{"id":280,"date":"2015-03-15T07:03:24","date_gmt":"2015-03-15T07:03:24","guid":{"rendered":"http:\/\/comp.utm.my\/azman2\/?page_id=280"},"modified":"2021-03-24T16:59:51","modified_gmt":"2021-03-24T16:59:51","slug":"journal-papers","status":"publish","type":"page","link":"https:\/\/people.utm.my\/suhairul\/journal-papers\/","title":{"rendered":"Journal Papers"},"content":{"rendered":"\n
NO<\/strong><\/td>ARTICLE TITLE<\/strong><\/td>JOURNAL TITLE<\/strong><\/td>ISSN<\/strong><\/td>Vol.<\/strong><\/td>Issues<\/strong><\/td>Page<\/strong><\/td>Publication year<\/strong><\/td>IF<\/strong><\/td>Type <\/strong><\/td>Category <\/strong><\/td>Quartile <\/strong><\/td><\/tr>
1<\/td>Applied Sciences (Switzerland)<\/td>The radioactivity of thorium incandescent gas lantern mantles<\/a><\/td>20763417<\/td>11<\/td>3<\/td>1-11<\/td>2021<\/td>2.474<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
2<\/td>Ecotoxicology and Environmental Safety<\/td>Radiological hazard associated with amang processing industry in Peninsular Malaysia and its environmental impacts<\/a><\/td>0236-5731<\/td>208<\/td><\/td>111727<\/td>2021<\/td>4.872<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
3<\/td>Radiation Physics and Chemistry<\/td>Radiation dose assessment of 64 Multi-Slices Computed Tomography scanner<\/a><\/td>0969-806X<\/td>178<\/td><\/td>108904<\/td>2021<\/td>2.226<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
4<\/td>Radiation Physics and Chemistry<\/td>Fluoroscopy-guided intervention procedure norms for occupational eye radiation dose: An overall evaluation<\/td>0969-806X<\/td>178<\/td><\/td>108909<\/td>2021<\/td>2.226<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
5<\/td>Journal of Radioanalytical and Nuclear Chemistry<\/td>Radiological dose and health impact to Jordanian populace due to radioactivity in staple food crops from four representative soils in Jordan <\/td>0236-5731<\/td>326<\/td>3<\/td>1679-1689<\/td>2020<\/td>1.137<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
6<\/td>Optik<\/td>Spectroscopic behaviour of Dy3+<\/sup> and Sm3+<\/sup> impurity-doped strontium magnesium borate glasses: A comparative evaluation <\/td>0030-4026<\/td>224<\/td><\/td>165641<\/td>2020<\/td>2.187<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
7<\/td>Optics and Laser Technology<\/td>Modified structure and spectroscopic characteristics of Sm3+<\/sup>\/Dy3+<\/sup> co-activated barium-sulfur-telluro-borate glass host: Role of plasmonic gold nanoparticles inclusion<\/td>0030-3992<\/td>132<\/td><\/td>106486<\/td>2020<\/td>3.233<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
8<\/td>Journal of Alloys and Compounds<\/td>Physical, thermal and absorption traits of lithium strontium zinc borate glasses: Sensitiveness on Dy3+<\/sup> doping <\/td>0925-8388<\/td>844<\/td><\/td>156176<\/td>2020<\/td>4.650<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
9<\/td>Environmental Sciences Europe<\/td>The radiological assessment, hazard evaluation, and spatial distribution for a hypothetical nuclear power plant accident at Baiji potential site <\/td>2190-4707<\/td>32<\/td>1<\/td>6<\/td>2020<\/td>5.394<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
10<\/td>Journal of Radioanalytical and Nuclear Chemistry<\/td>Assessment of geogenic radon potential in Johor Malaysia <\/td>0236-5731<\/td>326<\/td>2<\/td>1065-1074<\/td>2020<\/td>1.137<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
11<\/td>Indian Journal of Physics<\/td>On the lasing potency of samarium-activated BaSO4<\/sub>\u2013TeO2<\/sub>\u2013B2<\/sub>O3<\/sub> glass host: Judd\u2013Ofelt analysis <\/td>0973-1458<\/td>94<\/td>11<\/td>1811-1820<\/td>2020<\/td>1.407<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
12<\/td>Materials Chemistry and Physics,<\/td>Spectroscopic characteristics of Dy3+<\/sup> impurities\u2013doped borate-based glasses: Judd\u2013Ofelt calculation <\/td>0254-0584<\/td>253<\/td><\/td>123386<\/td>2020<\/td>3.408<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
13<\/td>ECS Journal of Solid State Science and Technology<\/td>Enhanced Performance of PTB7:PC71BM Based Organic Solar Cells by Incorporating a Nano-Layered Electron Transport of Titanium Oxide <\/td>2162-8769<\/td>9<\/td>10<\/td>105003<\/td>2020<\/td>2.142<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
14<\/td>Optik<\/td>Judd\u2212Ofelt calculations for spectroscopic characteristics of Dy3+<\/sup>-activated strontium magnesium borate glass <\/td>0030-4026<\/td>218<\/td><\/td>165001<\/td>2020<\/td>2.187<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
15<\/td>Chinese Journal of Physics<\/td>Unique optical traits of Sm3+<\/sup> -doped magnesium borate glass<\/td>0577-9073<\/td>66<\/td><\/td>36-49<\/td>2020<\/td>2.638<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
