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1. Ohm's Law, the Reconnection Rate, and Energy Conversion in Collisionless Magnetic Reconnection

Author

Liu, Yi-Hsin, Hesse, Michael, Genestreti, Kevin, Nakamura, Rumi, Burch, Jim, Cassak, Paul, Bessho, Naoki, Eastwood, Jonathan, Phan, Tai, Swisdak, Marc, Toledo-Redondo, Sergio, Hoshino, Masahiro, Norgren, Cecilia, Ji, Hantao, and Nakamura, TKM

Subjects
Physics - Plasma Physics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics
Abstract

Magnetic reconnection is a ubiquitous plasma process that transforms magnetic energy into particle energy during eruptive events throughout the universe. Reconnection not only converts energy during solar flares and geomagnetic substorms that drive space weather near Earth, but it may also play critical roles in the high energy emissions from the magnetospheres of neutron stars and black holes. In this review article, we focus on collisionless plasmas that are most relevant to reconnection in many space and astrophysical plasmas. Guided by first-principles kinetic simulations and spaceborne in-situ observations, we highlight the most recent progress in understanding this fundamental plasma process. We start by discussing the non-ideal electric field in the generalized Ohm's law that breaks the frozen-in flux condition in ideal magnetohydrodynamics and allows magnetic reconnection to occur. We point out that this same reconnection electric field also plays an important role in sustaining the current and pressure in the current sheet and then discuss the determination of its magnitude (i.e., the reconnection rate), based on force balance and energy conservation. This approach to determining the reconnection rate is applied to kinetic current sheets of a wide variety of magnetic geometries, parameters, and background conditions. We also briefly review the key diagnostics and modeling of energy conversion around the reconnection diffusion region, seeking insights from recently developed theories. Finally, future prospects and open questions are discussed., Comment: Submitted to Space Science Reviews. This is a review paper as an outcome of the 2022 Magnetic Reconnection Workshop in the International Space Science Institute

Published
2024

2. Out-of-plane Parallel Current in the Diffusion Regions: The Interaction Between Diffusion Region Systems and their Impact on the Outer EDR

Author

Beedle, Jason M. H., Gershman, Daniel J., Uritsky, Vadim M., Shuster, Jason R., Phan, Tai D., Giles, Barbara L., Genestreti, Kevin J., and Torbert, Roy B.

Subjects
Physics - Space Physics
Abstract

Dayside magnetic reconnection allows for the transfer of the solar wind's energy into Earth's magnetosphere. This process takes place in electron diffusion regions (EDRs) embedded in ion diffusion regions (IDRs), which form in the magnetopause boundary's current sheet. A significant out-of-plane parallel current contribution in the diffusion regions was reported in Beedle et al. 2023. In order to understand the underlying structure of this parallel current, we compared EDR statistical results with a 2.5D Particle-In Cell (PIC) simulation. From this comparison, we identified out-of-plane parallel current signatures as defining features of the outer EDR and IDR. This significant out-of-plane parallel current indicates the interaction of the IDR and EDR systems, and provides implications for not only understanding energy dissipation in the diffusion regions, but also determining the location of the outer EDR.

Published
2024

3. MESSENGER observations of Mercury's planetary ion escape rates and their dependence on true anomaly angle

Author

Sun, Weijie, Dewey, Ryan M., Jia, Xianzhe, Raines, Jim M., Slavin, James A., Chen, Yuxi, Phan, Tai, Poh, Gangkai, Xu, Shaosui, Milillo, Anna, Lillis, Robert, Saito, Yoshifumi, Livi, Stefano, and Orsini, Stefano

Subjects
Physics - Space Physics, Astrophysics - Earth and Planetary Astrophysics, Physics - Plasma Physics
Abstract

This study investigates the escape of Mercury's sodium-group ions (Na+-group, including ions with m/q from 21 to 30 amu/e) and their dependence on true anomaly angle (TAA), i.e., Mercury's orbital phase around the Sun, using measurements from MESSENGER. The measurements are categorized into solar wind, magnetosheath, and magnetosphere, and further divided into four TAA intervals. Na+-group ions form escape plumes in the solar wind and magnetosheath, with higher fluxes along the solar wind's motional electric field. The total escape rates vary from 0.2 to 1 times 10^{25} atoms/s with the magnetosheath being the main escaping region. These rates exhibit a TAA dependence, peaking near the perihelion and similar during Mercury's remaining orbit. Despite Mercury's tenuous exosphere, Na+-group ions escape rate is comparable to other inner planets. This can be attributed to several processes, including that Na+-group ions may include several ion species, efficient photoionization frequency for elements within Na+-group, etc., Comment: 21 pages, 4 figures

Published
2024
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4. Solar wind current sheets: MVA inaccuracy and recommended single-spacecraft methodology

Author

Wang, Rachel, Vasko, Ivan Y., Phan, Tai, and Mozer, Forrest

Subjects
Physics - Space Physics, Physics - Plasma Physics, J.2
Abstract

We present the analysis of 2,033 current sheets (CS) observed aboard four Cluster spacecraft in a pristine solar wind. Four-spacecraft estimates of the CS normal and propagation velocity are compared with different single-spacecraft estimates. The Minimum Variance Analysis (MVA) of the magnetic field is shown to be highly inaccurate in estimating the normal. The MVA normal often differs by more than 60 degrees from the normal obtained by multi-spacecraft timing method, likely due to ambient turbulent fluctuations. In contrast, the cross-product of magnetic fields at the CS boundaries delivers the normal with the uncertainty of less than 15 degrees at the confidence level of 90%. The CSs are essentially frozen into plasma flow, since their propagation velocity is consistent with local ion flow velocity within 20% at the confidence level of 90%. The single-spacecraft methodology based on the cross-product method and frozen-in assumption delivers the CS thickness and current density amplitude within 20% of their actual values at the confidence level of 90%. The CSs are kinetic-scale structures with half-thickness $\lambda$ from a few tenths to tens of local proton inertial length $\lambda_{p}$ and scale-dependent shear angle and current density amplitude, $\Delta \theta \propto (\lambda/\lambda_p)^{0.5}$ and $J_0\propto (\lambda/\lambda_{p})^{-0.5}$. The classification of the CSs in terms of tangential and rotational discontinuities remains a challenge, because even the four-spacecraft normal has too large uncertainties to reveal the actual normal magnetic field component. The presented results will be valuable for the analysis of solar wind CSs, when only single-spacecraft measurements are available., Comment: 10 pages, 9 figures, 1 table

Published
2023

5. Differentiating EDRs from the Background Magnetopause Current Sheet: A Statistical Study

Author

Beedle, Jason M. H., Gershman, Daniel J., Uritsky, Vadim M., Phan, Tai D., and Giles, Barbara L.

