Your search keyword '"Melcher, Charles"' showing total 17 results

1. A phoswich detector design for improved spatial sampling in PET.

Author

Thiessen, Jonathan D., Koschan, Merry A., Melcher, Charles L., Meng, Fang, Schellenberg, Graham, and Goertzen, Andrew L.

Subjects

*SCINTILLATORS, *POSITRON emission tomography, *DETECTORS, *COUPLING reactions (Chemistry), *CRYSTALS

Abstract

Block detector designs, utilizing a pixelated scintillator array coupled to a photosensor array in a light-sharing design, are commonly used for positron emission tomography (PET) imaging applications. In practice, the spatial sampling of these designs is limited by the crystal pitch, which must be large enough for individual crystals to be resolved in the detector flood image. Replacing the conventional 2D scintillator array with an array of phoswich elements, each consisting of an optically coupled side-by-side scintillator pair, may improve spatial sampling in one direction of the array without requiring resolving smaller crystal elements. To test the feasibility of this design, a 4 × 4 phoswich array was constructed, with each phoswich element consisting of two optically coupled, 3 . 17 × 1 . 58 × 10 mm 3 LSO crystals co-doped with cerium and calcium. The amount of calcium doping was varied to create a ‘fast’ LSO crystal with decay time of 32.9 ns and a ‘slow’ LSO crystal with decay time of 41.2 ns. Using a Hamamatsu R8900U-00-C12 position-sensitive photomultiplier tube (PS-PMT) and a CAEN V1720 250 MS/s waveform digitizer, we were able to show effective discrimination of the fast and slow LSO crystals in the phoswich array. Although a side-by-side phoswich array is feasible, reflections at the crystal boundary due to a mismatch between the refractive index of the optical adhesive ( n = 1 . 5 ) and LSO ( n = 1 . 82 ) caused it to behave optically as an 8 × 4 array rather than a 4 × 4 array. Direct coupling of each phoswich element to individual photodetector elements may be necessary with the current phoswich array design. Alternatively, in order to implement this phoswich design with a conventional light sharing PET block detector, a high refractive index optical adhesive is necessary to closely match the refractive index of LSO. [ABSTRACT FROM AUTHOR]

Published

2018

2. Optimization of data acquisition parameters for single gamma line sensing: KSr2I5:Eu[formula omitted] and NaI(Tl) compared.

Author

Lukosi, Eric, Rust, Mikah, Stand, Luis, and Melcher, Charles L.

Subjects

*ACQUISITION of data, *GAMMA ray sources, *RARE earth metals, *SCINTILLATORS

Abstract

KSr 2 I 5 :Eu 2 + scintillators exhibit better than 3% energy resolution at 662 keV and may be significantly less expensive to produce than other, similar energy resolution scintillators. However, KSr 2 I 5 :Eu 2 + exhibits a 6.5 Bq/cm3 intrinsic background from the presence of 40K. This background is not only the well-known 1.46 MeV gamma, but also the 1.31 MeV end point of the beta spectrum. This paper computationally evaluates the optimum data acquisition parameters of KSr 2 I 5 :Eu 2 + and compares them to NaI(Tl) for the detection of single line gamma sources between 0.01–2.2 MeV with incident source strengths between 5 s−1 and 100 s−1 striking the detector. We found a strong dependence of the time-to-detection on the data acquisition parameters, where the time-to-detection of KSr 2 I 5 :Eu 2 + was 1–3 times larger than NaI(Tl) across the parameter space. The largest discrepancy observed was between 0.6 MeV and 1.2 MeV, where the intrinsic 1.31 MeV beta dominates the background. [ABSTRACT FROM AUTHOR]

Published

2019

3. Effects of temporary fogging and defogging in plastic scintillators.

Author

Loyd, Matthew, Pianassola, Matheus, Hurlbut, Charles, Shipp, Kyle, Sideropoulos, L., Weston, Ken, Koschan, Merry, Melcher, Charles L., and Zhuravleva, Mariya

