Showing total 8,420 results

1. The Potential Long-Term Effects of Gamma Irradiation on Paper

Author

Butterfield, Fiona J.

Published

1987

2. Comment on paper by Hayes, Haskell, and Kenner.

Author

Anspaugh LR, Shishkina EA, Shved VA, Degteva MO, Tolstykh EI, and Napier BA

Subjects

Humans, Middle Aged, Models, Theoretical, Reproducibility of Results, Water Pollutants, Radioactive analysis, Water Pollutants, Radioactive pharmacokinetics, Electron Spin Resonance Spectroscopy methods, Gamma Rays, Models, Biological, Radiometry methods, Strontium analysis, Strontium pharmacokinetics, Tooth metabolism

Published

2003

3. External air kerma rate measurements--comment on paper by Narayana et al.

Author

Grasty RL

Subjects

Cosmic Radiation, Potassium Radioisotopes analysis, Radiation Monitoring instrumentation, Radium analysis, Scintillation Counting methods, Thorium analysis, Air Pollutants, Radioactive analysis, Gamma Rays, Radiation Monitoring methods, Soil Pollutants, Radioactive analysis

Published

2001

4. Paper electrophoretic studies on gamma-irradiated, lyophilized ovalbumin.

Author

LEONE CA and PERRY K

Subjects

Humans, Egg White radiation effects, Electrophoresis, Paper, Freeze Drying, Gamma Rays, Ovalbumin

Published

1960

5. PAPER-CHROMATOGRAPHIC SEPARATIONS OF FRAGMENTS FROM GAMMA-IRRADIATED OVALBUMIN.

Author

LEONE CA

Subjects

Chromatography, Chromatography, Paper, Gamma Rays, Ovalbumin, Radiation Effects, Research, Solvents

Published

1963

6. PAPER-STRIP ELECTROPHORESIS STUDIES OF POST-IRRADIATION CHANGES IN GAMMA-IRRADIATED OVALBUMIN.

Author

LEONE CA and PERRY KW Jr

Subjects

Chemical Phenomena, Chemistry, Electrophoresis, Electrophoresis, Paper, Freeze Drying, Gamma Rays, Ovalbumin, Radiation Effects, Research

Published

1963

7. Sterilization of paper during crisis.

Author

Alshammari, Fwzah H. and Hussein, Hebat-Allah A.

Subjects

GAMMA rays, SALMONELLA typhi, BACILLUS (Bacteria), GRAM-positive bacteria, GRAM-negative bacteria, CANDIDA albicans

Abstract

Paper sheets represent one of the infection risk sources inside educational and administrative institutions under biological pandemics. So, the present study aimed to validate the efficiency of gamma radiation or dry heat techniques to sterilize contaminated paper sheets with different indicator pathogens while retaining their structure. The results showed that gamma radiation at 6, 12, or 24 kGy can successfully kill Gram-positive bacteria such as Bacillus cereus and Staphylococcus aureus, Gram-negative bacteria such as Escherichia coli and Salmonella typhi, and fungi such as Candida albicans. Moreover, dry heating at 100 °C for 60 min, 150 °C for 30 min, or 200 °C for 15 min can be successful in paper decontamination of all tested species. Surprisingly, scanning electron microscopy (SEM) micrographs proved that gamma radiation at 6 kGy, dry heat at 100 °C for 60 min or 150 °C for 30 min or 200 °C for 15 min, is suitable for paper sheet sterilization while maintaining their structure. Ultimately, dry heat is a simple, effective, fast, safe, and inexpensive technique for paper sterilization. It may be used as a precautionary step inside educational institutions, especially during written examination periods, to ensure a safe life for academic members during biological pandemics such as COVID-19. [ABSTRACT FROM AUTHOR]

Published

2022

8. Gamma Radiation as Fungicide and Its Effects on Paper

Published

1975

9. Effects of gamma irradiation on deteriorated paper.

Author

Bicchieri, Marina, Monti, Michela, Piantanida, Giovanna, and Sodo, Armida

Subjects

*PAPER deterioration, *GAMMA rays, *RADIATION doses, *DEPOLYMERIZATION, *CULTURAL property, *CELLULOSE

Abstract

Even though gamma radiation application, also at the minimum dosage required for disinfection, causes depolymerization and degradation of the paper substrate, recently published papers seemed, instead, to suggest that γ-rays application could be envisaged in some conditions for Cultural Heritage original documents and books. In some of the published papers, the possible application of γ-rays was evaluated mainly by using mechanical tests that scarcely reflect the chemical modifications induced in the cellulosic support. In the present article the effect of low dosage γ-irradiation on cellulosic substrates was studied and monitored applying different techniques: colorimetry, spectroscopic measurements, carbonyl content and average viscometric degree of polymerization. Two different papers were investigated, a non-sized, non-filled cotton paper, and a commercial permanent paper. To simulate a real deteriorated document, which could need γ-rays irradiation, some samples were submitted to a hydrolysis treatment. We developed a treatment based on the exposition of paper to hydrochloric acid vapors, avoiding any contact of the samples with water. This method induces a degradation similar to that observed on original documents. The samples were then irradiated with 3 kGy γ-rays at a 5258 Gy/h rate. The aforementioned analyses were performed on the samples just irradiated and after artificial ageing. All tests showed negative effects of gamma irradiation on paper. Non-irradiated paper preserves better its appearance and chemical properties both in the short term and after ageing, while the irradiated samples show appreciable color change and higher oxidation extent. Since the Istituto centrale restauro e conservazione patrimonio archivistico e librario is responsible for the choice of all restoration treatments that could be applied on library and archival materials under the protection of the Italian State ( http://www.icpal.beniculturali.it/allegati/DM-7-10-2008-Istituto.pdf ), it has been evaluated that the modifications induced by γ-rays irradiation are not acceptable as safe conservation treatment ( http://www.icpal.beniculturali.it/allegati/Nota_uso_raggi_gamma.pdf ). [ABSTRACT FROM AUTHOR]

Published

2016

10. Tailoring Acid Free-Paper based Analytical Devices (Af-PADs) via radiation assisted modification of cellulose paper.

Author

Rawat, Swarnima, Misra, Nilanjal, Shelkar, Shubhangi A., and Kumar, Virendra

Subjects

*GAMMA rays, *CELLULOSE, *FILTER paper, *RADIATION, *IMAGE analysis, *OCHRATOXINS

Abstract

A novel green fabrication approach is being proposed based on radiation assisted modification of Whatman filter paper 1 (WFP) for development of Acid Free-Paper based Analytical Devices (A f -PADs). A f -PADs exude immense potential as handy tools for on-site detection of toxic pollutants such as, Cr(VI), boron, etc., which have established detection protocols involving acid mediated colorimetric reactions that necessitate external acid addition. The proposed A f -PAD fabrication protocol asserts its novelty through elimination of external acid addition step, making the detection process safer and simpler. To achieve this, poly(acrylic acid) (PAA) was grafted onto WFP via a single step, room temperature process of gamma radiation induced simultaneous irradiation grafting, introducing acidic -COOH groups in the paper thereon. Grafting parameters namely, absorbed dose and concentrations of monomer, homopolymer inhibitor and acid were optimized. The -COOH groups incorporated in PAA-grafted-WFP (PAA- g -WFP) provide localized acidic conditions for colorimetric reactions between pollutants and their sensing agents, anchored on the PAA- g -WFP. A f -PADs loaded with 1,5-diphenylcarbazide (DPC) have been ably demonstrated for visual detection and quantitative estimation of Cr(VI) in water samples using RGB image analysis, with LOD value of 1.2 mg.L−1 and a measurement range comparable to that of commercially available PADs based Cr(VI) visual detection kits. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