Subjects
Physics - Space Physics
Abstract

The solar wind is a continuous outflow of charged particles from the Sun's atmosphere into the solar system. At Earth, the solar wind's outward pressure is balanced by the Earth's magnetic field in a boundary layer known as the magnetopause. Plasma density and temperature differences across the boundary layer generate the Chapman-Ferraro current which supports the magnetopause. Along the dayside magnetopause, magnetic reconnection can occur in electron diffusion regions (EDRs) embedded into the larger ion diffusion regions (IDRs). These diffusion regions form when opposing magnetic field lines in the solar wind and Earth's magnetic field merge, releasing magnetic energy into the surrounding plasma. While previous studies have given us a general understanding of the structure of the diffusion regions, we still do not have a good grasp of how they are statistically differentiated from the non-diffusion region magnetopause. By investigating 251 magnetopause crossings from NASA's Magnetospheric Multiscale (MMS) Mission, we demonstrate that EDR magnetopause crossings show current densities an order of magnitude higher than regular magnetopause crossings - crossings that either passed through the reconnection exhausts or through the non-reconnecting magnetopause, providing a baseline for the magnetopause current sheet under a wide range of driving conditions. Significant current signatures parallel to the local magnetic field in EDR crossings are also identified, which is in contrast to the dominantly perpendicular current found in the regular magnetopause. Additionally, we show that the ion velocity along the magnetopause is highly correlated with a crossing's location, indicating the presence of magnetosheath flows inside the magnetopause.

Published
2023

7. Interpreting Results of VGG-16 for COVID-19 Diagnosis on CT Images

Author

Nguyen, Hai Thanh, Huynh, Tuyet Ngoc, Phan, Tai Tan, Huynh, Hoang Thanh, Nguyen, Kha Van, Pham, Ngoc Huynh, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Nguyen, Ngoc Thanh, editor, Franczyk, Bogdan, editor, Ludwig, André, editor, Núñez, Manuel, editor, Treur, Jan, editor, Vossen, Gottfried, editor, and Kozierkiewicz, Adrianna, editor

Published
2024
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8. Apply the Metaheuristic Algorithm to Allocate Distributed Generation and Minimize the Cost of Energy Losses in the Distribution System

Author

Phan, Tai Thanh, Trong Dao, Tran, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Tan, Kay Chen, Series Editor, Trong Dao, Tran, editor, Hoang Duy, Vo, editor, Zelinka, Ivan, editor, Dong, Chau Si Thien, editor, and Tran, Phuong T., editor

Published
2024
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9. A Current Sensor Fault-Tolerant Control Solution for Induction Motor Drive

Author

Nguyen, Minh Chau Huu, Tran, Cuong Dinh, Dinh, Bach Hoang, Phan, Tai Thanh, Nguyen, Thong Tien, Lai, Giang Thi Tuyet, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Tan, Kay Chen, Series Editor, Trong Dao, Tran, editor, Hoang Duy, Vo, editor, Zelinka, Ivan, editor, Dong, Chau Si Thien, editor, and Tran, Phuong T., editor

Published
2024
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11. Multi-species Ion Acceleration in 3D Magnetic Reconnection with Hybrid-kinetic Simulations

Author

Zhang, Qile, Guo, Fan, Daughton, William, Li, Hui, Le, Ari, Phan, Tai, and Desai, Mihir

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Physics - Plasma Physics, Physics - Space Physics
Abstract

Magnetic reconnection drives multi-species particle acceleration broadly in space and astrophysics. We perform the first 3D hybrid simulations (fluid electrons, kinetic ions) that contain sufficient scale separation to produce nonthermal heavy-ion acceleration, with fragmented flux ropes critical for accelerating all species. We demonstrate the acceleration of all ion species (up to Fe) into power-law spectra with similar indices, by a common Fermi acceleration mechanism. The upstream ion velocities influence the first Fermi reflection for injection. The subsequent onsets of Fermi acceleration are delayed for ions with lower charge-mass ratios (Q/M), until growing flux ropes magnetize them. This leads to a species-dependent maximum energy/nucleon $\propto(Q/M)^\alpha$. These findings are consistent with in-situ observations in reconnection regions, suggesting Fermi acceleration as the dominant multi-species ion acceleration mechanism., Comment: version accepted by Physical Review Letters

Published
2022

12. Kinetic-scale current sheets in the solar wind at 1 AU: Scale-dependent properties and critical current density

Author

Vasko, Ivan Y., Alimov, Kazbek, Phan, Tai, Bale, Stuart D., Mozer, Forrest, and Artemyev, Anton V.

Subjects
Physics - Space Physics, Physics - Plasma Physics
Abstract

We present analysis of 17,043 proton kinetic-scale current sheets collected over 124 days of Wind spacecraft measurements in the solar wind at 11 Samples/s magnetic field resolution. The current sheets have thickness $\lambda$ from a few tens to one thousand kilometers with typical value around 100 km or from about 0.1 to 10$\lambda_{p}$ in terms of local proton inertial length $\lambda_{p}$. We found that the current density is larger for smaller scale current sheets, $J_0\approx 6\; {\rm nA/m^2} \cdot (\lambda/100\;{\rm km})^{-0.56}$ , but does not statistically exceed critical value $J_A$ corresponding to the drift between ions and electrons of local Alv\'{e}n speed. The observed trend holds in normalized units, $J_0/J_{A}\approx 0.17\cdot (\lambda/\lambda_{p})^{-0.51}$. The current sheets are statistically force-free with magnetic shear angle correlated with current sheet spatial scale, $\Delta \theta\approx 19^{\circ}\cdot (\lambda/\lambda_{p})^{0.5}$. The observed correlations are consistent with local turbulence being the source of proton kinetic-scale current sheets in the solar wind, while mechanisms limiting the current density remain to be understood., Comment: 7 pages + list of references, 5 figures

Published
2021
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13. A Systematic Look at the Temperature Gradient Contribution to the Dayside Magnetopause Current

Author

Beedle, Jason M. H., Gershman, David J., Uritsky, Vadim M., Phan, Tai D., and Giles, Barbara L.