16<\/td>Journal of Physics<\/td>Absorption and luminescence spectral analysis of Dy3+<\/sup>-doped magnesium borate glass <\/td>0577-9073<\/td>66<\/td><\/td>307-317<\/td>2020<\/td>2.638<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
17<\/td>Radiation protection dosimetry<\/td>Scatter Radiation in The Fluoroscopy-Guided Interventional Room<\/td>0144-8420<\/td>188<\/td>3<\/td>397-402<\/td>2020<\/td>0.773<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
18<\/td>Materials Chemistry and Physics<\/td>Structures and spectroscopic characteristics of barium-sulfur-telluro-borate glasses: Role of Sm3+<\/sup> and Dy3+<\/sup> Co-activation<\/td>0254-0584<\/td>247<\/td><\/td>122862<\/td>2020<\/td>2.781<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
19<\/td>Luminescence<\/td>Dosimetric features and kinetic parameters of a glass system dosimeter<\/td>1522-7235<\/td>35<\/td>4<\/td>525-533<\/td>2020<\/td>1.855<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
20<\/td>Radiation Physics and Chemistry<\/td>238<\/sup>U and 232<\/sup>Th isotopes in groundwater of Jordan: Geological influence, water chemistry, and health impact <\/td>0969-806X<\/td>170<\/td><\/td>108660<\/td>2020<\/td>2.226<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
21<\/td>Radiation Physics and Chemistry<\/td>Dose assessment of 4- and 16-slice multi-detector computed tomography (MDCT) scanners <\/td>0969-806X<\/td>168<\/td><\/td>108445<\/td>2020<\/td>2.226<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
22<\/td>Journal of Materials Research and Technology<\/td>A new insight into the temperature induced molecular aggregations in tris (8-hydroxyquinoline) metals <\/td>2238-7854<\/td>9<\/td>3<\/td>084<\/td>2020<\/td>3.327<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
23<\/td>Radiation protection dosimetry<\/td>Assessment on the Interchangeability of Personal Effective Dose Algorithms in Fluoroscopy-Guided Interventions Using Bland-Altman Analysis<\/td>0144-8420<\/td>186 <\/td>4<\/td>462-468<\/td>2019<\/td>0.831<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
24<\/td>Optik<\/td>Optical traits of neodymium-doped new types of borate glasses: Judd-Ofelt analysis<\/td>00304026<\/td>199<\/td><\/td>163515<\/td>2019<\/td>1.914<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
25<\/td>Journal of Luminescence<\/td>Waveguide laser potency of samarium doped BaSO4<\/sub>-TeO2<\/sub>-B2<\/sub>O3<\/sub> glasses: Evaluation of structural and optical qualities <\/td>0022-2313<\/td>216<\/td><\/td>116686<\/td>2019<\/td>2.961<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
26<\/td>Radiation Physics and Chemistry<\/td>Effectiveness of Al2<\/sub>O3<\/sub>:C OSL dosimeter towards entrance surface dose measurement in common X-ray diagnostics <\/td>0969-806X<\/td>165<\/td><\/td>108418<\/td>2019<\/td>1.984<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
27<\/td>Solar Energy<\/td>Brent’s algorithm based new computational approach for accurate determination of single-diode model parameters to simulate solar cells and modules<\/td>0038-092X<\/td>193<\/td><\/td>782-798<\/td>2019<\/td>4.674<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
28<\/td>Journal of Radioanalytical and Nuclear Chemistry<\/td>Activity concentrations of 226<\/sup>Ra, 228<\/sup>Ra, 222<\/sup>Rn and their health impact in the groundwater of Jordan <\/td>0236-5731<\/td>322<\/td>2<\/td>305-318<\/td>2019<\/td>1.186<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
29<\/td>Indian Journal of Physics<\/td>Analysis of the physical, structural and optical characteristics of Dy3+<\/sup>-doped MgO\u2013SrO\u2013B2<\/sub>O3<\/sub> glass systems (2019) Indian Journal of Physics<\/td>0973-1458<\/td>93<\/td>10<\/td>1265-1273<\/td>2019<\/td>1.242<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
30<\/td>Radiation Physics and Chemistry<\/td>Realization of dysprosium doped lithium magnesium borate glass based TLD subjected to 1\u2013100\u202fGy photon beam irradiations <\/td>0969-806X<\/td>163<\/td><\/td>1-10<\/td>2019<\/td>1.984<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
31<\/td>Journal of African Earth Sciences<\/td>Investigation of natural gamma radiation dose rate (GDR) levels and its relationship with soil type and underlying geological formations in Jordan <\/td>0899-5362<\/td>14<\/td>5<\/td>32-42<\/td>2019<\/td>1.532<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
32<\/td>PLoS One<\/td>Simple and efficient estimation of photovoltaic cells and modules parameters using approximation and correction technique<\/td>1932-6203<\/td>127<\/td><\/td>1-19<\/td>2019<\/td>2.766<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
33<\/td>Annals of Nuclear Energy<\/td>Atmospheric dispersion modeling and radiological safety assessment for expected operation of Baiji nuclear power plant potential site <\/td>0306-4549<\/td>55<\/td>2<\/td>156-164<\/td>2019<\/td>1.476<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