Subjects

*MATERIAL plasticity, *SCINTILLATORS, *PHOTOLUMINESCENCE, *GRAVIMETRIC analysis, *PHOTOGRAPHY

Abstract

Abstract Recent studies have shown that under certain environmental conditions, plastic scintillators which are used in a variety of applications in outdoor environments develop defects called "fogging", resulting in a reduced useful lifetime and increased maintenance cost. Applications of plastic scintillators include scanning recycled steel going into a processing plant, personnel portals to scan employees, and scanning cargo and cars crossing borders of many countries. In this report, fogging was studied in conventional PVT and PS-based plastic scintillators, both field aged and freshly cast. A new fogging-resistant PVT-based formulation developed by scientists at Lawrence Livermore National Laboratory (LLNL) was tested as well. We used accelerated aging experiments via temperature and humidity cycling in controlled laboratory conditions to create observable temporary fogging defects in small samples (≤ 1 in3). Photoluminescence and optical transmission studies were used to evaluate the effect of the fogging. The time evolution of the induced temporary fogging formation and defogging (i.e. fading of defects in ambient conditions over time) were recorded using optical microscopy, time-lapse photography, and gravimetric analysis. [ABSTRACT FROM AUTHOR]

Published

2019

4. Growth of large size ([formula omitted] 38 mm diameter) KCaI3:Eu scintillator crystals.

Author

Loyd, Matthew, Lindsey, Adam, Wu, Yuntao, Stand, Luis, Folsom, Micah, Rutstrom, Daniel, Koschan, Merry, Melcher, Charles L., and Zhuravleva, Mariya

Subjects

*SCINTILLATORS, *CRYSTAL growth, *PHOTON transport theory, *NATIONAL security, *PROBABILITY theory

Abstract

Abstract KCaI 3 :Eu is a scintillator composition that is promising for national security applications, with a high light yield and good energy resolution (∼ 70,000 ph/MeV and ∼ 3% E.R. at 662 keV, respectively). In addition to its high performance, we have been successful at growing KCaI 3 :Eu at larger sizes (38 mm diameter) without cracking. In this work we utilized a multi ampoule growth station to grow four 38 mm diameter crystals simultaneously. Three of these crystals achieved an energy resolution of ∼ 4% at 662 keV. The three crystals were hermetically packaged and a collimation study was carried out. This study revealed that light yield at a given irradiation location is dominated by photon path lengths and self-absorption, while the energy resolution dependence is affected heavily by local crystal quality. A 50 mm diameter KCaI 3 :Eu crystal was grown that achieved an energy resolution of 4.6% at 662 keV. GEANT4 was used to model a gap-style package that results in reduced photon path lengths, and therefore reduced self-absorption probability. [ABSTRACT FROM AUTHOR]

Published

2019

5. Scintillation properties of a 2-inch diameter [formula omitted] single crystal.

Author

Wu, Yuntao, Lindsey, Adam C., Loyd, Matthew, Stand, Luis, Zhuravleva, Mariya, Koschan, Merry, and Melcher, Charles L.

Subjects

*SINGLE crystals, *SCINTILLATORS, *NUCLEAR counters, *ISOTOPES, *EUROPIUM spectra, *CRYSTAL orientation

Abstract

Inch-sized scintillating crystals are required for practical radiation detectors such as hand-held radio-isotope identification devices. In this work, a transparent and colorless 2-inch diameter KCa 0 . 8 Sr 0 . 2 I 3 : 0 . 5 mo % E u 2 + single crystal was grown by the vertical Bridgman method, and the scintillation properties of a ∅ 50 mm × 45 mm long sample were evaluated. The Eu 2 + 5 d 1 - 4 f emission under X-ray excitation is centered at 472 nm. Its scintillation decay time under 137 Cs source irradiation is 2 . 37 μ s , and the absolute light output is 51,000 ± 3000 photons/MeV. The energy resolution at 662 keV was evaluated for different orientations of the crystals with respect to the PMT, and the effect of 40 K background subtraction on energy resolution was evaluated. The performance of the packaged crystal was also investigated. [ABSTRACT FROM AUTHOR]

Published

2017

6. Eu2+ concentration effects in KCa0.8Sr0.2I3:Eu2+: A novel high-performance scintillator.

Author

Wu, Yuntao, Zhuravleva, Mariya, Lindsey, Adam C., Koschan, Merry, and Melcher, Charles L.

