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A new brain dedicated PET scanner with 4D detector information

Gonzalez-Montoro Andrea, Barbera Julio, Sanchez David, Mondejar Alvaro, Freire Marta, Diaz Karel, Lucero Alejandro, Jimenez-Serrano Santiago, Alamo Jorge, Morera-Ballester Constantino, Barrio John, Cucarella Neus, Ilisie Victor, Moliner Laura, Valladares Celia, Gonzalez Antonio J., Prior John, Benlloch Jose M.

Bio-Algorithms and Med-Systems

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2022

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Vol. 18, no. 1

107--119

EN

In this article, we present the geometrical design and preliminary results of a high sensitivity organspecific Positron Emission Tomography (PET) system dedicated to the study of the human brain. The system, called 4D-PET, will allow accurate imaging of brain studies due to its expected high sensitivity, high 3D spatial resolution and, by including precise photon time of flight (TOF) information, a boosted signal-to-noise ratio (SNR). The 4D-PET system incorporates an innovative detector design based on crystal slabs (semi-monolithic) that enables accurate 3D photon impact positioning (including photon Depth of Interaction (DOI) measurement), while providing a precise determination of the photon arrival time to the detector. The detector includes a novel readout system that reduces the number of detector signals in a ratio of 4:1 thus, alleviating complexity and cost. The analog output signals are fed to the TOFPET2 ASIC (PETsys) for scalability purposes. The present manuscript reports the evaluation of the 4D-PET detector, achieving best values 3D resolution values of < 1,6 mm (pixelated axis), 2.7±0.5 mm (monolithic axis) and 3.4±1.1 (DOI axis) mm; 359 ± 7 ps coincidence time resolution (CTR); 10.2±1.5 % energy resolution; and sensitivity of 16.2% at the center of the scanner (simulated). Moreover, a comprehensive description of the 4D-PET architecture (that includes 320 detectors), some pictures of its mechanical assembly, and simulations on the expected image quality are provided.

2

Methods of 3D imaging used in quality inspection systems in manufacturing

Sioma A., Kowal J., Karwat B.

Journal of Machine Construction and Maintenance - Problemy Eksploatacji

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2017

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no. 1

9--17

EN

This paper presents a review of methods used for the acquisition of 3D images. A classification of such methods into contact and contactless and into active and passive methods is given. Special attention is given to show imaging methods that can be used for tasks involving product-manufacturing systems.

PL

W artykule zaprezentowano przegląd metod wykorzystywanych w akwizycji obrazów 3D. Przedstawiono klasyfikację tych metod z podziałem na metody kontaktowe i bezkontaktowe, aktywne oraz pasywne. Szczególną uwagę poświęcono metodom obrazowania, które mogą być stosowane w procesach wytwarzania produktów.

3

Ion acceleration from intense laser-generated plasma : methods, diagnostics and possible applications

Torrisi L.

Nukleonika

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2015

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Vol. 60, No. 2

207--212

EN

Many parameters of non-equilibrium plasma generated by high intensity and fast lasers depend on the pulse intensity and the laser wavelength. In conditions favourable for the target normal sheath acceleration (TNSA) regime the ion acceleration from the rear side of the target can be enhanced by increasing the thin foil absorbance through the use of nanoparticles and nanostructures promoting the surface plasmon resonance effect. In conditions favourable for the backward plasma acceleration (BPA) regime, when thick targets are used, a special role is played by the laser focal position with respect to the target surface, a proper choice of which may result in induced self-focusing effects and non-linear acceleration enhancement. SiC detectors employed in the time-of-flight (TOF) confi guration and a Thomson parabola spectrometer permit on-line diagnostics of the ion streams emitted at high kinetic energies. The target composition and geometry, apart from the laser parameters and to the irradiation conditions, allow further control of the plasma characteristics and can be varied by using advanced targets to reach the maximum ion acceleration. Measurements using advanced targets with enhanced the laser absorption effect in thin films are presented. Applications of accelerated ions in the field of ion source, hadrontherapy and nuclear physics are discussed.

4

Mass spectrometry of compounds with high molecular mass. Part 2

Przybylski R.

Aparatura Badawcza i Dydaktyczna

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2013

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T. 18, nr 3

215-222

EN

The second part of this article will discuss mass spectrometer's analyzers and application of high resolution spectrometry to identification and separation of complex mixtures [1]. Today's mass analyzers with resolution to fifth decimal point are quite common and offer unusual ability to analyze complex mixtures without prior separation. Separation techniques are required when low resolution equipment is used. Modern MS analyzers can assess components in complex mixture without prior isolation from the matrix, only limitation is ability to ionize those compounds. Additionally detecting system lowered detection limit of MS to the level of femtograms and for some systems even lower.

PL

W drugiej części niniejszego artykułu charakteryzowane są spektrometryczne analizatory mas i opisywane jest zastosowanie wysokorozdzielczej spektrometrii mas do rozdzielania i identyfikacji składników złożonych mieszanin [1]. Współcześnie analizatory z rozdzielczością określaną piątym miejscem po przecinku są powszechnie stosowane i dają niezwykłą możliwość analizy złożonych mieszanin bez wcześniejszego ich rozdzielania innymi metodami. Jedynym ograniczeniem jest możliwa trudność jonizacji tych składników. Dodatkowo, układy detekcji mają tak małą granicę detekcji, że możliwe jest wykrywanie femtogramowych a nawet mniejszych iości związków chemicznych.

5

Zastosowanie analizatorów czasu przelotu w kryminalistyce

Ulanowska A., Strączyński G.

LAB Laboratoria, Aparatura, Badania

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2012

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R. 17, nr 3

37-40

6

Nowe perspektywy w analizie żywności

Ulanowska A., Strączyński G.

LAB Laboratoria, Aparatura, Badania

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2012

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R. 17, nr 4

31-34