Your search keyword '"Wonho Choe"' showing total 38 results

1. Radiatively tamed divertor thermal loading in resonant magnetic perturbation (RMP)-driven, ELM-crash-suppressed plasmas

Author

Yongkyoon In, H.H. Lee, K. Kim, A. Loarte, I.H. Choi, J.Y. Heo, Y.S. Han, Wonho Choe, J. Hwang, and H. Shin

Subjects

edge-localized-modes (ELM), resonant magnetic perturbation (RMP), ELM-crash-suppression, divertor thermal loading, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Edge-localized-modes (ELMs) suppression by non-axisymmetric resonant-magnetic-perturbation (RMP) provides the way to reach high performance fusion plasmas without a threatening level of transient heat fluxes to the walls of fusion devices. The application of RMP, however, strongly modifies the heat flux pattern onto in-vessel components in contact with the plasma (especially the divertor) leading to local ‘hot spots’. Radiative dissipation by partially ionized species (impurities and deuterium) lowers the heat flux peaks on the walls but has been poorly compatible with such RMP-driven, ELM-crash-suppression. Here, we show how KSTAR has radiatively tamed divertor thermal loading down to more than a factor of 7 in the off-separatrix region without losing ELM-crash-suppression using ITER-like, three-row, RMP configurations, demonstrating its sustainment even in a partially detached plasma in the outer strike point, as required for ITER.

Published

2024

2. Efficacy of a novel channel-cleaning ball brush for endoscope reprocessing: a randomized controlled trial

Author

Kwang Hyun Chung, Jeong Don Chae, Wonho Choe, Hyo Young Lee, Il Hwan Oh, and Byoung Kwan Son

Subjects

ball brush, disinfection, environmental monitoring, gastrointestinal endoscopes, Internal medicine, RC31-1245, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/Aims Endoscopic channels are difficult to clean and can cause infection transmission. We examined the effectiveness of a newly developed channel-cleaning ball brush (BB), which is sucked into the endoscopic channel and scrapes and cleans the lumen as it passes through. Methods The upper and lower gastrointestinal endoscopes used for patient examinations were randomly selected as the conventional brush (CB) or BB group. After manual cleaning, the presence or absence of carbohydrates, proteins, adenosine triphosphate, and hemoglobin was assessed. Results Fifty-six and 58 endoscopes were cleaned with the CB and BB, respectively. Carbohydrate and protein were detected in one (1.8%) and two endoscopes (3.4%) in the CB and BB groups, respectively (p=1.000). Hemoglobin was observed in one (1.8%) and three endoscopes (5.2%) in the CB and BB groups, respectively (p=0.636). The adenosine triphosphate levels were 10.6±15.9 and 12.5±14.3 relative light units in the CB and BB groups, respectively (p=0.496). Twenty-seven (48.2%) and 19 (32.8%) endoscopes were positive for microbial cultures in the CB and BB groups, respectively (p=0.136). Conclusions The efficacy of BB was not significantly different from that of CB in the endoscopic channel-cleaning process.

Published

2022

3. Surface plasma with an inkjet-printed patterned electrode for low-temperature applications

Author

Jinwoo Kim, Sanghoo Park, and Wonho Choe

Subjects

Medicine, Science

Abstract

Abstract The global health crisis caused by the recent pandemic has led to increasing social demand for ‘new normal’ sanitizing and disinfecting facilities to fit our ‘new normal’ lives. Here, we introduce an inkjet-printed, thin-film plasma source applicable to dry disinfection processes. In contrast to conventional plasma reactors, the merits of plasma produced on a film include disposability, cost-effectiveness, and applicability to high-dimensional objects such as the human body. The developed flexible plasma film can be applied to a wide variety of shapes via origami—remaining plasma stable even when bent. However, electrode degradation has been a practical issue in the long-term operation of inkjet-printed plasma sources, which is troublesome from application perspectives. We focus on making the inkjet-printed electrode more plasma stress-resistant, thereby increasing its lifespan from a few minutes to two hours of continuous operation with optimal inkjet printing and passivation, thus increasing the practicality of the source. Considering the fact that ozone and nitrogen oxides are selectively produced by plasma, we implement a disposable pouch-type plasma source and examine its usefulness in extending the shelf life of food.