34<\/td>Radiation Effects and Defects in Solids<\/td>Assessment of health risk associated with natural gamma dose rate levels and isodose mapping of Jordan <\/td>1042-0150<\/td>27<\/td>1<\/td>1564148<\/td>2019<\/td>0.526<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
35<\/td>Isotopes in Environmental and Health Studies<\/td>Statistical relationship between activity concentrations of radionuclides 226<\/sup>Ra, 232<\/sup>Th, 40<\/sup>K, and 137<\/sup>Cs and geological formations in surface soil of Jordan <\/td>1025-6016<\/td>110<\/td><\/td>211-226<\/td>2019<\/td>1.527<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
36<\/td>Journal of X-Ray Science and Technology<\/td>The effectiveness of bismuth breast shielding with protocol optimization in CT Thorax examination <\/td>0895-3996<\/td>186 <\/td><\/td>139-147<\/td>2019<\/td>1.381<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
37<\/td>Progress in Nuclear Energy<\/td>Potential areas for nuclear power plants siting in Saudi Arabia: GIS-based multi-criteria decision making analysis <\/td>0149-1970<\/td>199<\/td><\/td>110-120<\/td>2019<\/td>1.308<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
38<\/td>Journal of Rare Earths<\/td>Physical, structural and optical studies on magnesium borate glasses doped with dysprosium ion <\/td>1002-0721<\/td>36 <\/td>12<\/td>1264-1271<\/td>2018<\/td>2.524<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
39<\/td>Results in Physics<\/a><\/td>Glow curve analysis of glassy system dosimeter subjected to photon and electron irradiations<\/td>2211-3797<\/td>10<\/td><\/td>772-776<\/td>2018<\/td>2.147<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
40<\/td>Radiation Physics and Chemistry<\/td>General radiographic attributes of optically stimulated luminescence dosimeters: A basic insight <\/td>0969-806X<\/td>147<\/td><\/td>1-6<\/td>2018<\/td>1.315<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
41<\/td>Applied Radiation and Isotopes<\/td>Optically stimulated Al2<\/sub>O3<\/sub>:C luminescence dosimeters for teletherapy: Hp(10) performance evaluation <\/td>0969-8043<\/td>135<\/td><\/td>7-11<\/td>2018<\/td>1.128<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
42<\/td>Radiation Physics and Chemistry<\/td>X-ray shielding behaviour of kaolin derived mullite-barites ceramic <\/td>0969-806X<\/td>144<\/td><\/td>63-68<\/td>2018<\/td>1.315<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
43<\/td>Journal of Radioanalytical and Nuclear Chemistry<\/td>Reproducibility assessment of commercial optically stimulated luminescence system in diagnostic X-ray beams<\/td>0236-5731<\/td>314<\/td><\/td>2029-2036<\/td>2017<\/td>1.282<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
44<\/td>Radiation Physics and Chemistry<\/td>Luminescence features of dysprosium and phosphorus oxide co-doped lithium magnesium borate glass <\/td>0969-806X<\/td>137<\/td><\/td>45-48<\/td>2017<\/td>1.315<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
45<\/td>Radiation Physics and Chemistry<\/td>Estimation of radiation cancer risk in CT-KUB<\/td>0969-806X<\/td>137<\/td><\/td>130-134<\/td>2017<\/td>1.315<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
46<\/td>Journal of Radiological Protection<\/td>Regulatory requirements for nuclear power plant site selection in Malaysia – A review <\/td>0952-4746<\/td>36<\/td><\/td>R96-R111<\/td>2016<\/td>1.657<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
47<\/td>Radiation Physics and Chemistry<\/td>Evaluation of organ doses and specific k<\/em> effective dose of 64-slice CT thorax examination using an adult anthropomorphic phantom<\/td>0969-806X<\/td>126<\/td><\/td>14-20<\/td>2016<\/td>1.207<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
48<\/td>Chinese Journal of Chemical Physics<\/td>Impact of Eu3+<\/sup> Ions on Physical and Optical Properties of Li2<\/sub>O-Na2<\/sub>O-B2<\/sub>O3 <\/sub>Glass<\/td>1674-0068<\/td>29<\/td>3<\/td>395-400<\/td>2016<\/td>0.496<\/td>Journal<\/td>ISI<\/td>Q4 <\/td><\/tr>
49<\/td>Journal of Luminescence<\/td>Effect of Dy2<\/sub>O3<\/sub> impurities on the physical, optical and thermoluminescence properties of lithium borate glass (2016) Journal of Luminescence 177 <\/td>0022-2313<\/td>177<\/td><\/td>366\u2013372<\/td>2016<\/td>2.693<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
50<\/td>Luminescence<\/td>Evaluating Organ Dose and Radiation Risk of Routine CT Examinations in Johor, Malaysia <\/td>1522-7235<\/td>31 <\/td>3<\/td>567\u2013573<\/td>2016<\/td>1.518<\/td>Journal<\/td>ISI<\/td>Q4 <\/td><\/tr>
51<\/td>Sains Malaysiana <\/td>Radiation doses from computed tomography practice in Johor Bahru, Malaysia <\/td>0126-6039<\/td>45<\/td>4<\/td>69-74<\/td>2016<\/td>0.35<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