Subjects
Physics - Space Physics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Magnetopause diamagnetic currents arise from density and temperature driven pressure gradients across the boundary layer. While theoretically recognized, the temperature contributions to the magnetopause current system have not yet been systematically studied. To bridge this gap, we used a database of Magnetospheric Multiscale (MMS) magnetopause crossings to analyze diamagnetic current densities and their contributions across the dayside and flank magnetopause. Our results indicate that the ion temperature gradient component makes up to 37% of the ion diamagnetic current density along the magnetopause and typically opposes the classical Chapman-Ferraro current direction, interfering destructively with the density gradient component, thus lowering the total diamagnetic current density. This effect is most pronounced on the flank magnetopause. The electron diamagnetic current was found to be 5 to 14 times weaker than the ion diamagnetic current on average.

Published
2021
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14. Characteristic scales of magnetic switchback patches near the Sun and their possible association with solar supergranulation and granulation

Author

Fargette, Naïs, Lavraud, Benoit, Rouillard, Alexis, Réville, Victor, De Wit, Thierry Dudok, Froment, Clara, Halekas, Jasper S., Phan, Tai, Malaspina, David, Bale, Stuart D., Kasper, Justin, Louarn, Philippe, Case, Anthony W., Korreck, Kelly E., Larson, Davin E., Pulupa, Marc, Stevens, Michael L., Whittlesey, Phyllis L., and Berthomier, Matthieu

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Parker Solar Probe (PSP) data recorded within a heliocentric radial distance of 0.3 AU have revealed a magnetic field dominated by Alfv\'enic structures that undergo large local variations or even reversals of the radial magnetic field. They are called magnetic switchbacks, they are consistent with folds in magnetic field lines within a same magnetic sector, and are associated with velocity spikes during an otherwise calmer background. They are thought to originate either in the low solar atmosphere through magnetic reconnection processes, or result from the evolution of turbulence or velocity shears in the expanding solar wind. In this work, we investigate the temporal and spatial characteristic scales of magnetic switchback patches. We define switchbacks as a deviation from the nominal Parker spiral direction and detect them automatically for PSP encounters 1, 2, 4 and 5. We focus in particular on a 5.1-day interval dominated by switchbacks during E5. We perform a wavelet transform of the solid angle between the magnetic field and the Parker spiral and find periodic spatial modulations with two distinct wavelengths, respectively consistent with solar granulation and supergranulation scales. In addition we find that switchback occurrence and spectral properties seem to depend on the source region of the solar wind rather than on the radial distance of PSP. These results suggest that switchbacks are formed in the low corona and modulated by the solar surface convection pattern., Comment: 12 pages, 7 figures

Published
2021
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18. Electron Acceleration during Macroscale Magnetic Reconnection

Author

Arnold, Harry, Drake, James, Swisdak, Marc, Guo, Fan, Dahlin, Joel, Chen, Bin, Fleishman, Gregory, Glesener, Lindsay, Kontar, Eduard, Phan, Tai, and Shen, Chengcai

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

The first self-consistent simulations of electron acceleration during magnetic reconnection in a macroscale system are presented. Consistent with solar flare observations the spectra of energetic electrons take the form of power-laws that extend more than two decades in energy. The drive mechanism for these nonthermal electrons is Fermi reflection in growing and merging magnetic flux ropes. A strong guide field is found to suppress the production of nonthermal electrons by weakening the Fermi drive mechanism. For a weak guide field the total energy content of nonthermal electrons dominates that of the hot thermal electrons even though their number density remains small. Our results are benchmarked with the hard x-ray, radio and extreme ultra-violet (EUV) observations of the X8.2-class solar flare on September 10, 2017.

Published
2020
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19. MMS SITL Ground Loop: Automating the burst data selection process

Author

Argall, Matthew R., Small, Colin, Piatt, Samantha, Breen, Liam, Petrik, Marek, Kokkonen, Kim, Barnum, Julie, Larsen, Kristopher, Wilder, Frederick D., Oka, Mitsuo, Paterson, William R., Torbert, Roy B., Ergun, Robert E., Phan, Tai, Giles, Barbara L., and Burch, James L.

Subjects
Physics - Space Physics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Global-scale energy flow throughout Earth's magnetosphere (MSP) is catalyzed by processes that occur at Earth's magnetopause (MP). Magnetic reconnection is one process responsible for solar wind entry into and global convection within the MSP, and the MP location, orientation, and motion have an impact on the dynamics. Statistical studies that focus on these and other MP phenomena and characteristics inherently require MP identification in their event search criteria, a task that can be automated using machine learning. We introduce a Long-Short Term Memory (LSTM) Recurrent Neural Network model to detect MP crossings and assist studies of energy transfer into the MSP. As its first application, the LSTM has been implemented into the operational data stream of the Magnetospheric Multiscale (MMS) mission. MMS focuses on the electron diffusion region of reconnection, where electron dynamics break magnetic field lines and plasma is energized. MMS employs automated burst triggers onboard the spacecraft and a Scientist-in-the-Loop (SITL) on the ground to select intervals likely to contain diffusion regions. Only low-resolution data is available to the SITL, which is insufficient to resolve electron dynamics. A strategy for the SITL, then, is to select all MP crossings. Of all 219 SITL selections classified as MP crossings during the first five months of model operations, the model predicted 166 (76%) of them, and of all 360 model predictions, 257 (71%) were selected by the SITL. Most predictions that were not classified as MP crossings by the SITL were still MP-like; the intervals contained mixed magnetosheath and magnetospheric plasmas. The LSTM model and its predictions are public to ease the burden of arduous event searches involving the MP, including those for EDRs. For MMS, this helps free up mission operation costs by consolidating manual classification processes into automated routines., Comment: 21 pages, 8 figures, 3 tables, submitted to Frontiers: Space Science