Published

2021

4. Bifurcation-like transition of divertor conditions induced by X-point radiation in KSTAR L-mode plasmas

Author

Jae-Sun Park, Richard Pitts, Juhyeok Jang, Yoon Seong Han, Wonho Choe, Jeremy Lore, Junghoo Hwang, Jun-Gyo Bak, June-Woo Juhn, and Suk-Ho Hong

Subjects

KSTAR, cliff edge, SOLPS-ITER, time-dependent SOLPS, X-point radiation, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Density ramps with ion grad B drift directed into lower single null KSTAR L-mode plasmas are associated with a simultaneous and abrupt reduction of the divertor particle flux on both low- and high-field-side targets when the mid-plane line averaged electron density reaches a given level. Target embedded Langmuir probe signals show a clear ‘cliff edge’ behavior similar to that observed in the divertor target electron temperature in DIII-D H-mode plasmas (Eldon et al 2017 Nucl. Fusion 57 066039; McLean et al 2015 J. Nucl. Mater. 463 533–6). The collapse of the particle flux is observed along the whole divertor target area (from private flux region to the far scrape-off layer (SOL)). The critical upstream density of this target flux cliff is invariant under fuel gas throughput modulation. The transition along the cliff occurs in tens of milliseconds. With the cliff, carbon impurities and deuterium neutrals transported through the X-point to the core produce a strong radiation spot near the X-point, seen on bolometric signals, and increase the upstream density. The experimental observations are consistent with time-dependent SOLPS-ITER simulations, which also demonstrate an abrupt transition of the target flux and upstream density with the increase in X-point radiation. The timescale of the cliff predicted by SOLPS-ITER is consistent with the experiment, although, it is influenced by gas throughput or time-dependent numerical methods. In the L-mode phase space of separatrix electron density and temperature, branches are divided based on target temperature, because the latter is strongly coupled to the radiation front and ionization front due to the monotonic characteristic of the parallel electron temperature distribution. Since the H-mode condition operates at a much higher upstream density and electron temperature in phase space, dissipation from sputtered carbon alone leads to the density limit before reaching the X-point radiation condition. This is therefore consistent with the fact that cliffs have never been observed in H-mode KSTAR experiments.

Published

2023

5. Argon–seeded detachment during ELM control by RMPs in KSTAR

Author

H. Shin, J. Hwang, Y. Han, G. Shin, H. Lee, K.-B. Chai, and Wonho Choe

Subjects

impurity seeding, detachment, RMP-driven ELM control, KSTAR, tokamak, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

In this study, we demonstrate argon-seeded discharges that exhibited a detached divertor during the full suppression and mitigation of edge-localized modes (ELMs) by an International Thermonuclear Experimental Reactor-like, three-row resonant magnetic perturbation (RMP) configuration in KSTAR. During the ELM suppression phase, the peak heat flux on the divertor target was successfully reduced from 1.6 MW m ^−2 –0.5 MW m ^−2 via argon seeding. Further, the ion saturation current densities corresponding to the particle fluxes on both targets were reduced by more than 50%. During the RMP grassy-ELM regime, a further reduction to 0.1 MW m ^−2 in the divertor heat load was successfully achieved. A highly localized radiation zone near the X -point was also observed during divertor detachment. The calculated degree of detachment based on the two-point model increased to levels of approximately 3 and 2.3 for the outer target and inner target cases, respectively. These results provide valuable information regarding the effect of mid- Z impurities on RMP-detachment-compatible discharges.