11. Paper electrophoretic analyses of sera from irradiated rhesus monkeys.

Author

LEONE CA, HARTNETT AR, CRIST R, and McBETH C

Subjects

Animals, X-Rays, Blood Proteins radiation effects, Gamma Rays, Macaca mulatta, Oxidation-Reduction, Radiation

Published

1959

12. Physicochemical behavior of several kinds of paper under gamma irradiation.

Author

Jiménez-Reyes, Melania, Tenorio, Dolores, Rojas-Robles, Mariela, and García-Rosales, Genoveva

Subjects

*GAMMA rays, *IRRADIATION, *PAPER, *X-ray diffraction, *PYROLYSIS, *MICROSCOPY

Abstract

Several kinds of paper (Bond, Amate, Rice, Press, and Whatman#1) were studied in their original condition and were then exposed to gamma radiation between 3 and 15 kGy (0.9 kGy/h) with intervals of 3 kGy. The length and width of fibers (SEM) as well as pH were measured, and the chemical composition was determined by EDS. Pyrolysis characteristics (TGA and DTC), transmittance spectra by IR and X-ray diffraction patterns were studied as well. Whatman#1 contains only cellulose; whereas Bond, Press and Rice papers also contain calcite and Amate whewellite. All X-ray diffraction patterns showed Type I semicrystalline cellulose, but a slight presence of Type II was noted in the artisan papers (Amate and Rice). These results were confirmed by IR spectra and thermogravimetric analyses. Due to gamma irradiation no acidification nor change of fiber sizes or alteration of other studied parameters were observed. Therefore, these conditions may be recommended for the treatment of some deteriorated documents. [ABSTRACT FROM AUTHOR]

Published

2018

13. Monitoring the effects of different conservation treatments on paper-infecting fungi.

Author

Michaelsen, Astrid, Pinzari, Flavia, Barbabietola, Nicoletta, and Piñar, Guadalupe

Subjects

*PAPER, *FUNGAL growth, *PRESERVATION of cultural property, *FUMIGATION, *HYDROLYSIS, *MATERIAL biodegradation, *MICROBIAL viability counts

Abstract

Abstract: Fungi are among the most degradative organisms inducing biodeterioration of paper-based items of cultural heritage. Appropriate conservation measures and restoration treatments to deal with fungal infections include mechanical, chemical, and biological methods, which entail effects on the paper itself and health hazards for humans. Three different conservation treatments, namely freeze-drying, gamma rays, and ethylene oxide fumigation, were compared and monitored to assess their short- (one month, T1) and long-term (one year, T2) effectiveness to inhibit fungal growth. After the inoculation with fungi possessing cellulose hydrolysis ability — Chaetomium globosum, Trichoderma viride, and Cladosporium cladosporioides — as single strains or as a mixture, different quality paper samples were treated and screened for fungal viability by culture-dependent and -independent techniques. Results derived from both strategies were contradictory. Both gamma irradiation and EtO fumigation showed full efficacy as disinfecting agents when evaluated with cultivation techniques. However, when using molecular analyses, the application of gamma rays showed a short-term reduction in DNA recovery and DNA fragmentation; the latter phenomenon was also observed in a minor degree in samples treated with freeze-drying. When RNA was used as an indicator of long-term fungal viability, differences in the RNA recovery from samples treated with freeze-drying or gamma rays could be observed in samples inoculated with the mixed culture. Only the treatment with ethylene oxide proved negative for both DNA and RNA recovery. Therefore, DNA fragmentation after an ethylene oxide treatment can hamper future paleogenetic and archaeological molecular studies on the objects. [Copyright &y& Elsevier]

Published

2013

14. Effect of gamma radiation on fungal growth stages and mechanical properties of traditional Japanese paper.

Author

Linh, Nguyen Thi Thuy, Kumeda, Yuko, Matsushita, Masakazu, Amano, Masashi, Sakai, Koichi, Yoshikawa, Keita, Fujita, Kazuhisa, Uchida, Toshihide, and Furuta, Masakazu

Subjects

*FUNGAL growth, *GAMMA rays, *PENICILLIUM chrysogenum, *EXPOSURE dose, *RADIATION doses, *DROUGHTS

Abstract

• Water-damaged traditional Japanese paper was contaminated with mesophilic fungi. • The radiosensitivities of conidia, germinating conidia, and mycelia were determined. • Drought stress enhanced radiation sensitivity of germinating conidia and mycelia. • Even a radiation dose of 10 kGy affected the mechanical properties of paper. In this study, we investigated the effect of gamma irradiation on fungal growth and mechanical properties of the traditional Japanese paper, Kohzo-gami, infected by mesophilic fungi such as Aspergillus sydowii , Penicillium chrysogenum , and Cladosporium cladosporioides. The radiation sensitivities of dormant conidium-, germinating conidium-, and mycelium-contaminated wet and dry paper were also determined. A radiation dose capable of inactivating 50% of a 30-sample population was used for comparison. Our results showed that the 50% inactivation dose did not significantly differ between wet and dry dormant conidia. However, the survival percentage of dry dormant conidia was higher than that of wet dormant conidia at a high radiation dose. In contrast, the 50% inactivation doses for dry germinating conidia and dry mycelia were significantly lower than those for wet germinating conidia and wet mycelia, respectively. These results indicate that drought stress increased the radiation sensitivity of germinating conidia and mycelia. We also investigated the mechanical properties of Kohzo-gami irradiated at different doses. The order of the tensile strength of Kohzo-gami relative to that of control samples was as follows: 10 kGy > 30 kGy > 40 kGy. This result suggests that even a 10 kGy radiation dose can affect the mechanical properties of paper. The color change level of Kohzo-gami increased significantly at all doses; however, the National Bureau of Standards rating showed only "slight change" at all doses. The radiation doses required for fungal disinfection varied considerably depending on the fungal species and the total number of fungal cells on contaminated paper. Therefore, it was difficult to determine the standard exposure dose for treatment. However, paper sterilization might not be required, as a combination of low-dose radiation and dryness can effectively kill fungal mycelia on contaminated paper. [ABSTRACT FROM AUTHOR]

Published

2020

15. Radiation effects on the integrity of paper

Author

D’Almeida, Maria Luiza Otero, Barbosa, Patrícia de Souza Medeiros, Boaratti, Marcelo Fernando Guerra, and Borrely, Sueli Ivone

Subjects

*PAPER disinfection, *RADIATION doses, *CELLULOSE chemistry, *EUCALYPTUS, *COBALT isotopes, *GAMMA rays, *WOOD-pulp

Abstract

Abstract: Books and documents attacked by fungi and insects have already been treated by radiation for disinfestations purposes. However, there is still need to investigate the influence of radiation on the cellulose paper structure. The aim of this research was to study the effects of radiation on paper properties, especially those related to strength and appearance. Paper sheets for this study were prepared in the laboratory, using bleached eucalyptus pulp as raw material. No additives were used to concentrate the attention only on the effects of irradiation on the pure cellulose matrix. The samples were irradiated at IPEN''s 60Co Gammacell irradiator with six radiation doses, from 3 to 15kGy at the dose rate 0.817Gy/s. The properties of paper sheets were tested after irradiation and compared with unirradiated samples according to ISO methods. No significant changes were detected in paper samples irradiated up to 15kGy. [Copyright &y& Elsevier]

Published

2009

16. Fabrication and characterization of antibacterial and biodegradable facial tissue papers using bio-based raw materials: effect of gamma radiation.