Published
2020

20. Poses Classification in a Taekwondo Lesson Using Skeleton Data Extracted from Videos with Shallow and Deep Learning Architectures

Author

Hoang, Ha Thanh Thi, Ha, Chau Ngoc, Nguyen, Dat Tien, Nguyen, Truong Nhat, Huynh, Tuyet Ngoc, Phan, Tai Tan, Nguyen, Hai Thanh, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Dang, Tran Khanh, editor, Küng, Josef, editor, and Chung, Tai M., editor

Published
2022
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21. The Reduction of Magnetic Reconnection Outflow Jets to Sub-Alfv\'enic Speeds

Author

Haggerty, Colby C., Shay, Michael A., Chasapis, Alexandros, Phan, Tai D., Drake, James F., Malakit, Kittipat, Cassak, Paul A., and Kieokaew, Rungployphan

Subjects
Physics - Plasma Physics
Abstract

The outflow velocity of jets produced by collisionless magnetic reconnection is shown to be reduced by the ion exhaust temperature in simulations and observations. We derive a scaling relationship for the outflow velocity based on the upstream Alfv\'en speed and the parallel ion exhaust temperature, which is verified in kinetic simulations and observations. The outflow speed reduction is shown to be due to the firehose instability criterion, and so for large enough guide fields this effect is suppressed and the outflow speed reaches the upstream Alfv\'en speed based on the reconnecting component of the magnetic field.

Published
2018
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22. Extraction of oil, carotenes and tocochromanols from oil palm (Elaeis guineensis) fruit with subcritical propane

Author

H. Phan-Tai and G. Brunner

Subjects
Carotenoids, Palm oil, Subcritical propane extraction, Tocochromanols, Nutrition. Foods and food supply, TX341-641
Abstract

This work aims to screen the extraction of oil and bioactive compounds including carotenes and tocochromanols from oil palm fruit with subcritical propane and without using a cosolvent. The overall extraction curves of palm oil with subcritical propane were studied and compared to those extracted with supercritical carbon dioxide. Carotenes and tocochromanols were evaluated not only in the extracted oil, but also in the oil of residual fiber in order to calculate the efficiency to recover these valuable compounds. The experimental results showed that oil yield of up to 70 % could be obtained within 120 minutes with subcritical propane at 50 bar and a flow rate of 35 kg·h−1·kg−1. It was also shown that compressed propane is an excellent solvent for the extraction of oil enriched in carotenes and tocochromanols. Subcritical propane extraction can be used as an alternative process for the simultaneous recovery of these valuable minor components from palm fruit.

Published
2023
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24. MMS observation of asymmetric reconnection supported by 3-D electron pressure divergence

Author

Genestreti, Kevin J., Varsani, Ali, Burch, Jim L., Cassak, Paul A., Torbert, Roy B., Nakamura, Rumi, Ergun, Robert E., Phan, Tai D., Toledo-Redondo, Sergio, Hesse, Michael, Wang, Shan, Giles, Barbara L., Russell, Chris T., Vörös, Zoltan, Kim, Kyoung-Joo, Eastwood, Jonathan P., Lavraud, Benoit, Escoubet, C. Philippe, Fear, Robert C., Khotyaintsev, Yuri, Nakamura, Takuma, Webster, James M., and Baumjohann, Wolfgang

Subjects
Physics - Space Physics
Abstract

We identify a dayside electron diffusion region (EDR) encountered by the Magnetospheric Multiscale (MMS) mission and estimate the terms in generalized Ohm's law that controlled energy conversion near the X-point. MMS crossed the moderate-shear (130 degrees) magnetopause southward of the exact X-point. MMS likely entered the magnetopause far from the X-point, outside the EDR, as the size of the reconnection layer was less than but comparable to the magnetosheath proton gyro-radius, and also as anisotropic gyrotropic "outflow" crescent electron distributions were observed. MMS then approached the X-point, where all four spacecraft simultaneously observed signatures of the EDR, e.g., an intense out-of-plane electron current, moderate electron agyrotropy, intense electron anisotropy, non-ideal electric fields, non-ideal energy conversion, etc. We find that the electric field associated with the non-ideal energy conversion is (a) well described by the sum of the electron inertial and pressure divergence terms in generalized Ohms law though (b) the pressure divergence term dominates the inertial term by roughly a factor of 5:1, (c) both the gyrotropic and agyrotropic pressure forces contribute to energy conversion at the X-point, and (d) both out-of-the-reconnection-plane gradients (d/dM) and in-plane (d/dL,N) in the pressure tensor contribute to energy conversion near the X-point. This indicates that this EDR had some electron-scale structure in the out-of-plane direction during the time when (and at the location where) the reconnection site was observed., Comment: Submitted to JGR Space Physics (November 2017), resubmitted after 1st round of minor revisions (January 2018)

Published
2017
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25. The effect of a guide field on local energy conversion during asymmetric magnetic reconnection: MMS observations

Author

Genestreti, Kevin, Burch, Jim, Cassak, Paul, Torbert, Roy, Ergun, Bob, Varsani, Ali, Phan, Tai, Giles, Barbara, Russell, Chris, Wang, Shan, Akhavan-Tafti, Mojtaba, and Allen, Robert

Subjects
Physics - Space Physics
Abstract

We compare case studies of Magnetospheric Multiscale (MMS)-observed magnetopause electron diffusion regions (EDRs) to determine how the rate of work done by the electric field, $\vec{J}\cdot(\vec{E}+\vec{v}_e\times\vec{B})\equiv\vec{J}\cdot\vec{E}'$, and electron dynamics vary with magnetic shear angle. We provide an in-depth analysis of an MMS-observed EDR event with a guide field approximately the same size as the magnetosheath reconnecting field, which occurred on 8 December 2015. We find that $\vec{J}\cdot\vec{E}'$ was large and positive near the magnetic field reversal point, though patchy lower-amplitude $\vec{J}\cdot\vec{E}'$ also occurred on the magnetosphere-side EDR near the electron crescent point. The current associated with the large $\vec{J}\cdot\vec{E}'$ near the null was carried by electrons with a velocity distribution function (VDF) resembling that of the magnetosheath inflow, but accelerated in the anti-parallel direction by the parallel electric field. At the magnetosphere-side EDR, the current was carried by electrons with a crescent-like VDF. We compare this 8 December event to four others with differing magnetic shear angles. This type of dual-region $\vec{J}\cdot\vec{E}'$ was observed in another intermediate-shear EDR event, whereas the high-shear events had a strong positive $\vec{J}\cdot\vec{E}'$ near the electron crescent point and the low-shear event had a strong positive $\vec{J}\cdot\vec{E}'$ near the in-plane null. We propose a physical relationship between the shear angle and mode of energy conversion where (a) a guide field provides an efficient mechanism for carrying a current at the field reversal point (streaming) and (b) a guide field may limit the formation of crescent eVDFs, limiting the current carried near the stagnation point.

