVaI
<a href="https://www.isvavai.cz/riv?ss=detail&h=RIV%2F01732731%3A_____%2F17%3AN0000008" target="_blank" >RIV/01732731:_____/17:N0000008 - isvavai.cz</a>
Výsledek na webu
<a href="http://advacam.com/projekty/vysledky/2017PRT001" target="_blank" >http://advacam.com/projekty/vysledky/2017PRT001</a>
DOI - Digital Object Identifier
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Alternativní jazyky
Jazyk výsledku
angličtina
Název v původním jazyce
AdvaPIX TPX3
Popis výsledku v původním jazyce
The Timepix3 based detector AdvaPIX TP3 was developed integrating Timepix3 chip with sensor and readout electronics AdvaDAQ into one single device with optimized power voltage generation circuits and temperature balancing of the chip thanks to better heat dissipation. The stability of the Timepix3 chip was significantly improved. This way the electronic noise is decreased by about 30%. As a consequence of this improvement the minimal detectable energy of X-ray photons (or other ionizing particles) was decreased to 1.3 keV (the best Timepix3 with Silicon sensor) from original 2.0 keV. The AdvaPIX TPX3 modules were designed with special emphasis to performance and versatility which is often required in a scientific experimental work. They contain CERN detector Timepix3 for particle tracking and imaging with Si or CdTe sensor. The AdvaPIX TPX3 modules can be used in different configurations: telescope of several layers for better particle tracking and/or side-by-side for larger area coverage. Each module contains one Timepix3 device with fast sparse data readout to acquire up to 40 Mhits per second. A separate USB 3.0 channel for each module assures fast read-out of the whole modular system. The sensor type and thickness is of customer’s choice. The typical and intended applications of AdvaPIX TPX3 include: • Spectral X-ray and gamma ray imaging: X-ray fluorescence imaging, X-ray radiography (low flux), scintigraphy or SPECT, radiography with isotopes. • Energy dispersive XRD, SAXS or WAXS: Monochromatic X-ray source is NOT needed! Even high energy for thick samples is possible (e.g. 100 keV)! • Particle tracking and ion beam monitoring: detectors can be used for tracking and tagging of primary particles (e.g. ions) as well as secondary radiation (spallation, fragmentation, recoiled, bremsstrahlung, prompt/delayed decays, neutrons1 …). • Neutron imaging: The sensors can be adapted for neutron imaging by deposition of converter layers1. Recording shapes of individual hits together with advanced data processing allows increasing the spatial resolution in some applications to units of microns (gamma rays 80-500 keV) or even sub-micrometric level (for ions in MeV range).
Název v anglickém jazyce
AdvaPIX TPX3
Popis výsledku anglicky
The Timepix3 based detector AdvaPIX TP3 was developed integrating Timepix3 chip with sensor and readout electronics AdvaDAQ into one single device with optimized power voltage generation circuits and temperature balancing of the chip thanks to better heat dissipation. The stability of the Timepix3 chip was significantly improved. This way the electronic noise is decreased by about 30%. As a consequence of this improvement the minimal detectable energy of X-ray photons (or other ionizing particles) was decreased to 1.3 keV (the best Timepix3 with Silicon sensor) from original 2.0 keV. The AdvaPIX TPX3 modules were designed with special emphasis to performance and versatility which is often required in a scientific experimental work. They contain CERN detector Timepix3 for particle tracking and imaging with Si or CdTe sensor. The AdvaPIX TPX3 modules can be used in different configurations: telescope of several layers for better particle tracking and/or side-by-side for larger area coverage. Each module contains one Timepix3 device with fast sparse data readout to acquire up to 40 Mhits per second. A separate USB 3.0 channel for each module assures fast read-out of the whole modular system. The sensor type and thickness is of customer’s choice. The typical and intended applications of AdvaPIX TPX3 include: • Spectral X-ray and gamma ray imaging: X-ray fluorescence imaging, X-ray radiography (low flux), scintigraphy or SPECT, radiography with isotopes. • Energy dispersive XRD, SAXS or WAXS: Monochromatic X-ray source is NOT needed! Even high energy for thick samples is possible (e.g. 100 keV)! • Particle tracking and ion beam monitoring: detectors can be used for tracking and tagging of primary particles (e.g. ions) as well as secondary radiation (spallation, fragmentation, recoiled, bremsstrahlung, prompt/delayed decays, neutrons1 …). • Neutron imaging: The sensors can be adapted for neutron imaging by deposition of converter layers1. Recording shapes of individual hits together with advanced data processing allows increasing the spatial resolution in some applications to units of microns (gamma rays 80-500 keV) or even sub-micrometric level (for ions in MeV range).