Published

2023

6. Suppression of Breast Cancer Cell Migration and Epithelial-Mesenchymal Transition by Atmospheric Pressure Plasma

Author

Kijung Kim, Jinseung Choung, Ung Hyun Ko, Ara Jung, Wonho Choe, Jennifer H. Shin, and Bomi Gweon

Subjects

plasma treatment, cancer metastasis, cell migratoin, epithelial-mesenchymal transition, cancer invasion, Physics, QC1-999

Abstract

Atmospheric pressure plasma (APP) has emerged rapidly as a potent tool for cancer therapy thanks to its multiple anti-cancer effects. Depending on the types, APP has been shown to induce necrosis, apoptosis, or senescence in cancer cells in vitro and reduce tumor size in vivo. While recent progress in plasma medicine has led to various hypotheses for the molecular mechanism of APP, the key effector in anti-cancer processes still remains elusive. In this study, we show that APP treatment on an invasive breast cancer cell line (MDA-MB-231) dramatically alters these cells’ morphology and further suppresses migratory activity. In addition to the functional changes, epithelial to mesenchymal transition (EMT) markers, such as vimentin and alpha-smooth muscle actin (α-SMA), were found to be down-regulated in MDA-MB-231 by the APP treatment. As a result, APP treatment appears to impact the invasive nature of cancer cells, motivating the possible use of APP as a therapeutic tool to suppress cancer metastasis.

Published

2021

7. Electron Information in Single- and Dual-Frequency Capacitive Discharges at Atmospheric Pressure

Author

Sanghoo Park, Wonho Choe, Se Youn Moon, and Jian Jun Shi

Subjects

Medicine, Science

Abstract

Abstract Determining the electron properties of weakly ionized gases, particularly in a high electron-neutral collisional condition, is a nontrivial task; thus, the mechanisms underlying the electron characteristics and electron heating structure in radio-frequency (rf) collisional discharges remain unclear. Here, we report the electrical characteristics and electron information in single-frequency (4.52 MHz and 13.56 MHz) and dual-frequency (a combination of 4.52 MHz and 13.56 MHz) capacitive discharges within the abnormal α-mode regime at atmospheric pressure. A continuum radiation-based electron diagnostic method is employed to estimate the electron density (n e) and temperature (T e). Our experimental observations reveal that time-averaged n e (7.7–14 × 1011 cm−3) and T e (1.75–2.5 eV) can be independently controlled in dual-frequency discharge, whereas such control is nontrivial in single-frequency discharge, which shows a linear increase in n e and little to no change in T e with increases in the rf input power. Furthermore, the two-dimensional spatiotemporal evolution of neutral bremsstrahlung and associated electron heating structures is demonstrated. These results reveal that a symmetric structure in electron heating becomes asymmetric (via a local suppression of electron temperature) as two-frequency power is simultaneously introduced.

Published

2018

8. The creation of electric wind due to the electrohydrodynamic force

Author

Sanghoo Park, Uros Cvelbar, Wonho Choe, and Se Youn Moon

Subjects

Science

Abstract

The electric wind mechanism remains unclear. Here, the authors report evidence that electric wind is caused by an electrohydrodynamic force generated by charged particle drag as a result of momentum transfer to neutral particles.

Published

2018

9. Electron characterization in weakly ionized collisional plasmas: from principles to techniques

Author

Sanghoo Park, Wonho Choe, Se Youn Moon, and Suk Jae Yoo

Subjects

weakly ionized collisional plasma, nonequilibrium plasma, electron characterization, continuum radiation, neutral bremsstrahlung, Physics, QC1-999

Abstract

Weakly ionized plasmas at or near 1 atm pressure, or atmospheric-pressure plasmas, have received increasing attention due to their scientific significance and potential for use in a variety of applications, particularly for medicine, agriculture, and food. However, there is a large imbalance between scientific research on plasma physics and applications, which is partly due to the considerable differences in the characteristics of these plasmas compared with those of low-pressure plasmas. This discrepancy is particularly related to the difficulty in performing plasma diagnostics for highly collisional plasmas. Information on electrons (such as the electron density and temperature) is essential since electrons play a dominant role in the generation of active species related to the physical and chemical processes inside the plasma. So far, limited diagnostics have been available for electrons such as Thomson scattering and optical emission diagnostics based on equilibrium models. Here, we review the available diagnostic methods along with their merits and limitations for characterizing electrons in weakly ionized collisional plasmas. Particular attention is paid to continuum radiation-based spectroscopy, which facilitates multidimensional imaging of electron density and temperature. The future impact of these plasmas on relevant fields (i.e. laboratory and industrial plasmas and their applications) is also addressed.