Published
2017
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26. Statistical Study of Energy Transport and Conversion in Electron Diffusion Regions at Earth's Dayside Magnetopause.

Author

Fargette, Naïs, Eastwood, Jonathan P., Waters, Cara L., Øieroset, Marit, Phan, Tai D., Newman, David L., Stawarz, J. E., Goldman, Martin V., and Lapenta, Giovanni

Subjects
MAGNETIC reconnection, EARTH (Planet), ENERGY conversion, ELECTRON density, MAGNETOPAUSE
Abstract

The electron diffusion region (EDR) is a key region for magnetic reconnection, but the typical energy transport and conversion in EDRs is still not well understood. In this work, we perform a statistical study of 80 previously published near X‐line events identified at the dayside magnetopause in Magnetospheric Multiscale data. We find 44 events that clearly present all commonly accepted EDR signatures and use this database to investigate energy flux partition and energy conversion. We find that energy partition is changed inside EDRs, with a 71%–29% allocation of particle energy flux density between electrons and ions respectively. The electron enthalpy flux density is found to dominate locally at all EDRs and is predominantly oriented in the out‐of‐plane direction, perpendicular to the reconnecting magnetic field. We also examine the transition from electron‐ to ion‐dominated energy flux partition further from the EDR, finding this typically occurs at scales of the order of the ion inertial length, larger than the typical EDR size. We then investigate energy conversion and transport and highlight complex processes, with potential non‐steady‐state energy accumulation and release near the EDR. We discuss the implications of our results for reconnection energy conversion, and for magnetopause dynamics in general. Plain Language Summary: Magnetic reconnection is a key plasma phenomenon that occurs in many astrophysical systems, such as in the atmosphere of stars and in the vicinity of magnetized planets like the Earth. It enables rapid conversion of energy as particles gain energy from the magnetic field and are accelerated and heated. In 2015, the 4‐satellite Magnetospheric Multi‐Scale (MMS) mission launched to specifically probe magnetic reconnection close to the Earth. Here we analyze MMS data, first reviewing all previously reported measurements of the very heart of the reconnection region by MMS, and cross‐analyzing them to provide a catalog of 44 confirmed events. We use this catalog to understand how energy is changing during reconnection, finding that energy is mostly deposited to electrons at the heart of the reconnection region. The transport of thermal energy is most important there, and this energy is flowing out of the reconnection region in a direction transverse to the magnetic field. We find that the transfer of energy between field and particles is complex, with temporal effects at play near the reconnection region. These findings bring new insight into the physics of reconnection energetics and have wide implications for wherever reconnection is observed. Key Points: We provide the first comparative statistical study of all previously reported MMS dayside magnetopause EDRs and confirm 44 clear encountersEnergy flux partition changes at the EDR, it is locally dominated by the electron enthalpy flux oriented in the out‐of‐plane directionWe highlight complex field‐particle energy exchange near the EDR where temporal and non linear effects seem play a role [ABSTRACT FROM AUTHOR]

Published
2024
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27. Comparing 3D imaging devices for the measurement of cutaneous neurofibromas in patients with Neurofibromatosis Type 1.

Author

Lau, Jonathan C. L., Fleming, Jane, Good, Martin, Lim, Adrian, Saunderson, Rebecca B., Phan, Tai A., Schlub, Timothy, Siow, Sue‐Faye, Lacson, Nanette, Romo, Carlos, Blakely, Jaishri, Bergqvist, Christina, and Berman, Yemima D.

Subjects
SURFACE area measurement, THREE-dimensional imaging, IMAGING systems, NEUROFIBROMATOSIS 1, VOLUME measurements
Abstract

Background: Cutaneous neurofibromas (cNFs) are a major cause of disfigurement in patients with Neurofibromatosis Type 1 (NF1). However, clinical trials investigating cNF treatments lack standardised outcome measures to objectively evaluate changes in cNF size and appearance. 3D imaging has been proposed as an objective standardised outcome measure however various systems exist with different features that affect useability in clinical settings. The aim of this study was to compare the accuracy, precision, feasibility, reliability and accessibility of three imaging systems. Materials and methods: We compared the Vectra‐H1, LifeViz‐Micro and Cherry‐Imaging systems. A total of 58 cNFs from 13 participants with NF1 were selected for imaging and analysis. The primary endpoint was accuracy as measured by comparison of measurements between imaging systems. Secondary endpoints included reliability between two operators, precision as measured with the average coefficient of variation, feasibility as determined by time to capture and analyse an image and accessibility as determined by cost. Results: There was no significant difference in accuracy between the three devices for length or surface area measurements (p > 0.05), and reliability and precision were similar. Volume measurements demonstrated the most variability compared to other measurements; LifeViz‐Micro demonstrated the least measurement variability for surface area and image capture and analysis were fastest with LifeViz‐Micro. LifeViz‐Micro was better for imaging smaller number of cNFs (1–3), Vectra‐H1 better for larger areas and Cherry for uneven surfaces. Conclusions: All systems demonstrated excellent reliability but possess distinct advantages and limitations. Surface area is the most consistent and reliable parameter for measuring cNF size in clinical trials. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Slow Learners in Mathematics Classes: The Experience of Vietnamese Primary Education

Author

Tran, Trung, Nguyen, Tuyen Thi Thanh, Le, Trinh Thi Tuyet, and Phan, Tai Anh

Abstract

The issue of slow learners has remained a concern for educators due to the burdens on school systems and the social and academic consequences to the learners themselves. An understanding of learning behaviours and cognitive characteristics of slow learners together with their social and educational environment facilitates appropriate intervention strategies. This paper reports part of the findings from a three-year study conducted to identify and support slow learners in learning mathematics at primary schools in Vietnam. Findings indicate both home- and school-based barriers to the academic success of slow-learning students, which highlights the need for individualised support and tailored teaching.