Author

Umaiya, Khandaker, Chowdhury, A. M. Sarwaruddin, Khan, Ruhul A., and Rahaman, Md. Saifur

Subjects

*ANTIBACTERIAL agents, *GAMMA rays, *TENSILE strength, *CHITOSAN, *BIODEGRADABLE materials, *MOLECULAR interactions

Abstract

Chitosan (1 wt%, dissolved in 2% aqueous acetic acid solution) and Cellulose (1 wt%, dissolved in deionized water) were mixed in different proportions (5-50 wt% chitosan) and biodegradable tissue paper films were prepared by solution casting. Tensile strength (TS) and elongation at break (EB) of the 5% chitosan-containing films were found to be 6 MPa and 3.5%, respectively. However, it was observed that with the addition of chitosan the mechanical property also increased, that is, the TS of the 50% chitosan-loaded film is improved to 300%. Fifty percent chitosan-loaded films were treated under γ-radiation (1-5 kGy). At 1 kGy radiation dose, tensile strength of the chitosan-loaded cellulosic films was improved but at a dose of 2.5 kGy the strength started to decrease. The irradiated films showed better antibacterial property than non-irradiated films. The effect of the gamma ray on the molecular interactions between chitosan and cellulose was analyzed by Fourier-Transform Infrared (FTIR) spectroscopy. A degradation test of irradiated and non-irradiated films was carried out in the soil medium. The water uptake property of both films was studied and it was noticed that the non-irradiated films absorbed water more significantly than the irradiated films. [ABSTRACT FROM AUTHOR]

Published

2018

17. Attenuation Gamma Rays Properties of Cement Paste-Waste Paper Composites.

Author

KAÇAR, A. and ALTUG, D. TÜRKÖZ

Subjects

*GAMMA rays, *WASTE paper, *CEMENT composites, *CEMENT, *PAPER recycling, *ATTENUATION coefficients, *GAMMA ray spectrometry

Abstract

In this study, cement composites were produced with CEN reference sand, cement, water, and waste paper. Waste paper were used as partial replacement 0-0.50 ratios of sand weight which was tagged as CK and WPCK, and the cement-to-sand ratio was kept constant at 1:3. Mix design was based on the standard of TS EN 196-1. The infrared spectra were recorded by accumulating 64 scans each in 4000-400 cm-1 range with a resolution of 4 cm-1 with KBr pellets at room temperature. The linear attenuation coefficients of composites were measured using the gamma spectrometer system containing NaI(Tl) detector. The measurements were performed at 1173 and 1332 keV, which was obtained from 60Co radioactive sources. [ABSTRACT FROM AUTHOR]

Published

2019

18. Effect of radiation on disinfection and mechanical properties of Korean traditional paper, Hanji

Author

Choi, Jong-il, Chung, Yong Jae, Kang, Dai Ill, Lee, Kyu Shik, and Lee, Ju-Woon

Subjects

*DISINFECTION & disinfectants, *MECHANICAL behavior of materials, *PAPER products, *FUMIGANTS, *BROMOMETHANE, *ETHYLENE oxide, *GAMMA rays, *KOREAN paper

Abstract

Abstract: Fumigants, including methyl bromide and ethylene oxide, are generally used for the preservation of the Korean cultural heritage, especially paper products like letters and books. However, the use of fumigants is banned because of their harmful effects on humans and the environment. Gamma irradiation is being considered as an alternative for the sterilization of insects and fungi in organic products. Therefore, the purpose of this study was to investigate the sterilization effects of radiation and its effect on the mechanical properties of the Korean traditional paper—Hanji. Treatment doses of 9kGy and 8kGy of gamma irradiation inactivated 5 log units of Aspergillus niger and Bacillus cereus spores inoculated on Hanji, respectively. The gamma irradiations up to an absorbed dose of 50kGy resulted in no significant changes in the tensile strength, bursting strength, and appearance of Hanji. These results confirmed that radiation treatment disinfects the Korean traditional paper efficiently without changing its properties and that this treatment could be used to prevent the damage of Korean ancient archives by molds and fungi. [Copyright &y& Elsevier]

Published

2012

19. Influence of gamma radiation on properties of paper and textile fibres during disinfection.

Author

Drábková, Klára, Ďurovič, Michal, and Kučerová, Irena

Subjects

*GAMMA rays, *VISCOMETRY, *CULTURAL property, *DISINFECTION & disinfectants, *CELLULOSIC ethanol

Abstract

Abstract At the present time, gamma radiation is once again being employed for mass disinfection of materials in cultural heritage conservation. Its in-depth and homogeneous effect and also the ability to rapidly treat a large number of items are among the undoubted advantages of this method. However, use of the higher doses of gamma radiation necessary for disinfection entails the risk of damage to organic materials. This work is concerned with the effect of various doses of gamma radiation on cellulosic materials (various kinds of paper and cotton textiles) and on proteinaceous materials (silk). The long-term stability of irradiated samples was also studied during artificial ageing by moist heat, along with the post-irradiation effect. The degree of degradation was studied by means of colorimetry, UV/Vis spectroscopy, viscometry (determination of limiting viscosity number or average degree of polymerization), molar weight distribution and mechanical properties. Highlights • Gamma radiation is used for mass disinfestation of cultural heritage objects. • Disinfection doses of γ-radiation entails the risk of damage to organic materials. • Mechanical and chemical properties of paper and textile were studied. • Long term stability and post-irradiation effect of irradiated samples were explored. • Use of gamma radiation for cultural heritage disinfection is not recommendable. [ABSTRACT FROM AUTHOR]

Published

2018

20. Thermogravimetric and calorimetric study of cellulose paper at low doses of gamma irradiation.

Author

Moise, Ioan, Stanculescu, Ioana, and Meltzer, Viorica

Subjects

THERMOGRAVIMETRY, CALORIMETRY, CELLULOSE, PRESERVATION of paper, RADIATION doses, GAMMA rays, POLYMERIZATION, THERMAL analysis

Abstract

The study of the behaviour of cellulose materials at low doses of ionizing radiation regained the interest because of the recent results showing that physical properties of the paper have less or no changes for absorbed doses below 10 kGy, despite the high decrease of the degree of polymerization. The understanding of the relationship among molecular, microscopic and macroscopic changes in cellulose materials may change the current opinion that irradiation of paper is not the best choice for conservation of cultural heritage. The aim of this study is to reveal the changes in gamma-irradiated pure cellulose paper by simultaneous TG/DSC analysis. For cellulose fibres, the thermal decomposition parameters depend on the cellulose degree of polymerization. For high irradiation doses, there is established a relationship between the absorbed dose and the degree of polymerization. However, a direct relationship between absorbed dose and the parameters of cellulose thermal decomposition for low irradiation doses was not established either in the literature or in our study. By using a peak separation technique, we studied the changes in the region of water loss (70-150 °C) and physical ageing (160-300 °C) for Whatman paper with low initial water content (<1 %), previously gamma irradiated at doses between 0 and 30 kGy. We concluded that strength of the hydrogen bond structure is increasing up to a point when the stress produces fractures in the fibrilar structure. This may explain the results reported for mechanical tests at low dose irradiation and it is in agreement with scanning electron microscopy pictures showing changes in fibril structure at high irradiation doses. Cellulose irradiated at low doses maintains its original hydrogen bond structure despite the decrease of the degree of polymerization. [ABSTRACT FROM AUTHOR]