Published

2019

10. Identification of 8-Digit HLA-A, -B, -C, and -DRB1 Allele and Haplotype Frequencies in Koreans Using the One Lambda AllType Next-Generation Sequencing Kit.

Author

Wonho Choe, Jeong-Don Chae, John Jeongseok Yang, Sang-Hyun Hwang, Sung-Eun Choi, and Heung-Bum Oh

Subjects

HAPLOTYPES, NUCLEOTIDE sequencing, GENE frequency, KOREANS, HLA histocompatibility antigens

Abstract

Background: Recent studies have successfully implemented next-generation sequencing (NGS) in HLA typing. We performed HLA NGS in a Korean population to estimate HLA-A, -B, -C, and -DRB1 allele and haplotype frequencies up to an 8-digit resolution, which might be useful for an extended application of HLA results. Methods: A total of 128 samples collected from healthy unrelated Korean adults, previously subjected to Sanger sequencing for 6-digit HLA analysis, were used. NGS was performed for HLA-A, -B, -C, and -DRB1 using the AllType NGS kit (One Lambda, West Hills, CA, USA), Ion Torrent S5 platform (Thermo Fisher Scientific, Waltham, MA, USA), and Type Steam Visual NGS analysis software (One Lambda). Results: Eight HLA alleles showed frequencies of =10% in the Korean population, namely, A*24:02:01:01 (19.5%), A*33:03:01 (15.6%), A*02:01:01:01 (14.5%), A*11:01:01:01 (13.3%), B*15:01:01:01 (10.2%), C*01:02:01 (19.9%), C*03:04:01:02 (11.3%), and DRB1*09:01:02 (10.2%). Nine previous 6-digit HLA alleles were further identified as two or more 8-digit HLA alleles. Of these, eight alleles (A*24:02:01, B*35:01:01, B*40:01:02, B*55:02:01, B*58:01:01, C*03:02:02, C*07:02:01, and DRB1*07:01:01) were identified as two 8-digit HLA alleles, and one allele (B*51:01:01) was identified as three 8-digit HLA alleles. The most frequent four-loci haplotype was HLA-A*33:03:01-B*44:03:01:01-C*14: 03-DRB1*13:02:01. Conclusions: We identified 8-digit HLA-A, -B, -C, and -DRB1 allele and haplotype frequencies in a healthy Korean population using NGS. These new data can be used as a representative Korean data for further disease-related HLA type analysis. [ABSTRACT FROM AUTHOR]

Published

2021

11. Osteomyelitis Caused by Hypervirulent Klebsiella pneumoniae: The First Korean Case With Family Spread.

Author

Chang-Hun Lee, Jeong Don Chae, Wonho Choe, Hyo Young Lee, Yong-Hak Sohn, Chunhwa Ihm, and Ji Hun Jeong

Subjects

KLEBSIELLA pneumoniae, OSTEOMYELITIS, CARBAPENEM-resistant bacteria, LEUKOCYTE count

Published

2021

12. Performance of Norudia Glycated Albumin Assay on Multiple Analytical Platforms and Comparison to Lucica Assay.

Author

Wonho Choe, Sollip Kim, Jeonghyun Chang, Hyunwoong Park, Ha-Nui Kim, and Soo Jin Yoo

Subjects

ALBUMINS, STATISTICAL correlation, CLINICAL chemistry, EVALUATION methodology

Abstract

Background: The Norudia glycated albumin (GA) assay was evaluated for analytical performance and assay applicability on multiple analytical platforms. Methods: The evaluation included precision, linearity, reference interval, and comparison with Lucica GA assay. A multicenter study was conducted to compare the results of Norudia GA assay on five kinds of widely used automated clinical chemistry analyzers. Results: Within-laboratory imprecisions for GA% presented 1.3 - 3.3% and 0.8 - 2.6% for low- and high-level control materials, respectively, on different analyzers. GA assay was linear from 20.0 to 680.0 µmol/L of GA. The claimed reference range (12 - 16 GA%) was verified. Norudia GA showed a good GA% correlation with Lucica GA (correlation coefficient 0.999). GA% from each analyzer showed good correlation with the consensus mean of the results of five analyzers (correlation coefficient 0.997 - 0.999). Conclusions: The Norudia GA assay can successfully be implemented in all the tested platforms, with good GA% correlation. [ABSTRACT FROM AUTHOR]