52<\/td>Radiation Physics and Chemistry<\/td>EPR dosimeter material properties of potassium tartrate hemihydrate<\/td>0969-806X<\/td>121<\/td><\/td>8-12<\/td>2016<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
53<\/td>Radiation Measurements<\/td>PET Image Reconstruction Incorporating 3D Mean-Median Sinogram Filtering <\/td>0018-9499<\/td>87<\/td><\/td>157-169<\/td>2016<\/td>1.213<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
54<\/td>IEEE Transactions on Nuclear Science<\/td>Physical, structural and optical studies on magnesium borate glasses doped with dysprosium ion <\/td>1002-0721<\/td>63 <\/td>1<\/td>1264-1271<\/td>2016<\/td>1.283<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
55<\/td>Journal of Rare Earths<\/td>Glow curve analysis of glassy system dosimeter subjected to photon and electron irradiations<\/td>2211-3797<\/td>36 <\/td>12<\/td>772-776<\/td>2016<\/td>2.524<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
56<\/td>Luminescence<\/td>Thermoluminescence properties of lithium magnesium borate glasses system doped with dysprosium oxide <\/td>1522-7235<\/td>30 <\/td>8<\/td>1330-1335<\/td>2015<\/td>1.518<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
57<\/td>Radiation Physics and       <\/td>Hybrid registration <\/td>0969-806X<\/td>116<\/td><\/td>300-304<\/td><\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
58<\/td>Chemistry<\/td>    of PET\/CT in thoracic region with pre-filtering PET sinogram<\/td>0969-806X<\/td>116<\/td><\/td>138-141<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
59<\/td>Radiation Physics and Chemistry<\/td>Luminescence characteristics of Li2<\/sub>O-MgO-B2<\/sub>O3<\/sub> doped with Dy3+<\/sup> as a solid TL detector<\/td>0969-806X<\/td>116<\/td><\/td>130-134<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
60<\/td>Radiation Physics and Chemistry<\/td>Characterization of amorphous thermoluminescence dosimeters for patient dose measurement in X-ray diagnostic procedures<\/td>0969-806X<\/td>115<\/td><\/td>81-87<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
61<\/td>Radiation and Isotopes<\/td>Impact of patient weight on tumor visibility based on human-shaped phantom simulation study in PET imaging system<\/td>0969-8043<\/td>102<\/td><\/td>10-14<\/td>2015<\/td>1.231<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
62<\/td>Journal of Radioanalytical and Nuclear Chemistry<\/td>Thermoluminescence response of dysprosium doped strontium tetraborate glasses subjected to electron irradiations<\/td>02365731<\/td>112<\/td><\/td>29-33<\/td>2015<\/td>1.034<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
63<\/td>Optoelectronics And Advanced Materials<\/td>Influences of dysprosium and phosphorous oxides co-doping on thermoluminescence features and kinetic parameters of lithium magnesium borate glass<\/td>1842-6573<\/td>9<\/td><\/td>7-8<\/td>2015<\/td>0.394<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
64<\/td>Radiation Physics and Chemistry<\/td>Thermoluminescence energy response of germanium doped calcium borate glasses using theoretical calculation<\/td>0969-806X<\/td>112<\/td><\/td>29-33<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
65<\/td>Sensors and Actuators, A: Physical<\/td>Dosimetric properties of dysprosium doped lithium borate glass irradiated by 6 MV photons<\/td>0924-4247<\/td>222<\/td><\/td>48-57<\/td>2015<\/td>1.903<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
66<\/td>Radiation Physics and Chemistry<\/td>Optical fiber based dosimeter sensor: Beyond TLD-100 limits <\/td>0969-806X<\/td>106<\/td><\/td>73-76<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
67<\/td>Radiation Physics and Chemistry<\/td>Potential application of pure silica optical flat fibers for radiation therapy dosimetry <\/td>0969-806X<\/td>106<\/td><\/td>46-49<\/td>2015<\/td>1.380<\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
68<\/td>Optical Materials <\/td>Impact of Nd3+<\/sup> ions on physical and optical properties of Lithium Magnesium Borate glass <\/td>0925-3467<\/td>37<\/td><\/td>391\u2013397<\/td>2014<\/td>2.075<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
69<\/td>Optics and Spectroscopy<\/td>Physical and optical properties of Li2<\/sub>O-MgO-B2<\/sub>O3<\/sub> doped with Dy3+<\/sup> (2014) Optics and Spectroscopy<\/td>0030-400X<\/td>117<\/td>4<\/td>552-559<\/td>2014<\/td>0.559<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
70<\/td>International Journal of Modern Physics B<\/td>Structural and optical properties of lithium sodium borate glasses doped with Sm3+<\/sup> ions <\/td>0217-9792<\/td>28<\/td>26<\/td>1450182<\/td>2014<\/td>0.455<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