Published

2014

21. Establishing the irradiation dose for paper decontamination

Author

Moise, Ioan Valentin, Virgolici, Marian, Negut, Constantin Daniel, Manea, Mihaela, Alexandru, Mioara, Trandafir, Laura, Zorila, Florina Lucica, Talasman, Catalina Mihaela, Manea, Daniela, Nisipeanu, Steluta, Haiducu, Maria, and Balan, Zamfir

Subjects

*RADIATION doses, *DECONTAMINATION (From gases, chemicals, etc.), *PAPER industry, *CELLULOSE, *WASTE paper, *NATURAL disasters, *GAMMA rays, *BIODEGRADATION

Abstract

Abstract: Museums, libraries and archives are preserving documents that are slowly degrading due to the inherent ageing of the cellulose substrate or to the technological errors of the past (acid paper, iron gall ink). Beside this, large quantities of paper are rapidly damaged by biological attacks following natural disasters and improper storage conditions. The treatment of paper documents with ionizing radiation can be used for mass decontamination of cultural heritage items but conservators and restaurators are still reserved because of the radiation induced degradation. We conducted a study for establishing the dose needed for the effective treatment of paper documents, taking into account the biological burden and the irradiation effects on paper structure. We used physical testing specific to paper industry and less destructive analytical methods (thermal analysis). Our results show that an effective treatment can be performed with doses lower than 10kGy. Old paper appears to be less affected by gamma radiation than recent paper but the sampling is highly affected by the non-uniform degree of the initial degradation status. The extent of testing for degradation and the magnitude of acceptable degradation should take into account the biological threat and the expected life time of the paper documents. [Copyright &y& Elsevier]

Published

2012

22. Preliminary Feasibility Study of Colorimetric Properties as An Assessment Tool for Cost-Effective Dye Impregnated Paper Gamma Dosimeters.

Author

Sarma, I. B. Das, Parwate, D. V., and Bhowmick, D. S.

Subjects

VALUATION of real property, DOSIMETERS, GAMMA rays, MALACHITE green, GENTIAN violet, CONGO red (Staining dye)

Abstract

Gamma radiations are known to bring about radiolysis of myriad compounds / dyes which is used to measure of the energy of the incident radiation on the system. The use of various dye solutions for chemical dosimetry is reported in literature. Various thin film dosimeters, semi-conductor dosimeters are also reported and widely used. Similarly ? - dose quantification using paper or polymer impregnated with dyes has also been reported. In the present study, decolouration due to gamma radiation of various dye impregnated papers viz. Gentian Violet (GV), Malachite Blue (MB), Malachite Green (MG), Brilliant Yellow (BY) and Congo Red (CR) has been investigated using device independent colour parameters. The colour analysis was done by standard procedures of Commission Internationale de l'Eclairage CIE. Color has mind dependency so to eliminate the errors in determination colour parameters are evaluated. [ABSTRACT FROM AUTHOR]

Published

2021

23. Gamma radiation effects in packaging for sterilization of health products and their constituents paper and plastic film.

Author

B.G. Porto, Karina Meschini, Napolitano, Celia Marina, and Borrely, Sueli Ivone

Subjects

*GAMMA rays, *PACKAGING, *RADIATION sterilization, *PLASTIC films, *TENSILE strength

Abstract

The integrity of materials containing packaging (natural or synthetic polymers) is essential to keep the aseptic condition of commercialized products (health care products, food and pharmaceuticals). The objective of this paper was to study gamma radiation effects (25 kGy, 40 kGy and 50 kGy) on the main properties of paper and multilayer films (polyester and polyethylene). Paper and multilayer films are components of packaging (pouches) for radiation sterilization containing medical equipment or products. Paper was the more radiation sensitive among the studied materials and radiation effects were more pronounced at brightness, pH, tearing resistance, bursting strength and tensile strength. Concerning plastic film, no pinholes were induced by radiation and the effects on the tensile strength were not significant. Although the seal strength packaging (pouches) decreased according to increasing dose, the sealing integrity was preserved. [ABSTRACT FROM AUTHOR]

Published

2018

24. Preparation and characterization of irradiated magnetic pineapple leaves for paper production.

Author

Sufian, Amirul Azan Mohd, Othman, Siti Amira, Phang, Chang, Kek, Sie Long, and Jacob, Kavikumar

Subjects

PINEAPPLE, SCANNING electron microscopes, GAMMA rays, CORPORATE bonds, LEAF fibers, FOURIER transform infrared spectroscopy

Abstract

Deforestation issues were increased dramatically every year especially in order for the production of paper. This was caused by the demand for making paper and furniture from wood sources. The supply of paper nowadays all depends on the wood. This experiment has been conducted to analyses the viability of magnetic pineapple leaves paper as a replacement for paper production and to analyses the morphology properties of pineapple leaves fiber. The introduction of filler in this research is to alter one or more paper properties such as texture, opacity, brightness, basis weight, dimensional stability, ink absorbency and overall printability. Commonly, most fillers are from clay, titanium dioxide or calcium carbonate. Thus, the ferrite magnet was used as the filler to ensure it has the same properties as the commercial filler. The pineapple leaves fiber then will be undertaking Scanning Electron Microscope (SEM) and Fourier-Transform Infrared Spectroscopy (FTIR) which was used for characterization. Through the characterization under Scanning Electron Microscope (SEM), the surface morphology of the magnetics pineapple leaves paper was changed due to the effect of the gamma radiation and by the degradation on the pineapple leaves fiber. Besides, for FTIR spectroscopy, the result indicated that pineapple leaves fiber was suitable for papermaking where the absorption peak is between 3400 - 2400 cm−1 and shows the presence of O-H and C-H bonds in polysaccharides for both magnetic and non-magnetic irradiated pineapple leaves paper. The magnetics pineapple leaves paper shows the good properties, as well as other commercial papers and this, will give many benefits to reduce the use of wood for making pulp and one of the efforts towards green technology and new invention on papermaking production. [ABSTRACT FROM AUTHOR]

Published

2020

25. Gamma radiation-induced effects on paper irradiated at absorbed doses common for cultural heritage preservation.

Author

Cemmi, Alessia, Di Sarcina, Ilaria, and D'Orsi, Beatrice

Subjects

*ABSORBED dose, *CULTURAL property, *CULTURAL maintenance, *GAMMA rays, *IONIZING radiation, *COLORIMETRIC analysis, *IRRADIATION

Abstract

The effectiveness of ionizing radiations for the preservation of cultural heritage (CH) has been recently demonstrated. Although these processes present many advantages with respect to the traditional methods, physico-chemical modifications induced by radiation (namely side effects) represent a concern for CH restorers, archivists and librarians. The present work is focused on the study of the effect of gamma irradiation parameters on the main features of paper. In particular, total absorbed doses up to 10 kGy (commonly suggested for preservation treatments) have been applied, with dose rates ranging from 3 to 10 kGy/h. Different experimental techniques (FTIR, EPR, viscosity and colorimetric analysis) have been used to study the side effects occurrence. The results indicate that the fine-tuning of irradiation condition allow to minimize the unwanted changes, induced by radiation in the treated paper samples. • Gamma radiation at absorbed doses common for preservation of cultural heritage (up to 10 kGy). • Side effects evaluation with several experimental techniques (FTIR, EPR, DP, colorimetric analysis). • Studies were performed at different dose rate values. • Irradiation parameters optimization to minimize the side effects. • Gamma rays represent a suitable and reliable tool for bio-deteriogens elimination purpose. [ABSTRACT FROM AUTHOR]

Published

2023

26. PRACTICE PAPER JEE MAIN.

Subjects

RADIATION, ELECTRIC currents, KEPLER'S laws, PERMEABILITY, GAMMA rays

Abstract

A quiz with practice paper for joint entrance examination is presented.