Subjects

*EUROPIUM, *RARE earth ions, *SCINTILLATORS, *RADIOACTIVE decay, *ABSORPTION, *PHOTOLUMINESCENCE

Abstract

We report here the effect of Eu 2+ concentration in KCa 0.8 Sr 0.2 I 3 :Eu 2+ single crystal scintillators. KCa 0.8 Sr 0.2 I 3 :Eu 2+ single crystals doped with 0.5, 1, 3, 5, and 7 mol% Eu 2+ were grown by the Bridgman method. The effects of varying Eu 2+ concentration and crystal volume on the scintillation properties, including light yield, energy resolution, nonproportionality, scintillation decay time and afterglow level, were systematically investigated. For 5 mm×5 mm×5 mm samples, the best light yield of 86,000±4000 photons/MeV was achieved with a content of 5 mol% Eu 2+ ; its energy resolution of 2.5% at 662 keV was comparable to that of LaBr 3 :Ce 3+ and SrI 2 :Eu 2+ . With larger samples of about 2.2 cm 3 , the best performances achieved were for 3 mol% Eu 2+ concentration, i.e. a light yield of 76,000±4000 photons/MeV and an energy resolution of 3% at 662 keV. A direct correlation between nonproportionality and Eu 2+ concentration was found. A continuous lengthening of scintillation decay time and x-ray induced afterglow level with increasing Eu 2+ concentration was observed. The self-absorption effect was evaluated by using the Stokes shift and the temperature dependence of the photoluminescence decay (PL) of the Eu 2+ centers. The sample with the highest dopant concentration had more severe temperature quenching of the Eu 2+ 5d-4f emission than the sample with the lowest dopant concentration, which could be ascribed to the thermally activated concentration quenching. [ABSTRACT FROM AUTHOR]

Published

2016

7. Relationship between Ca2+ concentration and the properties of codoped Gd3Ga3Al2O12:Ce scintillators.

Author

Meng, Fang, Koschan, Merry, Wu, Yuntao, and Melcher, Charles L.

Subjects

*CALCIUM ions, *DOPING agents (Chemistry), *SCINTILLATORS, *CERIUM compounds, *SINGLE crystals

Abstract

Codoping is a method of current interest for modifying the properties of scintillators. The study reported here explores the effect of codoping on cerium doped Gd 3 Ga 3 Al 2 O 12 (GGAG:Ce) crystals with various concentrations of Ca. These single crystals were grown via the Czochralski technique with Ce concentrations fixed at 0.2 at% and Ca concentrations ranging from 0.1 at% to 0.4 at% in the initial melt. The relationship between dopant concentration and light yield, rise time, and scintillation and photoluminescence decay times was determined. In addition, the absorbance, photoluminescence, radioluminescence, afterglow and thermoluminescence dependence on the dopant concentration are presented. In some of the Ca codoped crystals, an additional luminescence center was observed with an excitation wavelength of 350 nm and an emission wavelength of 400 nm and a photoluminescence decay time of ~3.5 ns. [ABSTRACT FROM AUTHOR]

Published

2015

8. A novel LiCl–BaCl2:Eu2+ eutectic scintillator for thermal neutron detection.

Author

Wu, Yuntao, Lukosi, Eric D., Zhuravleva, Mariya, Lindsey, Adam C., and Melcher, Charles L.