71<\/td>Journal of Molecular Structure<\/a><\/td>Physical and optical properties of Dy3+<\/sup>: Li2<\/sub>O-K2<\/sub>O-B2<\/sub>O3 <\/sub>glasses. Journal of Molecular Structure<\/a><\/td>0022-2860<\/td>1076<\/td><\/td>20-25<\/td>2014<\/td>1.404<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
72<\/td>Optics and Spectroscopy<\/td>The effect of europium oxide impurity on the optical and physical properties of lithium potassium borate glass<\/td>0030-400X<\/td>117<\/td><\/td>56\u201360<\/td>2014<\/td>0.559<\/td>Journal<\/td>ISI<\/td>Q4 <\/td><\/tr>
73<\/td>Applied Radiation and Isotopes<\/td>Photon irradiation response of photonic crystal fibres and flat fibres at radiation therapy doses<\/td>0969-8043<\/td>90<\/td><\/td>258-260<\/td>2014<\/td>1.056 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
74<\/td>Physica B<\/td>Physical and optical properties of dysprosium ion doped strontium borate glasses<\/td>0921-4526<\/td>451<\/td><\/td>63-67<\/td>2014<\/td>1.276 <\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
75<\/td>Journal of Luminescence <\/td>Copper doped borate dosimeters revisited<\/td>0022-2313<\/td>155<\/td><\/td>141-148<\/td>2014<\/td>2.367 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
76<\/td>Journal of Molecular Structure<\/td>Optical and Structural Properties of Lithium Sodium Borate Glasses Doped Dy3+<\/sup> ions<\/td>0022-2860<\/td>1075<\/td><\/td>113-117<\/td>2014<\/td>1.599<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
77<\/td>Applied Radiation and Isotopes<\/td>Thermoluminescence dosimetry properties and kinetic parameters of lithium potassium borate glass co-doped with titanium and magnesium oxides <\/td>0969-8043<\/td>91<\/td><\/td>126\u2013130<\/td>2014<\/td>1.179 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
78<\/td>Radiation Physics and Chemistry<\/td>Dopant concentration and thermoluminescence (TL) properties of tailor-made Ge-doped SiO2<\/sub> fibres<\/td>0969-806X<\/td>104<\/td><\/td>297-301<\/td>2014<\/td>1.189<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
79<\/td>Radiation Physics and Chemistry <\/td>Dosimetric characteristics of LKB:Cu,P solid TL detector<\/td>0969-806X<\/td>104<\/td><\/td>36-39<\/td>2014<\/td>1.189<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
80<\/td>Optics and Spectroscopy<\/td>The optical properties of trivalent rare earth ions (Er3+<\/sup>) doped borotellurite glass<\/td>0030-400X<\/td>116<\/td>3<\/td>413\u2013417<\/td>2014<\/td>0.559<\/td>Journal<\/td>ISI<\/td>Q4 <\/td><\/tr>
81<\/td>Journal of Molecular Structure<\/td>Physical and optical properties of Li2<\/sub>O\u2013MgO\u2013B2<\/sub>O3<\/sub> doped with Sm3+<\/sup><\/td>0022-2860<\/td>1060<\/td><\/td>6-10<\/td>2014<\/td>1.404<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
82<\/td>Applied Radiation and Isotopes<\/td>Luminescence characteristics of Li2<\/sub>CO3<\/sub>-K2<\/sub>CO3<\/sub>-H3<\/sub>BO3<\/sub> glass system co-doped with TiO2<\/sub> and MgO<\/td>0969-8043<\/td>82<\/td><\/td>12-19<\/td>2013<\/td>1.179<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
83<\/td>Journal of Physics and Chemistry of Solids<\/td>The effect of TiO2<\/sub> and MgO on the Thermoluminescence Properties of a Lithium Potassium Borate Glass System<\/td>0022-3697<\/td>74<\/td><\/td>1816-1822<\/td>2013<\/td>1.527 <\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
84<\/td>Applied Radiation and Isotopes<\/td>Thermoluminescence responses of photon- and electron-irradiatedlithium potassium borate co-doped with Cu+Mg or Ti+Mg<\/td>0969-8043<\/td>78<\/td><\/td>21-25<\/td>2013<\/td>1.179 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
85<\/td>Radiation Protection Dosimetry<\/td>Thermoluminescence properties of Li2<\/sub>CO3<\/sub>-K2<\/sub>CO3<\/sub>-H3<\/sub>BO3<\/sub> glass system co-doped with CuO and MgO<\/td>0144-8420<\/td>155 <\/td>1<\/td>1-10<\/td>2013<\/td>0.909 <\/td>Journal<\/td>ISI<\/td>Q2 <\/td><\/tr>
86<\/td>Radiation Protection Dosimetry<\/td>Terrestrial gamma radiation and its statistical relation with geological formation in the Mersing district, Johor, Malaysia<\/td>0144-8420<\/td>156 <\/td>2<\/td>246-252<\/td>2013<\/td>0.909 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
87<\/td>Journal of Luminescence<\/td>Thermoluminescence characteristics of Li2<\/sub>CO3<\/sub>-K2<\/sub>CO3<\/sub>-H3<\/sub>BO3<\/sub> glass system co-doped with CuO and MgO<\/td>0022-2313<\/td>143<\/td><\/td>1-4<\/td>2013<\/td>2.144 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
88<\/td>Optics and Spectroscopy <\/td>Physical, Structural, and Luminescence Studiesof Nd3+<\/sup> Doped MgO\u2013ZnO Borate Glass<\/td>0030-400X<\/td>115 <\/td>5<\/td>701\u2013707<\/td>2013<\/td>0.559 <\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
89<\/td>Optics and Spectroscopy <\/td>The Effect of MgO on the Optical Properties of Lithium Sodium Borate Doped with Cu+ Ions<\/td>0030-400X<\/td>114 <\/td>4<\/td>537\u2013543<\/td>2013<\/td>0.559 <\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
