9 research outputs found
Investigation of dielectric constant variations for Malaysians soil species towards its natural background dose
The correlation of natural background gamma radiation and real part of the complex
relative permittivity (dielectric constant) for various species Malaysian soils was investigated
in this research. The sampling sites were chosen randomly according to soils groups that
consist of sedentary, alluvial and miscellaneous soil which covered the area of Batu Pahat,
Kluang and Johor Bahru, Johor state of Malaysia. There are 11 types of Malaysian soil species
that have been studied; namely Peat, Linau-Sedu, Selangor-Kangkong, Kranji, Telemong-
Akob-Local Alluvium, Holyrood-Lunas, Batu Anam-Melaka- Tavy, Harimau Tampoi, Kulai-
Yong Peng, Rengam-Jerangau, and Steepland soils. In-situ exposure rates of each soil species
were measured by using portable gamma survey meter and ex-situ analysis of real part of
relative permittivity was performed by using DAK (Dielectric Assessment Kit assist by
network analyser). Results revealed that the highest and the lowest background dose rate were
94 ±26.28 μR hr-1 and 7 ±0.67 μR hr-1 contributed by Rengam Jerangau and Peat soil species
respectively. Meanwhile, dielectric constant measurement, it was performed in the range of
frequency between 100 MHz to 3 GHz. The measurements of each soils species dielectric
constant are in the range of 1 to 3. At the lower frequencies in the range of 100 MHz to 600
MHz, it was observed that the dielectric constant for each soil species fluctuated and
inconsistent. But it remained consistent in plateau form of signal at higher frequency at range
above 600 MHz. From the comparison of dielectric properties of each soil at above 600 MHz
of frequency, it was found that Rengam-Jerangau soil species give the highest reading and
followed by Selangor-Kangkong species. The average dielectric measurement for both
Selangor-Kangkong and Rengam-Jerangau soil species are 2.34 and 2.35 respectively.
Meanwhile, peat soil species exhibits the lowest dielectric measurement of 1.83. It can be clearly seen that the pattern of dielectric measurement for every soil at the frequency above
600 MHz demonstrated a specific distribution which can be classified into two main regions
which are higher and lower between the ranges of 1.83 to 2.35. Pearson correlation analysis
between the frequency of 100 MHz and 2.6 GHz with respect to exposure rate for every soil
species was r = 0.38 and r = 0.51, respectively. This indicates that there was no strong
correlation between both parameter, natural background dose and soils dielectric for each soils
sample. This factor could be contributed by major and minor elements contained in each soils
sample species, especially Ferum, Fe and Silica, Si
Leaky-wave wires antenna for future D- band 6G communication systems
Future communication generation such as 6G and
beyond will be utilizing the terahertz band, as this range
promises potential benefits such as a high data rate. However,
designing different electronic components for 6G is complicated
and has low fabrication precision due to its small wavelength.
Additionally, the cost is also very high as compared to 5G
components. These antennas feature high data rates, small size,
and high bandwidth and are a critical component for the
communication system. Therefore, in this study, an antenna
design is proposed for the future sub-THz communication
system that operates at D- band which is proposed for the 6G
communication system. The simulation analysis shows that the
proposed antenna has a high gain of 9.9 dBi at 120 GHz
operating frequency and good performance characteristics for
the complete D-band. The design of the proposed antenna is
simple, low-cost, and does not require any complex fabrication,
and can be the potential leaky-wave antenna for future 6G if
properly excite
Retroperitoneal liposarcomas: The experience of a tertiary Asian center
10.1186/1477-7819-9-12World Journal of Surgical Oncology9
Bridging the Terahertz Gap: Channel Modeling for Next-Generation 6G Wireless Networks
: The THz spectrum (0.1–10 THz) is a region between optics and electronics, and it is still not fully explored and is unlicensed. Recent studies show that it will bring a revolution in technology, especially in the field of communication. Future communication technologies such as 6G and Terabit DSL will utilize this THz band as it has the capability to support high data rates in Tbps. For designing an efficient system that propagates these THz waves with low loss, it is required to understand the propagation channel properly. THz channel modeling is at its infancy stage, and a detailed investigation of channel behavior is required to study the efficient propagation of THz waves. In this study, the methods applied to the modeling of the THz channel are discussed in detail. Although channel modeling is a broad topic here only the methods and techniques are discussed along with their advantages and limitations. Lastly, the challenges and
the future direction in the field of THz channel modeling are also discussed
Investigation of dielectric constant variations for Malaysians soil species towards its natural background dose
The correlation of natural background gamma radiation and real part of the complex relative permittivity (dielectric constant) for various species Malaysian soils was investigated in this research. The sampling sites were chosen randomly according to soils groups that consist of sedentary, alluvial and miscellaneous soil which covered the area of Batu Pahat, Kluang and Johor Bahru, Johor state of Malaysia. There are 11 types of Malaysian soil species that have been studied; namely Peat, Linau-Sedu, Selangor-Kangkong, Kranji, Telemong-Akob-Local Alluvium, Holyrood-Lunas, Batu Anam-Melaka-Tavy, Harimau Tampoi, Kulai-Yong Peng, Rengam-Jerangau, and Steepland soils. In-situ exposure rates of each soil species were measured by using portable gamma survey meter and ex-situ analysis of real part of relative permittivity was performed by using DAK (Dielectric Assessment Kit assist by network analyser). Results revealed that the highest and the lowest background dose rate were 94 26.28 μR hr-1 and 7 0.67 μR hr-1 contributed by Rengam Jerangau and Peat soil species respectively. Meanwhile, dielectric constant measurement, it was performed in the range of frequency between 100 MHz to 3 GHz. The measurements of each soils species dielectric constant are in the range of 1 to 3. At the lower frequencies in the range of 100 MHz to 600 MHz, it was observed that the dielectric constant for each soil species fluctuated and inconsistent. But it remained consistent in plateau form of signal at higher frequency at range above 600 MHz. From the comparison of dielectric properties of each soil at above 600 MHz of frequency, it was found that Rengam-Jerangau soil species give the highest reading and followed by Selangor-Kangkong species. The average dielectric measurement for both Selangor-Kangkong and Rengam-Jerangau soil species are 2.34 and 2.35 respectively. Meanwhile, peat soil species exhibits the lowest dielectric measurement of 1.83. It can be clearly seen that the pattern of dielectric measurement for every soil at the frequency above 600 MHz demonstrated a specific distribution which can be classified into two main regions which are higher and lower between the ranges of 1.83 to 2.35. Pearson correlation analysis between the frequency of 100 MHz and 2.6 GHz with respect to exposure rate for every soil species was r = 0.38 and r = 0.51, respectively. This indicates that there was no strong correlation between both parameter, natural background dose and soils dielectric for each soils sample. This factor could be contributed by major and minor elements contained in each soils sample species, especially Ferum, Fe and Silica, Si
Investigation of dielectric constant variations for Malaysians soil species towards its natural background dose
The effect of photodynamic therapy on tumor angiogenesis
10.1007/s00018-009-0016-4Cellular and Molecular Life Sciences66142275-2283CMLS
Mammographic Breast Density and Common Genetic Variants in Breast Cancer Risk Prediction
Large-Scale Whole-Genome Sequencing of Three Diverse Asian Populations in Singapore
Because of Singapore's unique history of immigration, whole-genome sequence analysis of 4,810 Singaporeans provides a snapshot of the genetic diversity across East, Southeast, and South Asia.</p