Published

2023

27. PRACTICE PAPER NEET 2023.

Subjects

*GEOMAGNETISM, *KINETIC energy, *PHYSICS, *ELECTROMAGNETIC waves, *GAMMA rays

Abstract

The article presents a practice paper quiz for National Eligibility Cum Entrance Test(NEET), Physics, 2023, consisting of multiple-choice questions covering various topics in physics, including electromagnetic waves, radioactive decay, gas laws, and more.

Published

2023

28. Electron spin resonance (ESR) study on gamma irradiated some modern paper samples.

Author

Paksu, Ufuk and Engin, Birol

Subjects

*ELECTRON paramagnetic resonance, *OPTICALLY stimulated luminescence, *GAMMA rays, *CALCITE, *DRINKING straws, *FREE radicals, *CARBONATE minerals

Abstract

In this work, we use paramagnetic defects induced by gamma radiation in some modern paper samples to determine their main dosimetric properties in the decontamination dose range (0.5–10 kGy) of ancient papers. Electron spin resonance (ESR) spectra of photo paper, cigarette paper, white paper napkin (napkin), cash register receipt, straw paper and white photocopy paper recorded before and after irradiation with gamma rays were reported. Photo paper, cigarette paper and napkin samples displayed the radiation-induced cellulose-like ESR signals well known from the literature on cellulose-containing foods. Cash register receipt, straw paper, and white photocopy paper are another set of samples where different ESR spectra were recorded. The ESR signals of these three paper samples were shown to originate from carbonate mineral filler grains. Inorganic mineral fillers are commonly used in paper manufacturing. The dose-response curves associated with the radiation-induced sharp ESR signals originating from the CaCO 3 filler of the cash register receipt (g = 2.0027), the straw paper (g = 1.9995), and the white photocopy paper (g = 1.9996) were found to follow a single exponential saturation function. Despite the observed decreases with time in the signal intensities of cash register receipt and white photocopy paper, detectable ESR signals were obtained even 100 days after irradiation for them and straw paper. The radiation-induced free radicals responsible for the ESR spectrum of straw paper were more stable than those of cash register receipt and white photocopy paper. The results indicate that free radicals induced in mineral CaCO 3 filler grains incorporated within papers have the potential to be used for application to retrospective ESR dosimetry in the range of 0.5–10 kGy. • Radiation-induced ESR signals were examined in six types of modern papers. • Cellulose-like and calcite filler origin signals were observed in the papers. • ESR signals originating from calcite filler increased exponentially in the range 0.5–10 kGy. • The fading behaviors of the signals were investigated depending on the dose. • Common modern papers were tested as potential retrospective ESR dosimeters. [ABSTRACT FROM AUTHOR]

Published

2022

29. Influence of dose and dose rate on the physical properties of commercial papers commonly used in libraries and archives.

Author

Area, María C., Calvo, Ana M., Felissia, Fernando E., Docters, Andrea, and Miranda, María V.

Subjects

*NEGOTIABLE instruments, *GAMMA rays, *LIBRARIES, *FIBERS, *TENSILE strength, *RADIANCE, *AIR resistance

Abstract

Abstract: The aim of this study was to evaluate the effects of dose and dose rate of gamma irradiation on the physical properties of commercial papers commonly used in libraries and archives to optimize the irradiation conditions. Three different brands of paper of different fiber compositions were treated, using a 32 factorial design with four replicates of the center point, with doses ranging from 2 to 11kGy and dose rates between 1 and 11kGy/h. Chemical, mechanical and optical properties were determined on the samples. With some differences between the different kinds of papers, tensile strength, elongation, TEA, and air resistance were in general, unaffected by the treatment. The minimum loss of tear resistance and brightness were obtained with doses in the range 4–6kGy at any dose rate for all three kinds of paper. These conditions are ideal to remove insects and sufficient to eliminate fungus. [Copyright &y& Elsevier]

Published

2014

30. Development of two dosimetry systems based on basic violet dye for possible use as radiation dosimeters

Author

Magdy, Nehad and Gafar, Sameh

Published

2022

31. Toppan and Kyoto U Develop Tungsten-based Radiation Shielding Functional Paper

Subjects

Nuclear radiation, Tungsten -- Shipments data, Radiation, X-rays, Gamma rays, Business, general

Abstract

- (JCN) - Toppan Printing has developed a tungsten-based functional paper that blocks radiation by incorporating tungsten in paper in high density. Sample shipments will begin from mid-June 2012. It [...]

Published

2012

32. Optical evaluation of dithizone solution as a new radiochromic dosimeter

Author

Rabaeh, Khalid and Basfar, Ahmed

Published

2020

33. NIH Says Paper Contained Bogus Data

Published

1991

34. Estimation of the shielding ability of a tungsten functional paper for diagnostic x-rays and gamma rays.

Author

Monzen, Hajime, Kanno, Ikuo, Fujimoto, Takahiro, and Hiraoka, Masahiro

Subjects

MEDICAL digital radiography, MEDICAL applications of x-rays, GAMMA rays, RADIATION shielding, TUNGSTEN

Abstract

Tungsten functional paper (TFP) is a novel paper-based radiation-shielding material. We measured the shielding ability of TFP against x-rays and gamma rays. The TFP was supplied in 0.3-mm-thick sheets that contained 80% tungsten powder and 20% cellulose (C6H10O5) by mass. In dose measurements for x-rays (60, 80, 100, and 120 kVp), we measured doses after through 1, 2, 3, 5, 10, and 12 TFP sheets, as well as 0.3 and 0.5 mm of lead. In lead equivalence measurements, we measured doses after through 2 and 10 TFP sheets for x-rays (100 and 150 kVp), and 0, 7, 10, 20, and 30 TFP sheets for gamma rays from cesium-137 source (662 keV). And then, the lead equivalent thicknesses of TFP were determined by comparison with doses after through standard lead plates (purity >99.9%). Additionally, we evaluated uniformity of the transmitted dose by TFP with a computed radiography image plate for 50 kVp x-rays. A single TFP sheet was found to have a shielding ability of 65%, 53%, 48%, and 46% for x-rays (60, 80, 100, and 120 kVp), respectively. The lead equivalent thicknesses of two TFP sheets were 0.10 ± 0.02, 0.09 ± 0.02 mmPb, and of ten TFP sheets were 0.48 ± 0.02 and 0.51 ± 0.02 mmPb for 100 and 150 kVp x-rays, respectively. The lead equivalent thicknesses of 7, 10, 20, and 30 sheets of TFP for gamma rays from cesium-137 source were estimated as 0.28, 0.43, 0.91, and 1.50 mmPb with an error of ± 0.01 mm. One TFP sheet had nonuniformity, however, seven TFP sheets provided complete shielding for 50 kVp x-rays. TFP has adequate radiation shielding ability for x-rays and gamma rays within the energy range used in diagnostic imaging field. [ABSTRACT FROM AUTHOR]