Published
2020
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33. In-situ evidence of electron energization in the electron diffusion region of magnetotail reconnection

Author

Oka, Mitsuo, Phan, Tai, Oieroset, Marit, and Angelopoulos, Vassilis

Subjects
Physics - Space Physics
Abstract

Magnetic reconnection is an explosive energy-release process in laboratory, space and astrophysical plasmas. While magnetic fields can `break' and `reconnect' in a very small region called the electron diffusion region (EDR), there have been conflicting theories as to whether this region can be a place of rapid energization of plasmas. Here we report a fortuitous encounter of the EDR by THEMIS in the Earth's magnetotail where significant heating and demagnetization of electrons were observed. Additional energization was observed on both sides (immediate upstream and downstream) of the EDR, leading to a total of more than an order of magnitude energization across this region. The results demonstrate that, despite its minuscule size, the EDR does indeed contribute to the overall process of electron energization via magnetic reconnection., Comment: 10 pages, 7 figures; accepted by Journal of Geophysical Research

Published
2016
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35. Academic Libraries: 2012. First Look. NCES 2014-038

Author

National Center for Education Statistics (ED), Phan, Tai, Hardesty, Laura, and Hug, Jamie

Abstract

This report presents tabulations for the 2012 Academic Libraries Survey (ALS) conducted by the U.S. Department of Education's National Center for Education Statistics (NCES), within the Institute of Education Sciences. The 2012 ALS population included postsecondary institutions with all of the following: total library expenditures that exceed $10,000; an organized collection of printed or other materials, or a combination thereof; a staff trained to provide and interpret such materials as required to meet the informational, cultural, recreational, or educational needs of the clientele; an established schedule in which services of the staff are available to the clientele; and the physical facilities necessary to support such a collection, staff, and schedule. This definition includes libraries that are part of learning resource centers. Branch and independent libraries are defined as auxiliary library service outlets with quarters separate from the central library that houses the basic collection. The central library administers the branches. In ALS, libraries on branch campuses that have separate NCES identification numbers are reported as separate libraries. When academic libraries are referred to in this report, they will always be entities that are informational resources within degree-granting postsecondary institutions in the United States, including institutions that are eligible for Title IV aid and branch campuses of Title IV-eligible institutions. NCES has conducted the ALS since 1966 at various intervals. However, beginning with the 1988 survey, the ALS has been conducted on a 2-year cycle. The survey focuses on library services, collections, library staff, expenditures, electronic services, and information literacy. Because the purpose of this report is to introduce new NCES data through the presentation of tables containing descriptive information, only selected findings are presented. These findings have been chosen to demonstrate the range of information available from the study rather than to discuss all of the observed differences or focus on any particular issue. Three appendices present: (1) Technical Notes; (2) Glossary; and (3) Survey Questionnaire and Instructions. (Contains 16 tables.)

Published
2014

37. Investigation of a Magnetic Reconnection Event with Extraordinarily High Particle Energization in Magnetotail Turbulence

Author

Qi, Yi, primary, Ergun, Robert, additional, Pathak, Neha, additional, Phan, Tai D., additional, Burch, James L., additional, Chasapis, Alexandros, additional, Li, Tak Chu, additional, Schwartz, Steven J., additional, Ahmadi, Narges, additional, Vo, Tien, additional, Eriksson, Stefan, additional, Newman, David, additional, Usanova, Maria, additional, and Wilder, Frederick D., additional

Published
2024
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38. Designing a brown planthoppers surveillance network based on wireless sensor network approach

Author

Lam, Hoai Bao, Phan, Tai Tan, Vuong, Long Huynh, Huynh, Hiep Xuan, and Pottier, Bernard

Subjects
Computer Science - Networking and Internet Architecture
Abstract

This paper proposes a new approach for monitoring brown planthoppers (BPH) swarms using a surveillance network at provincial scale. The topology of this network is identified to a wireless sensor network (WSN), where each node is a real light trap and each edge describes the influence between two nodes, allowing gathering BPH information. Different communication ranges are evaluated to choose a suitable network. The experiments are performed on the light traps surveillance network of Hau Giang province, a typical rice province in the Mekong Delta region of Vietnam.

Published
2013

39. Academic Libraries: 2010. First Look. NCES 2012-365

Author

National Center for Education Statistics (ED), Phan, Tai, Hardesty, Laura, Hug, Jamie, and Sheckells, Cindy