Klasifikace
Druh
G<sub>prot</sub> - Prototyp
CEP obor
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OECD FORD obor
10304 - Nuclear physics
Návaznosti výsledku
Projekt
<a href="/cs/project/7D16004" target="_blank" >7D16004: PhaseMapper3D</a><br>
Návaznosti
P - Projekt vyzkumu a vyvoje financovany z verejnych zdroju (s odkazem do CEP)
Ostatní
Rok uplatnění
2017
Kód důvěrnosti údajů
C - Předmět řešení projektu podléhá obchodnímu tajemství (§ 504 Občanského zákoníku), ale název projektu, cíle projektu a u ukončeného nebo zastaveného projektu zhodnocení výsledku řešení projektu (údaje P03, P04, P15, P19, P29, PN8) dodané do CEP, jsou upraveny tak, aby byly zveřejnitelné.
Údaje specifické pro druh výsledku
Interní identifikační kód produktu
2017PRT001
Číselná identifikace
2017PRT001
Technické parametry
The Timepix3 based detector AdvaPIX TP3 was developed integrating Timepix3 chip with sensor and readout electronics AdvaDAQ into one single device with optimized power voltage generation circuits and temperature balancing of the chip thanks to better heat dissipation. The stability of the Timepix3 chip was significantly improved. This way the electronic noise is decreased by about 30%. As a consequence of this improvement the minimal detectable energy of X-ray photons (or other ionizing particles) was decreased to 1.3 keV (the best Timepix3 with Silicon sensor) from original 2.0 keV. The AdvaPIX TPX3 modules were designed with special emphasis to performance and versatility which is often required in a scientific experimental work. They contain CERN detector Timepix3 for particle tracking and imaging with Si or CdTe sensor. The AdvaPIX TPX3 modules can be used in different configurations: telescope of several layers for better particle tracking and/or side-by-side for larger area coverage. Each module contains one Timepix3 device with fast sparse data readout to acquire up to 40 Mhits per second. A separate USB 3.0 channel for each module assures fast read-out of the whole modular system. The sensor type and thickness is of customer’s choice. The typical and intended applications of AdvaPIX TPX3 include: • Spectral X-ray and gamma ray imaging: X-ray fluorescence imaging, X-ray radiography (low flux), scintigraphy or SPECT, radiography with isotopes. • Energy dispersive XRD, SAXS or WAXS: Monochromatic X-ray source is NOT needed! Even high energy for thick samples is possible (e.g. 100 keV)! • Particle tracking and ion beam monitoring: detectors can be used for tracking and tagging of primary particles (e.g. ions) as well as secondary radiation (spallation, fragmentation, recoiled, bremsstrahlung, prompt/delayed decays, neutrons1 …). • Neutron imaging: The sensors can be adapted for neutron imaging by deposition of converter layers1. Recording shapes of individual hits together with advanced data processing allows increasing the spatial resolution in some applications to units of microns (gamma rays 80-500 keV) or even sub-micrometric level (for ions in MeV range).
Ekonomické parametry
Jedná se o nový produkt společnosti Advacam. Prodejní cena v základní konfiguraci je 20.000 EUR.
Kategorie aplik. výsledku dle nákladů
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IČO vlastníka výsledku
01732731
Název vlastníka
Advacam spol. s r.o.
Stát vlastníka
CZ - Česká republika
Druh možnosti využití
P - Využití výsledku jiným subjektem je v některých případech možné bez nabytí licence
Požadavek na licenční poplatek
Z - Poskytovatel licence na výsledek nepožaduje v některých případech licenční poplatek
Adresa www stránky s výsledkem
http://advacam.com/projekty/vysledky/2017PRT001