Published

2020

13. Compact advanced extreme-ultraviolet imaging spectrometer for spatiotemporally varying tungsten spectra from fusion plasmas.

Author

Inwoo Song, Seon, C. R., Joohwan Hong, An, Y. H., Barnsley, R., Guirlet, R., and Wonho Choe

Subjects

SPECTROMETERS, SPECTRUM analysis instruments, WAVELENGTHS, TUNGSTEN, PLASMA gases

Abstract

A compact advanced extreme-ultraviolet (EUV) spectrometer operating in the EUV wavelength range of a few nanometers to measure spatially resolved line emissions from tungsten (W) was developed for studying W transport in fusion plasmas. This system consists of two perpendicularly crossed slits—an entrance aperture and a space-resolved slit—inside a chamber operating as a pinhole, which enables the system to obtain a spatial distribution of line emissions. Moreover, a so-called v-shaped slit was devised to manage the aperture size for measuring the spatial resolution of the system caused by the finite width of the pinhole.Aback-illuminated charge-coupled devicewas used as a detector with 2048 × 512 active pixels, each with dimensions of 13.5 × 13.5 μm2. After the alignment and installation on Korea superconducting tokamak advanced research, the preliminary results were obtained during the 2016 campaign. Several well-known carbon atomic lines in the 2–7 nm range originating from intrinsic carbon impurities were observed and used forwavelength calibration. Further, the time behavior of their spatial distributions is presented. [ABSTRACT FROM AUTHOR]

Published

2017

14. Magnetic field configurations on thruster performance in accordance with ion beam characteristics in cylindrical Hall thruster plasmas.

Author

Holak Kim, Wonho Choe, Youbong Lim, Seunghun Lee, and Sanghoo Park

Subjects

*MAGNETIC fields, *ION beams, *IONIZATION (Atomic physics), *IONS, *PARTICLE beams

Abstract

Magnetic field configuration is critical in Hall thrusters for achieving high performance, particularly in thrust, specific impulse, efficiency, etc. Ion beam features are also significantly influenced by magnetic field configurations. In two typical magnetic field configurations (i.e., co-current and counter-current configurations) of a cylindrical Hall thruster, ion beam characteristics are compared in relation to multiply charged ions. Our study shows that the co-current configuration brings about high ion current (or low electron current), high ionization rate, and small plume angle that lead to high thruster performance. [ABSTRACT FROM AUTHOR]

Published

2017

15. Establishing a Population-Based HLA-Antibody Panel for Flow Cytometric Monitoring of Chimerism in HLA-Haploidentical Stem Cell Transplantation.

Author

Wonho Choe, Min-A Hwang, Seongsoo Jang, Chan-Jeoung Park, Hyun-Sook Chi, and Ho Joon Im

Published

2016

16. Edge localized mode characteristics during edge localized mode mitigation by supersonic molecular beam injection in Korea Superconducting Tokamak Advanced Research.

Author

Lee, H. Y., Hahn, S. H., Ghim, Y. -C., Bak, J. G., Lee, J. H., Ko, W. H., Lee, K. D., Lee, S. H., Lee, H. H., Juhn, J. -W., Kim, H. S., Yoon, S. W., Han, H., Hong, J. H., Jang, J. H., Park, J. S., and Wonho Choe