Abstract

This report presents tabulations for the 2010 Academic Libraries Survey (ALS) conducted by the U.S. Department of Education's National Center for Education Statistics (NCES), within the Institute of Education Sciences. The 2010 ALS population included postsecondary institutions with all of the following: total library expenditures that exceed $10,000; an organized collection of printed or other materials, or a combination thereof; a staff trained to provide and interpret such materials as required to meet the informational, cultural, recreational, or educational needs of the clientele; an established schedule in which services of the staff are available to the clientele; and the physical facilities necessary to support such a collection, staff, and schedule. Some of the findings include: (1) Academic libraries loaned some 11.2 million documents to other libraries in fiscal year 2010 (table 1). Academic libraries also borrowed approximately 10.2 million documents from other libraries and commercial services. Documents from commercial services accounted for about 176,000 of those documents borrowed; (2) The majority of academic libraries, 2,362, were open between 60-99 hours during a typical week in fall of 2010 (derived from table 2). Another 564 academic libraries were open 100 or more hours per typical week; (3) In fiscal year 2010, academic libraries conducted approximately 34.6 million information services to individuals, including computer searches (table 3); (4) At the end of fiscal year 2010, there were 227 academic libraries that held at least 1 million or more books, serial backfiles, and other paper materials including government documents (table 4); (5) Academic libraries held approximately 158.7 million e-books and about 1.8 million electronic reference sources and aggregation services; (6) Academic libraries reported 88,943 full-time equivalent (FTE) staff working in academic libraries during the fall of 2010 (table 7); (7) Just under half of academic libraries, 1,739, had total expenditures of $500,000 or more in fiscal year 2010 (derived from table 8). Another 581 academic libraries had total expenditures under $100,000 (derived from table 8); (8) During fiscal year 2010, academic libraries spent about $3.4 billion on salaries and wages, representing approximately 50 percent of total library expenditures (table 9); (9) Academic libraries spent approximately $152.4 million for electronic books, serial backfiles, and other materials in fiscal year 2010 (table 10). Expenditures for electronic current serial subscriptions totaled about $1.2 billion. During fiscal year 2010, academic libraries spent approximately $142.7 million for computer hardware and software (table 11); (10) In fall of 2010, about 41 percent of academic libraries reported providing documents digitized by staff (table 12); (11) Over half (54 percent) reported providing technology to assist patrons with disabilities in fall of 2010 (table 12); (12) During fiscal year 2010, some 72 percent of academic libraries reported that they supported virtual reference services (table 13); and (13) During fiscal year 2010, about 32 percent of academic libraries reported that they utilized instant messaging applications (table 13). Appended are: (1) Technical Notes; (2) Glossary; and (3) Survey Questionnaire and Instructions. (Contains 37 tables and 1 footnote.)

Published
2011

41. Academic Libraries: 2008. First Look. NCES 2010-348

Author

National Center for Education Statistics (ED), Phan, Tai, Hardesty, Laura, Sheckells, Cindy, and Davis, Denise

Abstract

This report presents tabulations for the 2008 Academic Libraries Survey (ALS) conducted by the United States Department of Education's National Center for Education Statistics (NCES), within the Institute of Education Sciences. This First Look summarizes services, staff, collections, and expenditures of academic libraries in 2- and 4-year, degree-granting postsecondary institutions in the 50 states and the District of Columbia. Among the many findings: (1) During Fiscal year (FY) 2008, there were about 138.1 million circulation transactions from academic libraries' general collection; (2) At the end of FY 2008, there were 226 academic libraries that held 1 million or more books, serial backfiles, and other paper materials including government documents; (3) Academic libraries reported 93,438 full-time equivalent (FTE) staff working in academic libraries during the fall of 2008; (4) Academic libraries' expenditures totaled approximately $6.8 billion during FY 2008; (5) In Fall 2008, some 72 percent of academic libraries provided library reference service by e-mail or the Web; and (6) During FY 2008, some 46 percent of academic libraries reported that their postsecondary institution defined information literacy or the information literate student. (Contains 36 tables.)

Published
2009

42. Documentation to the NCES Common Core of Data Public Elementary/Secondary School Locale Code File: School Year 2005-06, Version 1b. NCES 2008-332

Author

National Center for Education Statistics (ED), Common Core State Standards Initiative, Phan, Tai, and Glander, Mark

Abstract

The Common Core of Data (CCD) Nonfiscal surveys consist of data submitted annually by state education agencies (SEAs) to the National Center for Education Statistics (NCES). School, local education agency, and state data are sent to NCES by SEA personnel who are designated CCD Coordinators. The data are edited and maintained in machine-readable data sets by NCES, and are used to produce general purpose publications, specialized reports, and web-based applications. The 2005-06 NCES Common Core of Data Public Elementary/Secondary School Locale Code File (locale code file) contains 103,016 records, one for each public elementary/secondary school in the 50 states, the District of Columbia, American Samoa, Guam, the Commonwealth of the Northern Mariana Islands, Puerto Rico, the Virgin Islands, the Bureau of Indian Affairs, and the Department of Defense Dependents Schools (domestic and overseas). Each record includes eleven data fields: NCES School ID; school name; local education agency ID; local education agency name; location city; location state; school latitude; school longitude; metro-centric locale code; urban-centric locale code; and the school operational status code. Definitions of terms, and a user's guide are included.

Published
2008

43. Documentation to the NCES Common Core of Data Public Elementary/Secondary School Locale Code File: School Year 2003-04. Version 1a. NCES 2006-332

Author

National Center for Education Statistics (ED), Washington, DC, Bureau of the Census (DOC), Suitland, MD., Geverdt, Douglas, and Phan, Tai

Abstract

The Common Core of Data (CCD) Nonfiscal surveys consist of data submitted annually by state education agencies (SEAs) to the National Center for Education Statistics (NCES). School, local education agency, and state data are sent to NCES by SEA personnel who are designated CCD Coordinators. The data are edited and maintained in machine-readable data sets by NCES, and are used to produce general purpose publications, specialized reports, and web-based applications. This file includes all but one of the schools for which there are records on the "NCES Common Core of Data Public Elementary/Secondary School Universe Survey: School Year 2003-04, Version 1a." Both files contain the NCES school ID variable, which can be used to match the files. The locale code file excludes one school that was reported in the original metro-status locale code file but not included in the urban-centric file, and two schools found in the original urban-centric file but not the metro-centric file were excluded. Therefore, a total of three schools that appear in one, but not both, of the source files were excluded from this current file. The following are appended: (1) Record Layout; and (2) Value Distribution and Field Frequencies. (Contains 2 footnotes.) [For "Documentation to the NCES Common Core of Data Public Elementary/Secondary School Universe Survey: School Year 2003-04. NCES 2006-324," see ED492608.]

