Methacrylate based cross-linkers for improved thermomechanical properties and retention of radiation detection response in plastic scintillators

Plastic scintillators are widely used in various radiation measurement applications, and the use of plastic scintillators for nuclear applications including decommissioning, such as gamma-ray detection and measurement, is an important concern. With regard to efficient and effective gamma-ray detection, the optimization for thickness of plastic scintillator is strongly needed. Here, we elucidate optimization of the thickness of high-performance plastic scintillator using high atomic number material. Moreover, the EJ-200 of commercial plastic scintillators with the same thickness was compared. Two computational simulation codes (MCNP, GEANT4) were used for thickness optimization and were compared with experimental results to verify data obtained by computational simulation. From the obtained results, it was confirmed that the difference in total counts was less than 10% in the thickness of the scintillator of 50 mm or more, which means optimized thickness for high efficiency gamma-ray detection such as radioactive 137Cs and 60CO. Finally, simulated results, along with experimental data, were discussed in this study. The results of this study can be used as basic data for optimizing the thickness of plastic scintillators using high atomic number elements for radiation detection and monitoring.

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Plastic scintillators with β-diketone Eu complexes for high ionizing radiation detection

Applied Radiation and Isotopes ◽

10.1016/j.apradiso.2011.05.022 ◽

2011 ◽

Vol 69 (10) ◽

pp. 1475-1478 ◽

Cited By ~ 6

Author(s):

A.F. Adadurov ◽

P.N. Zhmurin ◽

V.N. Lebedev ◽

V.N. Kovalenko

Keyword(s):

Ionizing Radiation ◽

Radiation Detection ◽

Plastic Scintillators ◽

Eu Complexes

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Gamma Radiation Detection Response of Pt/PZT/SRO Based Capacitor for Dosimetry Application

IEEE Electron Device Letters ◽

10.1109/led.2020.3019940 ◽

2020 ◽

Vol 41 (10) ◽

pp. 1564-1567

Author(s):

Surendra Singh Barala ◽

Nirupam Banerjee ◽

Amit Shringi ◽

Mahesh Kumar

Keyword(s):

Gamma Radiation ◽

Radiation Detection ◽

Detection Response

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Low Energy Beta Emitter Measurement: A Review

Chemosensors ◽

10.3390/chemosensors8040106 ◽

2020 ◽

Vol 8 (4) ◽

pp. 106

Author(s):

Hara Kang ◽

Sujung Min ◽

Bumkyung Seo ◽

Changhyun Roh ◽

Sangbum Hong ◽

...

Keyword(s):

Radiation Detection ◽

The Body ◽

Low Energy ◽

Internal Exposure ◽

Beta Particle ◽

Radiation Hazard ◽

Nuclear Facilities ◽

Beta Particles ◽

Beta Emitter ◽

Plastic Scintillators

The detection and monitoring systems of low energy beta particles are of important concern in nuclear facilities and decommissioning sites. Generally, low-energy beta-rays have been measured in systems such as liquid scintillation counters and gas proportional counters but time is required for pretreatment and sampling, and ultimately it is difficult to obtain a representation of the observables. The risk of external exposure for low energy beta-ray emitting radioisotopes has not been significantly considered due to the low transmittance of the isotopes, whereas radiation protection against internal exposure is necessary because it can cause radiation hazard to into the body through ingestion and inhalation. In this review, research to produce various types of detectors and to measure low-energy beta-rays by using or manufacturing plastic scintillators such as commercial plastic and optic fiber is discussed. Furthermore, the state-of-the-art beta particle detectors using plastic scintillators and other types of beta-ray counters were elucidated with regard to characteristics of low energy beta-ray emitting radioisotopes. Recent rapid advances in organic matter and nanotechnology have brought attention to scintillators combining plastics and nanomaterials for all types of radiation detection. Herein, we provide an in-depth review on low energy beta emitter measurement.

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Large irradiation doses can improve the fast neutron/gamma discriminating capability of plastic scintillators

Physical Chemistry Chemical Physics ◽

10.1039/c7cp04034b ◽

2017 ◽

Vol 19 (41) ◽

pp. 28105-28115 ◽

Cited By ~ 2

Author(s):

Eva Montbarbon ◽

Marie-Noëlle Amiot ◽

Dominique Tromson ◽

Sylvain Gaillard ◽

Camille Frangville ◽

...

Keyword(s):

Fast Neutron ◽

Radiation Detection ◽

New Materials ◽

Plastic Scintillators

When new materials appear as potential alternatives for radiation detection, several criteria have to be fulfilled.

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Olfactory Modulation of Steady- State Visual Evoked Potential Topography in Comparison with Differences in Odor Sensitivity

Journal of Psychophysiology ◽

10.1027//0269-8803.16.2.71 ◽

2002 ◽

Vol 16 (2) ◽

pp. 71-81 ◽

Cited By ~ 2

Author(s):

Caroline M. Owen ◽

John Patterson ◽

Richard B. Silberstein

Keyword(s):

Steady State ◽

Visual Evoked Potential ◽

Evoked Potential ◽

Behavioral Responses ◽

Simultaneous Recording ◽

Odor Concentration ◽

Odor Detection ◽

Detection Response ◽

Response Groups ◽

Visual Evoked

Summary Research was undertaken to determine whether olfactory stimulation can alter steady-state visual evoked potential (SSVEP) topography. Odor-air and air-only stimuli were used to determine whether the SSVEP would be altered when odor was present. Comparisons were also made of the topographic activation associated with air and odor stimulation, with the view toward determining whether the revealed topographic activity would differentiate levels of olfactory sensitivity by clearly identifying supra- and subthreshold odor responses. Using a continuous respiration olfactometer (CRO) to precisely deliver an odor or air stimulus synchronously with the natural respiration, air or odor (n-butanol) was randomly delivered into the inspiratory airstream during the simultaneous recording of SSVEPs and subjective behavioral responses. Subjects were placed in groups based on subjective odor detection response: “yes” and “no” detection groups. In comparison to air, SSVEP topography revealed cortical changes in response to odor stimulation for both response groups, with topographic changes evident for those unable to perceive the odor, showing the presence of a subconscious physiological odor detection response. Differences in regional SSVEP topography were shown for those who reported smelling the odor compared with those who remained unaware of the odor. These changes revealed olfactory modulation of SSVEP topography related to odor awareness and sensitivity and therefore odor concentration relative to thresholds.

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