90<\/td>IEEE Transactions on Nuclear Science<\/td>Effective Atomic Number of Ge-doped and Al-doped Optical Fibres for Radiation Dosimetry Purposes<\/td>0018-9499<\/td>60 <\/td>2<\/td>555-559<\/td>2013<\/td>1.219 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
91<\/td>IEEE Transactions on Nuclear Science<\/td>Analysis of Photons Scattering Trend to Classify Material using Artificial Neural Network<\/td>0018-9499<\/td>60 <\/td>2<\/td>515-519<\/td>2013<\/td>1.219 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
92<\/td>Chinese Physics Letters <\/td>Dosimetric characteristics of a LKB:Cu,Mg solid thermoluminescence detector<\/a><\/td>0256-307X<\/td>30<\/td>1<\/td>1-4<\/td>2013<\/td>0.811<\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
93<\/td>Journal of Molecular Structure <\/td>The Effect of Titanium Oxide on The Optical Properties of Lithium Potassium Borate glass<\/td>0022-286<\/td>1026<\/td><\/td>159\u2013167<\/td>2012<\/td>1.634 <\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
94<\/td>International Journal of Modern Physics B<\/td>The Effect of Phosphorus and Copper Oxide on the Photoluminescence Characteristics of Li2<\/sub>CO3<\/sub>– K2<\/sub>CO3<\/sub>-H3<\/sub>BO3<\/sub> Glass.<\/td>0217-9792<\/td>26 <\/td>20<\/td>1250116<\/td>2012<\/td>0.324 <\/td>Journal<\/td>ISI<\/td>Q4 <\/td><\/tr>
95<\/td>International Journal of Physical Sciences<\/td>Absorbed Dose Estimation by Monte Carlo Simulation Conversion Factor of Physical Dosimeters<\/td>1992-1950<\/td>7 <\/td>12<\/td>1910\u20131917<\/td>2012<\/td>0.54<\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
96<\/td>Physica B <\/td>The effect of CuO and MgO impurities on the optical properties of lithium potassium borate glass<\/td>0921-4526<\/td>407<\/td><\/td>2390\u20132397<\/td>2012<\/td>1.063 <\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
97<\/td>Physica B<\/td>Optical properties of lithium magnesium borate glasses doped with Dy3+<\/sup> and Sm3+<\/sup> ions<\/td>0921-4526<\/td>407<\/td><\/td>2398\u20132403<\/td>2012<\/td>1.063 <\/td>Journal<\/td>ISI<\/td>Q3<\/td><\/tr>
98<\/td>Nuclear Instruments and Methods in Physics Research Section A<\/td>Photon signature analysis using template matching<\/td>0168-9002<\/td>652<\/td><\/td>466-469<\/td>2011<\/td>1.142 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
99<\/td>Journal of NUCLEAR SCIENCE and TECHNOLOGY<\/td>Thermoluminescence Response of Ge- and Al-Doped Optical Fibers Subjected to Low-Dose Electron Irradiation<\/td>0022-3131<\/td>48 <\/td>7<\/td>1115\u20131117<\/td>2011<\/td>0.4<\/td>Journal<\/td>ISI<\/td>Q4<\/td><\/tr>
100<\/td>Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment<\/td>Electron irradiation response on Ge and Al-doped SiO2<\/sub> optical fibres<\/td>0168-9002<\/td>637 <\/td>1<\/td>185-189<\/td>2011<\/td>1.142 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
101<\/td>Nuclear Instruments and Methods<\/td>Thermoluminescence Response of Oxygen-Doped Optical Fibres Subjected to Photon and Electron Irradiations<\/td>0168-9002<\/td>619 <\/td>1-3<\/td>291-294<\/td>2010<\/td>1.317 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
102<\/td>Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment<\/td>Photon-induced positron annihilation for Stand-off bomb detection<\/a><\/td>0168-9002<\/td>619 <\/td>1-3<\/td>415\u2013418<\/td>2010<\/td>1.317 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
103<\/td>Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment<\/td>Performance of Wire Mesh Collimator SPECT Camera for Different Breast Volumes in Prone Position<\/td>0168-9002<\/td>619 <\/td>1-3<\/td>385-387<\/td>2010<\/td>1.317 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
104<\/td>Journal of Applied Radiation and Isotopes <\/td>Thermoluminescence Response of Doped SiO2<\/sub> Optical Fibres Subjected to  Fast Neutrons<\/td>0969-8043<\/td>68, <\/td>4-5<\/td>700-703<\/td>2010<\/td>1.094 <\/td>Journal<\/td>ISI<\/td>Q2<\/td><\/tr>
105<\/td>Journal of Applied Radiation and Isotopes <\/td>The thermoluminescence response of doped SiO2<\/sub> optical fibres subjected to photon and electron irradiations<\/td>0969-8043<\/td>67<\/td><\/td>423-427<\/td>2009<\/td>1.114 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
106<\/td>Journal of Applied Radiation and Isotopes <\/td>The thermoluminescence response of doped SiO2<\/sub> optical fibres subjected to alpha particle irradiation<\/td>0969-8043<\/td>67<\/td><\/td>428-432<\/td>2009<\/td>1.114 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
107<\/td>IEEE Transactions on Nuclear Science<\/td>Monte Carlo Simulation on Breast Cancer Detection Using Wire Mesh Collimator Gamma Camera<\/td>0018-9499<\/td>56<\/td>3<\/td>1321-1324<\/td>2009<\/td>1.518 <\/td>Journal<\/td>ISI<\/td>Q1<\/td><\/tr>