Published
2006

44. Multiscale Observation of Magnetotail Reconnection Onset: 1. Macroscopic Dynamics

Author

Genestreti, Kevin J., primary, Farrugia, Charles J., additional, Lu, San, additional, Vines, Sarah K., additional, Reiff, Patricia H., additional, Phan, Tai, additional, Baker, Daniel N., additional, Leonard, Trevor W., additional, Burch, James L., additional, Bingham, Samuel T., additional, Cohen, Ian J., additional, Shuster, Jason R., additional, Gershman, Daniel J., additional, Mouikis, Christopher G., additional, Rogers, Anthony J., additional, Torbert, Roy B., additional, Trattner, Karlheinz J., additional, Webster, James M., additional, Chen, Li‐Jen, additional, Giles, Barbara L., additional, Ahmadi, Narges, additional, Ergun, Robert E., additional, Russell, Christopher T., additional, Strangeway, Robert J., additional, and Nakamura, Rumi, additional

Published
2023
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45. Clustering of magnetic reconnection exhausts in the solar wind: An automated detection study

Author

Fargette, Naïs, primary, Lavraud, Benoît, additional, Rouillard, Alexis P., additional, Houdayer, Pierre S., additional, Phan, Tai D., additional, Øieroset, Marit, additional, Eastwood, Jonathan P., additional, Nicolaou, Georgios, additional, Fedorov, Andrei, additional, Louarn, Philippe, additional, Owen, Christopher J., additional, and Horbury, Tim S., additional

Published
2023
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46. Forecasting the Brown Plant Hopper Infection Levels Using Set-Valued Decision Rules

Author

Huynh, Hiep Xuan, Phan, Tai Tan, Phan, Lan Phuong, Nguyen, Son Truong, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Vinh, Phan Cong, editor, and Alagar, Vangalur, editor

Published
2016
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47. The Coverage Model for the Forest Fire Detection Based on the Wireless Sensor Network

Author

Huynh, Hiep Xuan, Phan, Tai Tan, Phan, Lan Phuong, Trinh, Nguyen Tran, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Vinh, Phan Cong, editor, and Alagar, Vangalur, editor

Published
2016
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48. Ethanol-modified supercritical CO2 extraction of cashew (Anacardium occidentale) nut testa.

Author

HUAN PHAN TAI, UYEN DAO HA, and THAO NGUYEN CHAU THANH

Subjects
*ETHANOL, *GALLIC acid, *CASHEW nuts, *PHENOLS, *POLYPHENOLS
Abstract

Cashew nut (Anacardium occidentale L.) testa, a byproduct derived from cashew nut processing, is a valuable source of polyphenols with antioxidant properties. This study aimed to screen the extraction of cashew nut testa with supercritical CO2 and ethanol as a cosolvent. The impacts of various key operating parameters, including cosolvent concentration (5-20 %, v/v), temperature (40-60 °C), pressure (15-30 MPa) and extraction time (30-120 min) on the total phenolics content (TPC) and the antioxidant activity of the extract were investigated. The resulting extract from cashew nut testa exhibited high TPC and antioxidant activity values when employing a 15 % (v/v) ethanol cosolvent concentration, a temperature of 40 °C, a pressure of 25 MPa and an extraction time of 90 min. Under these conditions, the extract of cashew nut testa achieved TPC of 63.97 g·kg-1 on dry weight (DW) basis expressed as gallic acid equivalent and 2,2-azino-bis (3ethylbenzthiazoline6sulfonic acid) radicalscavenging activity of 1522.72 mmol·kg-1 DW expressed as Trolox equivalent. Ethanolmodified supercritical CO2 extraction demonstrated promising potential as a sustainable approach for recovering the phenolic compounds from the cashew nut testa. [ABSTRACT FROM AUTHOR]

Published
2024

49. The Heliospheric Current Sheet in the Inner Heliosphere Observed by the Parker Solar Probe

Author

Szabo, Adam, Larson, Davin, Whittlesey, Phyllis, Stevens, Michael L, Lavraud, Benoit, Phan, Tai, Wallace, Samantha, Jones-Mecholsky, Shaela I, Arge, Charles N, Badman, Samuel T, Odstrcil, Dusan, Pogorelov, Nikolai, Kim, Tae, Riley, Pete, Henney, Carl J, Bale, Stuart D, Bonnell, John W, Case, Antony W, Wit, Thierry Dudok de, Goetz, Keith, Harvey, Peter, Kasper, Justin C, Korreck, Kelly E, Koval, Andriy, Livi, Roberto, MacDowall, Robert J, Malaspina, David M, and Pulupa, Marc

Subjects
Space Sciences (General)
Abstract

The Parker Solar Probe (PSP) completed its first solar encounter in 2018 November, bringing it closer to the Sun than any previous mission. This allowed in situ investigation of the heliospheric current sheet (HCS) inside the orbit of Venus. The Parker observations reveal a well defined magnetic sector structure placing the spacecraft in a negative polarity region for most of the encounter. The observed current sheet crossings are compared to the predictions of both potential field source surface and magnetohydrodynamic models. All the model predictions are in good qualitative agreement with the observed crossings of the HCS. The models also generally agree that the HCS was nearly parallel with the solar equator during the inbound leg of the encounter and more significantly inclined during the outbound portion. The current sheet crossings at PSP are also compared to similar measurements made by the Wind spacecraft near Earth at 1 au. After allowing for orbital geometry and propagation effects, a remarkable agreement has been found between the observations of these two spacecraft underlying the large-scale stability of the HCS. Finally, the detailed magnetic field and plasma structure of each crossing is analyzed. Marked differences were observed between PSP and Wind measurements in the type of structures found near the HCS. This suggests that significant evolution of these small solar wind structures takes place before they reach 1 au.

Published
2020
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50. Extraction of oil, carotenes and tocochromanols from oil palm (Elaeis guineensis) fruit with subcritical propane

Author

Huan, Phan-Tai, Brunner, Gerd, Huan, Phan-Tai, and Brunner, Gerd

Abstract

This work aims to screen the extraction of oil and bioactive compounds including carotenes and tocochromanols from oil palm fruit with subcritical propane and without using a cosolvent. The overall extraction curves of palm oil with subcritical propane were studied and compared to those extracted with supercritical carbon dioxide. Carotenes and tocochromanols were evaluated not only in the extracted oil. but also in the oil of residual fiber in order to calculate the efficiency to recover these valuable compounds. The experimental results showed that oil yield of up to 70 % could be obtained within 120 minutes with subcritical propane at 50 bar and a flow rate of 35 kg·h-1·kg-1-. It was also shown that compressed propane is an excellent solvent for the extraction of oil enriched in carotenes and tocochromanols. Subcritical propane extraction can be used as an alternative process for the simultaneous recovery of these valuable minor components from palm fruit.

Published
2023

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