Published

2017

35. Editorial to the Special Issue: "Recent Advances in Gamma Ray Astrophysics and Future Perspectives" †.

Author

Romano, Patrizia

Subjects

GAMMA rays, ASTROPHYSICS, GAMMA ray bursts, SPECTRAL energy distribution, BL Lacertae objects, ACTIVE galactic nuclei

Abstract

This document is an editorial introducing a special issue on recent advances in gamma-ray astrophysics and future perspectives. It focuses on cosmic sources of extra-galactic origin, particularly active galactic nuclei (AGN). The editorial provides an overview of AGNs and their characteristics, and mentions specific papers in the special issue that review non-thermal mechanisms in high-energy peaked BL Lacs, compare methods to estimate jet power in AGNs, discuss the achievements of the MAGIC Telescopes in studying AGNs, and provide an in-depth review of various types of gamma-ray transients. It also mentions upcoming gamma-ray telescopes and space missions dedicated to studying gamma-ray bursts (GRBs). The papers highlight the ongoing advancements in gamma-ray astrophysics and astro-particle physics. [Extracted from the article]

Published

2024

36. Effect of gamma‐irradiation on the mechanical behavior of EPDM rubber‐recycled newsprint microfibers composites.

Author

Ali, Magdy A. M., El‐Nemr, Khaled F., Hamada, Amina A., and Abd‐Elhady, Wafaa S.

Subjects

WASTE paper, GAMMA rays, RUBBER, SCANNING electron microscopy, MICROFIBERS, TENSILE strength

Abstract

Waste newsprint paper was collected from the local market and subjected to chemical pulping using 2 M NaOH. The fiber, after getting rid of water, was treated again using 2 M HCl solution for the same time period. The obtained newsprint microfibers (NPFs) were characterized by using scanning electron microscopy (SEM), X‐ray diffraction (XRD), and Fourier transform infrared spectra. Then the dried and grounded NPF batch was mixed with ethylene propylene diene monomer (EPDM) rubber using different concentrations ranged from 5 to 50 phr. The prepared composites were irradiated by using gamma rays at different doses from 20 to 100 kGy. The mechanical properties of prepared EPDM/NPFs composites such as tensile strength (Ts), elongation at break (Eb%), tensile modulus (M100), toughness (Tt), and crosslink density (Cd) were measured as a function of fiber contents and irradiation dose. The results indicated that the tensile strength (Ts) increases with increasing microfibers contents up to 10 phr and irradiation dose up to 40 kGy, while Eb% decreases as the fibers content and irradiation dose increase. M100 and Cd values increase with increasing fibers content up 50 phr fibers and irradiation dose up to 60 kGy. The results also concluded that the toughness values of EPDM/NPFs composites reach its maximum degree when using 10 phr NPFs concentration and 60 kGy irradiation dose. J. VINYL ADDIT. TECHNOL., 25:198–212, 2019. © 2018 Society of Plastics Engineers [ABSTRACT FROM AUTHOR]

Published

2019

37. Gamma radiation for preservation of biologically damaged paper

Author

Gonzalez, M.E., Calvo, A.M., and Kairiyama, E.

Subjects

*GAMMA rays, *ARTHROPODA

Abstract

Samples of nine different papers in use in the library, including two mould-contaminated papers, were irradiated with 14.4 kGy in a Co-60 facility. Five of the samples were subsequently subjected to an accelerated UV-ageing process. mechanical (tensile energy absorption and stretch) and optical properties were measured on control and irradiated samples, before and after ageing.For most samples, the effect of ageing on mechanical properties turned out to be larger than that of irradiation. Irradiated and control samples were similarly affected by the accelerated ageing. Mould contaminated samples were still in acceptable conditions of use after irradiation. No discoloration effect was observed after irradiation and/or ageing. [Copyright &y& Elsevier]

Published

2002

38. Radiation induced degradation of murexide dye in two media for possible use in dosimetric applications

Author

Gafar, Sameh Mohamed and Abdel-Kader, Nehad Magdy

Published

2019

39. An innovative approach for investigation of overpressure due to hydrocarbon generation: a regional study on Kazhdumi formation, South-western Zagros Basin, Iran.

Author

Sadeghtabaghi, Zahra, Kadkhodaie, Ali, Mehdipour, Vali, and Kadkhodaie, Rahim

Subjects

ARTIFICIAL neural networks, GAMMA rays, HYDROCARBONS

Abstract

Overpressure is always considered as a severe problem in the oil industry. Besides creating life risks through serious accidents while drilling, failure to correctly identify high-pressure intervals causes a significant increase in costs and prolongs the drilling process. Kazhdumi Formation in the Abadan Plain is considered as a high-pressure formation in several wells. Various reasons can cause overpressure problem. Hydrocarbon generation is one cause of abnormal pressure in source rocks. Understanding hydrocarbon generation potential can be a helpful approach since the Kazhdumi Formation is considered as a probable source rock in this area. In this paper, in order to better understand the problem of abnormal pressure in Kazhdumi Formation, geochemical concepts and tools have been applied. To that way, 1D petroleum system modeling of five wells was done, and the thermal maturity level of Kazhdumi Formation was determined and then, compared with drilling records. The results indicate that in wells where this formation has sufficient organic matter and has reached an early mature level, there is an abnormal pressure problem. Otherwise, this formation does not show abnormal pressure. Also, geochemical data are not available in all drilled wells, which makes impossible the assessing of hydrocarbon generation role. Therefore, petrophysical well logs (sonic (DT), neutron (NPHI), density (RHOB), spectral gamma ray (SGR), and resistivity (RES)) as well as 137 sets of geochemical data belonging to 13 wells from 7 oilfields in the Abadan Plain were used to predict geochemical indicators. Using artificial neural networks, geochemical data of a well in Abadan Plain were predicted. This selected well has a high-pressure problem in Kazhdumi Formation, but no geochemical data are available in this well. The results of predicted geochemical data show that the high-pressure phenomenon in this well may also be due to hydrocarbon generation. The precise understanding of the abnormal pressure, resulting from hydrocarbons generation, requires comprehensive studies and a full investigation of the studied area. However, the results of this paper help to predict approximately the behavior of the source rocks before drilling. Acquiring this overview will aid in reducing drilling hazards and costs. [ABSTRACT FROM AUTHOR]

Published

2024

40. Gamma Irradiation of Washi Part 2*: Changes in degree of polymerization and crystallinity of cellulose.

Author

El-Esseily, Abdel-Salam and Inaba, Masamitsu

Subjects

*PRESERVATION of paper, *GAMMA rays, *POLYMERIZATION, *PAPER deacidification, *DRY strength of paper, *CELLULOSE

Abstract

This article presents the author's views on paper conservation. In the conservation of paper, gamma irradiation has been used for several specific purposes. Its application is based on the high penetration power of gamma rays and their high energy. Gamma irradiation has been used for the destruction of various fungi on several types of paper. High energy irradiation causes excitation and ionization leading to the degradation of the molecules and the creation of free radicals. The accompanying structural changes are in many respects analogous to those observed when cellulose is oxidized, finally resulting in the loss of tensile strength, reduced degree of polymerization and an increase in the number of carboxyl and carbonyl groups.