108<\/td>AIP Conference Proceedings<\/td>Entrance surface dose of eyes and thyroid using nanoDot optically stimulated luminescence in 64-slices computed tomography scanner <\/td><\/td>2155<\/td><\/td>020011<\/td>2019<\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
109<\/td>AIP Conference Proceedings<\/td>Light induced fading in optically stimulated luminescence dots for medical dosimetry measurement <\/td><\/td>2155<\/td><\/td>020012<\/td>2019<\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
110<\/td>Journal of Physics: Conference Series<\/td>Direct and indirect entrance surface dose measurement in X-ray diagnostics using nanoDot OSL dosimeters <\/td><\/td>1248 <\/td>1<\/td>012014<\/td>2019<\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
111<\/td>Journal of Physics: Conference Series<\/td>Occupational radiation dose during fluoroscopy guided interventional procedures at Institut Kanser Negara <\/td><\/td>1248 <\/td>1<\/td>012052<\/td>2019<\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
112<\/td>Atom Indonesia<\/td>Investigation on neutron flux effect onto irradiated fuel burn-up stored in the reactor TRIGA PUSPATI<\/td><\/td>45 <\/td>1<\/td>59-65<\/td>2019<\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
113<\/td>Electricity Journal<\/td>Adding sustainable sources to the Saudi Arabian electricity sector <\/td>10406190<\/td>31<\/td>4<\/td>20-28<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
114<\/td>MethodsX<\/td>Development of underwater radiography scanner for reactor-pool experiment at the TRIGA PUSPATI reactor <\/td>2150161<\/td>5<\/td><\/td>1346-1363<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
115<\/td>Journal of Physics: Conference Series<\/td>Response of optically stimulated luminescence dosimeters subjected to X-rays in diagnostic energy range <\/td>17426588<\/td>851 <\/td>1<\/td>012001<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
116<\/td>Journal of Physics: Conference Series<\/td>Adaptive iterative dose reduction (AIDR) 3D in low dose CT abdomen-pelvis: Effects on image quality and radiation exposure <\/td>17426588<\/td>851 <\/td>1<\/td>012006<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
117<\/td>Journal of Physics: Conference Series<\/td>128 slice computed tomography dose profile measurement using thermoluminescent dosimeter <\/td>17426588<\/td>851 <\/td>1<\/td>012002<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
118<\/td>Journal of Physics: Conference Series<\/td>Establishment of multi-slice computed tomography (MSCT) reference level in Johor, Malaysia <\/td>17426588<\/td>694 <\/td>1<\/td>012033<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
119<\/td>Journal of Physics: Conference Series<\/td>Assessment of knowledge and awareness among radiology personnel regarding current computed tomography technology and radiation dose <\/td>17426588<\/td>694 <\/td>1<\/td>012031<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
120<\/td>Journal of Physics: Conference Series<\/td>Radiation dose to physicians’ eye lens during interventional radiology <\/td>17426588<\/td>694 <\/td>1<\/td>012035<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
121<\/td>Malaysian Journal of Analytical Sciences<\/td>Effect of temperature on the epr response of gamma irradiated potassium tartrate hemihydrate <\/td>13942506<\/td>19 <\/td>3<\/td>513-519<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
122<\/td>Proceedings – 8th EUROSIM Congress on Modelling and Simulation, EUROSIM 2013<\/td>Validation of a clinical PET scanner using monte carlo simulation code: MCNP5<\/td>978-076955073-2 <\/td><\/td>36-41<\/td>36-41<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
123<\/td>Jurnal Teknologi<\/td>The thermoluminescence performance of Ge- doped optical fibres To 6 MV photon irradiations <\/td>01279696<\/td>71 <\/td>5<\/td>43-45<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
124<\/td>Journal of Physics: Conference Series<\/td>Thermoluminescent response of single mode optical fibre to x-ray irradiation<\/td>17426588<\/td>546 <\/td>1<\/td>012018<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
125<\/td>Journal of Physics: Conference Series<\/td>Assessment of Ge-doped optical fibres subjected to x-ray irradiation<\/td>17426588<\/td>546 <\/td>1<\/td>012017<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
126<\/td>Journal of Physics: Conference Series<\/td>Dosimetric characteristics of fabricated silica fibre for postal radiotherapy dose audits<\/td>17426588<\/td>546 <\/td>1<\/td>012010<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
127<\/td>Advanced Materials Research<\/td>Mass Attenuation Coefficients and Effective Atomic Numbers of Strontium Borate Glass System in the Energy Range 0.01- 1.25 MeV<\/td>1022-6680<\/td>895<\/td><\/td>315-318<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