Subjects

*EUTECTIC alloys, *SCINTILLATORS, *THERMAL neutrons, *NEUTRON counters, *LITHIUM compounds, *METAL microstructure

Abstract

A nat LiCl–BaCl 2 :Eu 2+ eutectic scintillator was synthesized by the vertical Bridgman method aiming at the application of thermal neutron detection. The molar ratio of LiCl and BaCl 2 was 75.1/24.9, which corresponds to the eutectic composition in the LiCl–BaCl 2 system. The grown eutectic showed a periodic microstructure of BaCl 2 :Eu 2+ and LiCl phases with 2–3 μm thickness. The α-particle induced radioluminescence spectrum of the scintillator showed an intense emission peak at 406 nm due to the Eu 2+ 5d 1 → 4f emission from the BaCl 2 :Eu 2+ phase and an additional weak emission peak at 526 nm. The scintillation decay time was 412 ns. LiCl–BaCl 2 :Eu 2+ eutectic samples exhibited non-correlated neutron detection efficiency and light yield as a function of crystal length, suggesting material non-uniformities within the boule. The relative light yield was equal to or greater than that of Nucsafe lithium glass. Gamma-ray exposures indicate that gamma/neutron threshold discrimination for higher energy gamma-rays will be limited. [ABSTRACT FROM AUTHOR]

Published

2015

9. Single crystal and optical ceramic multicomponent garnet scintillators: A comparative study.

Author

Wu, Yuntao, Luo, Zhaohua, Jiang, Haochuan, Meng, Fang, Koschan, Merry, and Melcher, Charles L.

Subjects

*SINGLE crystals, *TRANSPARENT ceramics, *GARNET, *SCINTILLATORS, *CRYSTAL structure, *ISOSTATIC pressing

Abstract

Multicomponent garnet materials can be made in optical ceramic as well as single crystal form due to their cubic crystal structure. In this work, high-quality Gd 3 Ga 3 Al 2 O 12 :0.2 at% Ce (GGAG:Ce) single crystal and (Gd,Lu) 3 Ga 3 Al 2 O 12 :1 at% Ce (GLuGAG:Ce) optical ceramics were fabricated by the Czochralski method and a combination of hot isostatic pressing (HIPing) and annealing treatment, respectively. Under optical and X-ray excitation, the GLuGAG:Ce optical ceramic exhibits a broad Ce 3+ transition emission centered at 550 nm, while the emission peak of the GGAG:Ce single crystal is centered at 540 nm. A self-absorption effect in GLuGAG:Ce optical ceramic results in this red-shift of the Ce 3+ emission peak compared to that in the GGAG:Ce single crystal. The light yield under 662 keV γ-ray excitation was 45,000±2500 photons/MeV and 48,200±2410 photons/MeV for the GGAG:Ce single crystal and GLuGAG:Ce optical ceramic, respectively. An energy resolution of 7.1% for 662 keV γ-rays was achieved in the GLuGAG:Ce optical ceramic with a Hamamatsu R6231 PMT, which is superior to the value of 7.6% for a GGAG:Ce single crystal. Scintillation decay time measurements under 137 Cs irradiation show two exponential decay components of 58 ns (47%) and 504 ns (53%) for the GGAG:Ce single crystal, and 84 ns (76%) and 148 ns (24%) for the GLuGAG:Ce optical ceramic. The afterglow level after X-ray cutoff in the GLuGAG:Ce optical ceramic is at least one order of magnitude lower than in the GGAG:Ce single crystal. [ABSTRACT FROM AUTHOR]

Published

2015

10. Synthesis and scintillation properties of CsGd2Cl7:Ce3+ for gamma ray and neutron detection

Author

Yang, Kan, Zhuravleva, Mariya, Urffer, Matthew, Miller, Laurence F., and Melcher, Charles L.