Published

2004

41. Combined effects of gamma-irradiation, dose rate and mycobiota activity on cultural heritage – Study on model paper.

Author

Marušić, Katarina, Klarić, Maja Šegvić, Sinčić, Lucija, Pucić, Irina, and Mihaljević, Branka

Subjects

*CULTURAL property, *IRRADIATION, *MICROBIAL contamination, *COLORIMETRIC analysis, *CULTURAL activities, *RADICAL anions, *GAMMA rays

Abstract

Cellulose, the main constituent of paper-made objects of cultural heritage (CH), is a favorable substrate for fungal growth. Gamma irradiation is a well-established low-cost treatment convenient for decontamination of such objects. Since side-effects to paper-based CH are always a concern the aim of this work was to investigate if a synergism of microbiological contamination and gamma irradiation effects exists and if it induces changes in paper's appearance and structure. The dose rate plays an important yet generally neglected role in the efficacy of the radiation treatment so another goal was to assert its influence on decontamination efficiency and paper properties. Irradiation conditions for treating the highly resistant secondary colonizer Cladosporium sphaerospermum , as well as the naturally occurring mycobiota were evaluated. Untreated and inoculated samples of paper were irradiated with doses commonly applied to CH objects, as well as to significantly higher doses, at two dose rates that differ for two orders of magnitude. Microbiological analysis of irradiated samples was conducted. Colorimetric analysis, UV-vis and FTIR measurements were performed after short lived reaction species have decayed. The results have shown that in the case of high contaminations (104 CFU/g) the applied dose needs to be adjusted and that the corresponding dose rate needs to be high enough. While at the dose rate of 31 kGy/h the irradiation dose of 7 kGy seems to be effective to obtain proper reduction of mycobita, at the dose rate that was two orders of magnitude lower the required dose increased approximately ten times. Thus the reevaluation of the recommended dose of 8 ± 2 kGy is needed. Considering the side effects of radiation treatment the dose rate effect has also been observed. At the higher of the investigated dose rates the irradiation doses needed for decontamination did not alter the appearance of paper, while at the lower one the changes were hardly perceptible. The main species showing their contribution to color change were the carbonate anion-radicals that were formed on the CaCO 3 paper filler. No oxidation or change in crystallinity of cellulose was detected. Overall changes were too insignificant to make any conclusion on the contribution of mycobiota to the irradiation side-effects on the paper under the studied conditions. • Dose rate determines radiation treatment efficiency and appearance of side effects. • Reevaluation of recommended 8 ± 2 kGy taking into account the dose rate is needed. • Electron beam treatment of paper-based cultural heritage may be encouraged. • Observable changes occurred at larger doses than needed for cultural heritage. • For samples irradiated to high doses carbonate radical anion absorption appeared. [ABSTRACT FROM AUTHOR]

Published

2020

42. Sensitive imaging of actinide materials in shielded radioactive waste.

Author

Vasiljević, Jana, Peters, Vivian, Puranen, Anders, and Cederwall, Bo

Subjects

RADIOACTIVE substances, URANIUM isotopes, PLUTONIUM isotopes, FAST neutrons, GAMMA rays, RADIOACTIVE wastes

Abstract

This paper reports on the development of a method for enhanced non-destructive assay (NDA) of radioactive waste using the novel technique neutron-gamma emission tomography (NGET). The technique relies on the detection of correlated fast neutrons and gamma rays emitted in spontaneous or induced fission. It is based on fast organic scintillators and enables sensitive detection and three-dimensional (3D) localization of the fission events. The technique is passive and does not require moving components. In this work, we apply the NGET technique to the category of radioactive waste which is often referred to as historic or legacy waste. This can include mixed wastes encased in shielded containers many decades ago, before the advent of detailed waste description criteria. These low or intermediate level wastes are often associated with lacking, limited or conflicting documentation. This poses a challenge when assigning the waste to the proper disposal route as well as in deciding whether the waste needs to undergo sorting and conditioning to fulfil waste acceptance criteria both with regards to safe interim storage and to its ultimate disposal. Actinides, such as isotopes of uranium and plutonium, with their typically long half-lives and decay chains are of special interest in this regard since they may challenge the long-term safety assessment in repositories predicated on mainly shorter half-life radionuclides if undetected. Accurate identification and localisation of actinides is also important from a safeguards perspective, especially since they are generally difficult to detect and localise by established passive means due to their relatively weak radiation emissions, in particular in shielded containments and in the presence of strong radiation fields from other radioactive materials. In this paper we present findings of measurements on shielded containments of long-lived radioactive waste performed at the Studsvik site in Sweden, as well as measurements on a laboratory assembly simulating a grouted waste drum. Similarities and differences between the novel NGET technique and a commercially available gamma imaging system are also briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2024

43. Comments to the paper: "LIDT test coupled with gamma radiation degraded optics", by M.-R. Ioan, Opt. Commun. 369 (2016) 94–99.

Author

Ioan, Mihail-Răzvan, Rusen, Laurenţiu, and Nemeş, George

Subjects

*GAMMA rays, *OPTICS, *SINGLE-mode optical fibers, *FEMTOSECOND lasers

Published

2019

44. The Gamma Ray Burst section of the White Paper on the Status and Future of Very High Energy Gamma Ray Astronomy: A Brief Preliminary Report.

Author

Falcone, A. D., Williams, D. A., Baring, M. G., Blandford, R., Connaughton, V., Coppi, P., Dermer, C., Dingus, B., Fryer, C., Gehrels, N., Granot, J., Horan, D., Katz, J. I., Kuehn, K., Mészáros, P., Norris, J., Parkinson, P. Saz, Pe'er, A., Ramirez-Ruiz, E., and Razzaque, S.

Subjects

GAMMA ray astronomy, GAMMA rays, SPACE astronomy, ASTRONOMY, GAMMA ray bursts

Abstract

This is a short report on the preliminary findings of the gamma ray burst (GRB) working group for the white paper on the status and future of very high energy (VHE;>50 GeV) gamma-ray astronomy. The white paper discusses the status of past and current attempts to observe GRBs at GeV-TeV energies, including a handful of low-significance, possible detections. The white paper concentrates on the potential of future ground-based gamma-ray experiments to observe the highest energy emission ever recorded for GRBs, particularly for those that are nearby and have high Lorentz factors in the GRB jet. It is clear that the detection of VHE emission would have strong implications for GRB models, as well as cosmic ray origin. In particular, the extended emission phase (including both afterglow emission and possible flaring) of nearby long GRBs could provide the best possibility for detection. The difficult-to-obtain observations during the prompt phase of nearby long GRBs and short GRBs could also provide particularly strong constraints on the opacity and bulk Lorentz factors surrounding the acceleration site. The synergy with upcoming and existing observatories will, of course, be critical for both identification of GRBs and for multiwavelength/multimessenger studies. [ABSTRACT FROM AUTHOR]

Published

2008

45. Mass Treatment of Flooded Archival Materials by Gamma Radiation.

Author

Montanari, Matteo, Pipponzi, Sara, Livi, Pietro, and Prodi, Antonio

Subjects

ARCHIVAL materials, GAMMA rays, DETECTION limit, FLOOD damage

Abstract

Copyright of Restaurator is the property of De Gruyter and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

46. 28.2: Invited Paper: Innovations in Automotive Optical Display Measurements.