128<\/td>Advanced Materials Research<\/td>Optical Properties of Undoped and Dy3+<\/sup>-Doped Boro-Tellurite Glass<\/td>1022-6680<\/td>895<\/td><\/td>194-199<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
129<\/td>Pacific Rim Conference on Lasers and Electro-Optics, CLEO – Technical Digest <\/td>The thermoluminescence response of undoped silica PCF for dosimetry application<\/td>978-146736475-1<\/td><\/td><\/td>6600334<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
130<\/td>IEEE ICSIPA 2013 – IEEE International Conference on Signal and Image Processing Applications<\/td>Modelling of light photons detection in scintillation camera <\/td>9781479902675<\/td>6707970<\/td><\/td>15-19<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
131<\/td>IEEE ICSIPA 2013 – IEEE International Conference on Signal and Image Processing Applications<\/td>Simulation of intrinsic resolution of scintillation camera in Monte Carlo environment <\/td>978-147990267-5<\/td>6707969<\/td><\/td>11-14<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
132<\/td>IEEE-EMBS Conference on Biomedical Engineering and Sciences, IECBES<\/td>Preliminary results from attenuation correction for MCNP-generated PET image<\/td>978-146731666-8<\/td>6498037<\/td><\/td>907-910<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
133<\/td>Progress in Nuclear Science and Technology<\/td>Ion beam, SEM and EDXRS analysis on Doped SiO2<\/sub> optical fibres<\/td>2185-4823<\/td>3<\/td><\/td>116-119<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
134<\/td>Engineering Letters<\/a><\/td>Iterative parameter estimation for Metz Filter, Based on the image quality of Breast Cancer imaging<\/td>1816093X<\/td>20 <\/td>2<\/td>2-9<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
135<\/td>International Conference on Research and Innovation in Information Systems, ICRIIS’11<\/td>Recommended factors for triage categories using Simulation Modelling<\/td>978-161284295-0<\/td><\/td><\/td>6125700<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
136<\/td>AIP Conference Proceedings<\/a><\/td>Characteristics of multihole collimator gamma camera simulation modeled using MCNP5<\/td>0094243X<\/td>1017<\/td><\/td>205-209<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr>
137<\/td>AIP Conference Proceedings<\/a><\/td>The development of doped radiosensitive glass<\/td>0094243X<\/td>909<\/td><\/td>9-18<\/td><\/td><\/td>Journal<\/td>Scopus<\/td><\/td><\/tr><\/tbody><\/table><\/figure>\n","protected":false},"excerpt":{"rendered":"

NO ARTICLE TITLE JOURNAL TITLE ISSN Vol. Issues Page Publication year IF Type  Category  Quartile  1 Applied Sciences (Switzerland) The radioactivity of thorium incandescent gas lantern mantles 20763417 11 3 1-11 2021 2.474 Journal ISI Q2 2 Ecotoxicology and Environmental Safety Radiological hazard associated with amang processing industry in Peninsular Malaysia and its environmental impacts […]<\/p>\n","protected":false},"author":22511,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_uag_custom_page_level_css":"","site-sidebar-layout":"default","site-content-layout":"default","ast-site-content-layout":"default","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","theme-transparent-header-meta":"default","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"default","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"footnotes":""},"class_list":["post-280","page","type-page","status-publish","hentry"],"uagb_featured_image_src":{"full":false,"thumbnail":false,"medium":false,"medium_large":false,"large":false,"1536x1536":false,"2048x2048":false},"uagb_author_info":{"display_name":"suhairul","author_link":"https:\/\/people.utm.my\/suhairul\/author\/suhairul\/"},"uagb_comment_info":0,"uagb_excerpt":"NO ARTICLE TITLE JOURNAL TITLE ISSN Vol. Issues Page Publication year IF Type  Category  Quartile  1 Applied Sciences (Switzerland) The radioactivity of thorium incandescent gas lantern mantles 20763417 11 3 1-11 2021 2.474 Journal ISI Q2 2 Ecotoxicology and Environmental Safety Radiological hazard associated with amang processing industry in Peninsular Malaysia and its environmental impacts…","_links":{"self":[{"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/pages\/280","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/users\/22511"}],"replies":[{"embeddable":true,"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/comments?post=280"}],"version-history":[{"count":6,"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/pages\/280\/revisions"}],"predecessor-version":[{"id":24669,"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/pages\/280\/revisions\/24669"}],"wp:attachment":[{"href":"https:\/\/people.utm.my\/suhairul\/wp-json\/wp\/v2\/media?parent=280"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}