Subjects

*SCINTILLATORS, *GADOLINIUM, *NEUTRON counters, *CERIUM, *GAMMA rays, *CRYSTAL growth, *THERMAL neutrons

Abstract

Abstract: In this work, we report on optical and scintillation properties of a new scintillation material CsGd2Cl7:Ce. Crystals were grown in vacuum sealed ampoules, and the response to gamma rays and thermal neutrons was characterized. The scintillation light yield was ∼38,000ph/MeV, and the primary decay time was 60ns under γ-ray excitation. A thermal neutron response resulting from capture by 157Gd and 155Gd and subsequent emission of conversion electrons and X-rays was observed. The crystals exhibited a layered structure with cleavage planes and relatively low hygroscopicity. [Copyright &y& Elsevier]

Published

2011

11. Cerium-doped mixed-alkali rare-earth double-phosphate scintillators for thermal neutron detection

Author

Neal, John S., Boatner, Lynn A., Spurrier, Merry, Szupryczynski, Piotr, and Melcher, Charles L.

Subjects

*THERMAL neutrons, *SCINTILLATORS, *LITHIUM ions, *PHOTOLUMINESCENCE

Abstract

Abstract: Previous measurements of the scintillation properties of members of the single-alkali, rare-earth double-phosphate family have demonstrated high light output and fast decay times when exposed to ionizing radiation. Because of the ease with which the alkali constituents (Li, Na, K, Rb, Cs) of the crystal matrix may be interchanged (e.g. K2CsLu(PO4)2 and CsLi2Lu(PO4)2), the rare-earth double-phosphate family of scintillators provides an ideal system for the study of matrix effects on scintillation efficiency and kinetics. New members of the rare-earth double-phosphate family have been synthesized by high-temperature flux growth. These new samples, represented by the general formula (A,B)3Lu(PO4)2:Ce where A and B are alkali elements, incorporate lithium as one of the components and varying levels of Ce doping. Characteristics important to gamma-ray and thermal neutron excitation are calculated for three model systems which incorporate total lithium-ion substitution. Light output, scintillation decay times, and photoluminescence measurements for the most promising of the samples to date are reported. Future work includes (1) synthesis of mixed-alkali scandium and yttrium double-phosphates in which Li ions are substitutional in the structure with varying lithium-ion content up to and including total lithium–ion substitution on the alkali ion site and (2) measurements of light output and pulse shape using thermal neutron excitation. [Copyright &y& Elsevier]

Published

2007

12. Crystal growth, density functional theory, and scintillation properties of Tl3LnCl6:Ce3+ and TlLn2Cl7:Ce3+ (Ln = Y, Gd).

Author

van Loef, Edgar, Shirwadkar, Urmila, Pandian, Lakshmi Soundara, Ciampi, Guido, Stand, Luis, Du, Mao-Hua, Koschan, Merry, Loyd, Matthew, Zhuravleva, Mariya, Melcher, Charles, and Shah, Kanai

Subjects

*CRYSTAL growth, *DENSITY functional theory, *SCINTILLATORS, *SCINTILLATION counters, *CRYSTAL structure, *NUCLEAR counters

Abstract

In this paper we report on the crystal growth, density functional theory (DFT) calculations and scintillation properties of Tl 3 LnCl 6 :Ce 3 + and TlLn 2 Cl 7 :Ce 3 + (Ln = Y, Gd). Crystals were grown by the Vertical Bridgman technique up to 16 mm in diameter and 25 mm long. Crystals of Tl 3 YCl 6 :Ce 3 + and Tl 3 GdCl 6 :Ce 3 + belong to the family of the Nesohalides which have the monoclinic crystal structure. Crystals of TlY 2 Cl 7 :Ce 3 + and TlGd 2 Cl 7 :Ce 3 + belong to the family of the Phyllohalides which have either the monoclinic or the orthorhombic crystal structure. The light yields of these Nesohalides and Phyllohalides are typically on the order of 35,000–40,000 ph/MeV. [ABSTRACT FROM AUTHOR]

Published

2021

13. Crystal growth and scintillation properties of pure and Tl-doped Cs3Cu2I5.

Author

Stand, Luis, Rutstrom, Daniel, Koschan, Merry, Du, Mao-Hua, Melcher, Charles, Shirwadkar, Urmila, Glodo, Jarek, Van Loef, Edgar, Shah, Kanai, and Zhuravleva, Mariya