Author

Blankenbach, Karlheinz

Subjects

OPTICAL display devices, GAMMA rays

Abstract

Automotive displays have unique requirements in terms of optical performance and longevity in harsh environment. CE displays set the pace for visual performance. Automotive displays require therefore enormous and costly effort for validation. This paper presents the German Cooperation Model and selected topics like gamma, viewing angle and ambient light. [ABSTRACT FROM AUTHOR]

Published

2018

47. A Comprehensive Review of Radiation-Induced Hydrogels: Synthesis, Properties, and Multidimensional Applications.

Author

Ahmed, Md. Shahriar, Islam, Mobinul, Hasan, Md. Kamrul, and Nam, Kyung-Wan

Subjects

HYDROGELS, GAMMA rays, RESEARCH & development, NANOTECHNOLOGY, BIOCOMPATIBILITY

Abstract

At the forefront of advanced material technology, radiation-induced hydrogels present a promising avenue for innovation across various sectors, utilizing gamma radiation, electron beam radiation, and UV radiation. Through the unique synthesis process involving radiation exposure, these hydrogels exhibit exceptional properties that make them highly versatile and valuable for a multitude of applications. This paper focuses on the intricacies of the synthesis methods employed in creating these radiation-induced hydrogels, shedding light on their structural characteristics and functional benefits. In particular, the paper analyzes the diverse utility of these hydrogels in biomedicine and agriculture, showcasing their potential for applications such as targeted drug delivery, injury recovery, and even environmental engineering solutions. By analyzing current research trends and highlighting potential future directions, this review aims to underscore the transformative impact that radiation-induced hydrogels could have on various industries and the advancement of biomedical and agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

48. The Gamma-Ray Origin of RX J0852.0-4622 Quantifying the Hadronic and Leptonic Components: Further Evidence for the Cosmic-Ray Acceleration in Young Shell-type SNRs.

Author

Fukui, Yasuo, Aruga, Maki, Sano, Hidetoshi, Hayakawa, Takahiro, Inoue, Tsuyoshi, Rowell, Gavin, Einecke, Sabrina, and Tachihara, Kengo

Subjects

COSMIC rays, SUPERNOVA remnants, GAMMA rays, AEROSPACE planes, INTERSTELLAR medium, PROTONS

Abstract

Fukui et al. quantified the hadronic and leptonic gamma-rays in the young TeV gamma-ray shell-type supernova remnant (SNR) RX J1713.7-3946 (RX J1713), and demonstrated that gamma rays are a combination of hadronic and leptonic gamma-ray components with a ratio of ∼6: 4 in gamma-ray counts N g. This discovery, which adopted a new methodology of multi-linear gamma-ray decomposition, was the first quantification of the two gamma-ray components. In the present work, we applied the same methodology to another TeV gamma-ray shell-type SNR RX J0852.0-4622 (RXJ0852) in 3D space characterized by (the interstellar proton column density N p)-(the nonthermal X-ray count N x)-[ N g], and quantified the hadronic and leptonic gamma-ray components as having a ratio of ∼5:5 in N g. The present work adopted the fitting of two/three flat planes in 3D space instead of a single flat plane, which allowed suppression of the fitting errors. This quantification indicates that hadronic and leptonic gamma-rays are of the same order of magnitude in these two core-collapse SNRs, verifying the significant hadronic gamma-ray components. We argue that the target interstellar protons, in particular their spatial distribution, are essential in any attempts to identify the type of particles responsible for gamma-ray emission. The present results confirm that cosmic-ray (CR) energy ≲100 TeV is compatible with a scheme in which SNRs are the dominant source of these Galactic CRs. [ABSTRACT FROM AUTHOR]

Published

2024

49. An electronic energy compensation method for flattening the energy response of SiPM-GGAG:Ce,B based gamma detector.

Author

Srivastava S, Mitra P, Kumar A, Singh S, Tyagi M, Kumar AV, and Topkar A

Subjects

Equipment Design, Cesium Radioisotopes analysis, Americium analysis, Electronics, Cobalt Radioisotopes analysis, Scintillation Counting instrumentation, Scintillation Counting methods, Radiation Monitoring methods, Radiation Monitoring instrumentation, Radiation Dosage, Computer Simulation, Humans, Algorithms, Gamma Rays

Abstract

The energy response of gross gamma dose rate monitors needs to be flat in order to prevent overestimation of dose at low gamma energies. In this paper, a discriminator threshold modulation based electronic energy compensation algorithm has been proposed for SiPM-scintillator based gamma detectors. Theoretical simulation studies were carried out in order to optimize the parameters of the periodic ramp voltage used for modulation of the discriminator threshold of a SiPM-GGAG:Ce,B based gamma dose rate monitor. A customized threshold modulation circuit and signal processing electronics were developed for this gamma detector. For experimentally optimizing the parameters, the energy response studies of the detector, with and without the discriminator threshold modulation, were carried out. With the optimized parameters for a periodic ramp threshold, the count rates for 241Am (60 keV) and 60Co (1173 and 1332 keV) were observed to be within ±30% of the count rate obtained for 137Cs (662 keV). Using the electronic energy compensation techniques presented in this paper, a flat energy response of the SiPM-scintillator gamma detector for the energy range of 60 keV to 1.5 MeV could be achieved., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

50. Effect of gamma ray dose on granular and molecular structures of gamma ray-irradiated cassava starch and its application in bioplastics.

Author

Janthanasakulwong P and Yoksan R

Subjects

Molecular Weight, Molecular Structure, Amylopectin chemistry, Amylose chemistry, Polyesters chemistry, Plastics chemistry, Hydrogen-Ion Concentration, Manihot chemistry, Gamma Rays, Starch chemistry

Abstract

In this study, the effect of gamma ray irradiation on the granular and molecular structures of cassava starch was examined. Cassava starch was irradiated with various gamma ray doses of 25, 50, 75, and 100 kGy. After irradiation, the starch turned yellow, but its granular morphological characteristics remained intact. However, the inner part and the 'Maltese cross' of the starch granules irradiated with 100 kGy were broken, and its crystallinity decreased considerably. The pH reduction (from 5.6 to 3.7) and carboxyl content increase (up to 0.38 %) confirmed the formation of carboxyl groups on the irradiated starch chains. Gamma ray irradiation caused glycosidic bond cleavages, resulting in shortened amylose chains and debranched amylopectin chains containing terminal carboxyl groups. The irradiated starches with different molecular weights have high potential for use in food and non-food applications, for example, in bioplastics. Thermoplastic-irradiated starch (TPIS) materials, and their blends with poly(lactic acid) (PLA) were prepared via extrusion. Both TPIS and PLA/TPIS blends exhibited considerably increased melt flow index values compared with those from the unirradiated starch at approximate increases of 420-2260% and 2-55%, respectively. The improved melt flow ability and reduced viscosity are advantages for some plastic conversion processes such as injection molding., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024