Subjects

*CRYSTAL growth, *X-ray detection, *ATOMIC number, *SINGLE crystals, *PHOTONS

Abstract

In this work the Bridgman crystal growth and scintillation properties of both undoped and Tl-doped Cs 3 Cu 2 I 5 are presented. This material is very attractive for gamma and X-ray detection applications, with a density of 4.53 g/cm3 and effective atomic number of 51.9. Undoped Cs 3 Cu 2 I 5 had a light yield of 41,500 photons/MeV, with an energy resolution of 4.4% at 662 keV. Thallium doping at 0.5 mol % resulted in a much-improved scintillation response, in which light yield increased to 98,200 photons/MeV and energy resolution reduced to 3.3% at 662 keV. The X-ray excited emission is centered at 442 nm for the undoped and 500 nm for the Tl-doped crystals. The undoped emission is broad, typical of excitonic emission, while thallium doping results in an even broader band with features of both the undoped and thallium defect-mediated emissions. • Transparent single crystals of undoped Cs 3 Cu 2 I 5 and Cs 3 Cu 2 I 5 (Tl) were grown via the Bridgman technique. • Phase purity was established via powder XRD analysis. • Undoped Cs 3 Cu 2 I 5 has 41,500 photons/MeV and 4.4% energy resolution at 662 keV. • Tl doping at 0.5 mol% improves light yield to 98,200 photons/MeV and energy resolution to 3.3%. [ABSTRACT FROM AUTHOR]

Published

2021

14. TlSr2I5:Eu2+- A new high density scintillator for gamma-ray detection.

Author

Soundara Pandian, Lakshmi, Loyd, Matthew, Du, Mao-Hua, van Loef, Edgar, Ciampi, Guido, Stand, Luis, Zhuravleva, Mariya, Koschan, Merry, Glodo, Jarek, Melcher, Charles, and Shah, Kanai

Subjects

*SCINTILLATORS, *X-ray diffraction measurement, *SINGLE crystals

Abstract

In this paper we report on the scintillation properties of TlSr 2 I 5 doped with Eu2+, a novel thallium-containing high-resolution scintillator for gamma-ray spectroscopy. Small diameter, good quality crystals of TlSr 2 I 5 :Eu (TSI) with different Eu2+ concentrations were grown by the vertical Bridgman method. X-ray diffraction measurements show that single crystals of TSI belong to the monoclinic system with space group P2 1 /c. TlSr 2 I 5 has a density of 5.32 g/cm3 and effective Z of 60. The X-ray excited emission of Eu2+ doped TlSr 2 I 5 features a broad emission band peaking between 460–470 nm. The light yield of TlSr 2 I 5 crystal doped with 1% Eu2+ is measured to be ∼ 72,000 ph/MeV with an energy resolution of 2.8% at 662 keV. The scintillation decay time which is characteristic of Eu2+ shows two components, with ∼ 90% of the light in a ∼ 500 ns component and the rest in a longer component of ∼ 3 μ s. [ABSTRACT FROM AUTHOR]

Published

2021

15. Thallium-based scintillators for high-resolution gamma-ray spectroscopy: Ce[formula omitted]- doped Tl2LaCl5 and Tl2LaBr[formula omitted].

Author

Shirwadkar, Urmila, Loyd, Matthew, Du, Mao-Hua, van Loef, Edgar, Ciampi, Guido, Soundara Pandian, Lakshmi, Stand, Luis, Koschan, Merry, Zhuravleva, Mariya, Melcher, Charles, and Shah, Kanai

Subjects

*SCINTILLATORS, *GAMMA ray spectroscopy, *SPECTRUM analysis, *DENSITY functional theory, *NUCLEAR counters, *SINGLE crystals

Abstract

In this paper we report on the crystallographic and scintillation properties of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + , two novel thallium-containing high-resolution scintillators for gamma-ray spectroscopy. Crystals of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + were grown by the Vertical Bridgman method up to 1-inch diameter and 1-inch long. Single crystals of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + belong to the orthorhombic system with space group 62 and have a density of 5.16 and 5.98 g/cm3, respectively. The scintillators show high light yields of up to 68,000 photons/MeV, excellent gamma-ray energy resolution of ≤ 3% at 662 keV, a fast scintillation decay, and a proportional response over a wide range of energies from 32 keV up to 1275 keV. Density Functional Theory calculations show that the Ce 3 + energy levels are inside the bandgap despite the smaller bandgap of Tl 2 LaCl 5 and Tl 2 LaBr 5 compared to K 2 LaCl 5 and K 2 LaBr 5. A systematic Ce 3 + concentration study was performed for Tl 2 LaCl 5 :Ce 3 + and trends observed. [ABSTRACT FROM AUTHOR]

Published

2020

16. Effects of zirconium codoping on the optical and scintillation properties of SrI2:Eu[formula omitted] single crystals.

Author

Wu, Yuntao, Li, Qi, Rutstrom, Daniel J., Greeley, Ian, Stand, Luis, Loyd, Matthew, Koschan, Merry, and Melcher, Charles L.

Subjects

*SINGLE crystals, *OPTICAL properties, *ZIRCONIUM, *SCINTILLATORS, *EUROPIUM, *RARE earth metals

Abstract

Europium doped strontium iodide (SrI 2 :Eu 2 +) is one of the cutting-edge halide scintillators for gamma-ray spectroscopy applications due to its low radioactive background, ultrahigh light yield (70,000–100,000 photons/MeV), and excellent gamma-ray energy resolution (2.6%–3% at 662 keV). In this work, we report an improvement in the scintillation characteristics of SrI 2 :Eu 2 + single crystals via tetravalent ion codoping, namely Zr 4 +. High quality SrI 2 :Eu 2 + single crystals codoped with 0, 0.05, 0.1, and 0.2 at.% Zr 4 + were grown by the Multi-ampoule Bridgman method. All of the as-grown crystals are transparent, crack-and inclusion-free. They have high optical quality with a transmittance of over 70%. The effects of Zr 4 + codoping on spectral properties and decay kinetics of SrI 2 :Eu 2 + under optical, and x- and gamma-ray excitation are studied. An enhancement of gamma-ray spectroscopic resolution from 2.8 to 2.5% at 662 keV and 5.4 to 5% at 122 keV is achieved upon Zr 4 + codoping with a slightly enhanced light yield of 95,000 photons/MeV. [ABSTRACT FROM AUTHOR]

Published

2020

17. Accelerated aging test of new plastic scintillators.

Author

Loyd, Matthew, Pianassola, Matheus, Hurlbut, Charles, Shipp, Kyle, Zaitseva, Natalia, Koschan, Merry, Melcher, Charles L., and Zhuravleva, Mariya

Subjects

*SCINTILLATORS, *ACCELERATED life testing, *MAINTENANCE costs, *METHACRYLATES, *MICROSCOPY, *HUMIDITY

Abstract

Fogging in plastic scintillators is a degradation mechanism that reduces light collection efficiency. In an effort to reduce maintenance costs, multiple groups have attempted to understand and prevent this problem by changing plastic compositions and system level designs. New formulations have been produced that are promising with respect to fogging resistance. In this current work we study a variety of new compositions by subjecting them to an accelerated aging experiment with varying temperature and humidity profiles. Compositions are analyzed for their resistance to degradation after saturation periods, with those containing polymethyl methacrylate and divinyl benzene being the most promising. Pulse height spectra revealed that after environmental aging, many of the samples suffered a reduction in light yield to different degrees, even those that did not fog. This result could be due to heating of the samples and may be prevented by further production optimization. [ABSTRACT FROM AUTHOR]

Published

2020