Subjects

MOLECULAR beams, TOKAMAKS, PLASMA gases, ELECTRON density, SUPERCONDUCTIVITY

Abstract

It has been reported that supersonic molecular beam injection (SMBI) is an effective means of edge localized mode (ELM) mitigation. This paper newly reports the changes in the ELM, plasma profiles, and fluctuation characteristics during ELM mitigation by SMBI in Korea Superconducting Tokamak Advanced Research. During the mitigated ELM phase, the ELM frequency increased by a factor of 2-3 and the ELM size, which was estimated from the Dα amplitude, the fractional changes in the plasma-stored energy and the line-averaged electron density, and divertor heat flux during an ELM burst, decreased by a factor of 0.34-0.43. Reductions in the electron and ion temperatures rather than in the electron density were observed during the mitigated ELM phase. In the natural ELM phase, frequency chirping of the plasma fluctuations was observed before the ELM bursts; however, the ELM bursts occurred without changes in the plasma fluctuation frequency in the mitigated ELM phase. [ABSTRACT FROM AUTHOR]

Published

2015

17. Effect of magnetic field configuration on the multiply charged ion and plume characteristics in Hall thruster plasmas.

Author

Holak Kim, Youbong Lim, Wonho Choe, Sanghoo Park, and Jongho Seon

Subjects

MULTIPLY charged ions, HALL effect thruster, MAGNETIC fields, ELECTRONS, MAGNETICS

Abstract

Multiply charged ions and plume characteristics in Hall thruster plasmas are investigated with regard to magnetic field configuration. Differences in the plume shape and the fraction of ions with different charge states are demonstrated by the counter-current and co-current magnetic field configurations, respectively. The significantly larger number of multiply charged and higher charge state ions including Xe4+ are observed in the co-current configuration than in the counter-current configuration. The large fraction of multiply charged ions and high ion currents in this experiment may be related to the strong electron confinement, which is due to the strong magnetic mirror effect in the co-current magnetic field configuration. [ABSTRACT FROM AUTHOR]

Published

2015

18. Installation of soft X-ray array diagnostics and its application to tomography reconstruction using synthetic KSTAR X-ray images.

Author

Seung Hun Lee, Juhyeok Jang, Joohwan Hong, Pacella, D., Romano, A., Gabellieri, L., Siwon Jang, Junghee Kim, and Wonho Choe

Subjects

PLASMA diagnostics, TOMOGRAPHY, TOKAMAKS, DETECTORS

Abstract

Four-array system of soft X-ray diagnostics was installed on KSTAR tokamak. Each array has 32 viewing chords of two photo-diode array detectors with spatial resolution of 2 cm. To estimate signals from the soft X-ray radiation power, typical ne, Te, and argon impurity line radiation profiles in KSTAR are chosen. The photo-diodes were absolutely calibrated as a function of the incident photon energy in 2-40 keV range with a portable X-ray tube. Two-dimensional Te image properties by multienergy method were simulated and visualized with six combinations of beryllium filter sets within the dynamic range of signal ratio. [ABSTRACT FROM AUTHOR]

Published

2014

19. Enhancement of Surface Wettability by Intra-Helium Plasma for Liquid Core Fiber Lens.

Author

Kassani, Sahar Hosseinzadeh, Khazaeinezhad, Reza, Nazari, Tavakol, Wonho Choe, and Kyunghwan Oh

Abstract

We generated an atmospheric pressure helium plasma inside a silica hollow optical fiber (HOF) and the surface wettability of the inside wall was flexibly controlled by the plasma intensity. By filling the glycerol into the HOF, we experimentally investigated the surface characteristics by contact angle measurements. Liquid-fiber optic lenses with various numerical apertures were proposed and the light intensity patterns through liquid core lens to the air were investigated numerically. [ABSTRACT FROM PUBLISHER]

Published

2014

20. Effect of multiply charged ions on the performance and beam characteristics in annular and cylindrical type Hall thruster plasmas.

Author

Holak Kim, Youbong Lim, Wonho Choe, and Jongho Seon

Subjects

MULTIPLY charged ions, HALL effect thruster, PROPELLANTS, ANNULAR flow, CURRENT density (Electromagnetism)

Abstract

Plasma plume and thruster performance characteristics associated with multiply charged ions in a cylindrical type Hall thruster (CHT) and an annular type Hall thruster are compared under identical conditions such as channel diameter, channel depth, propellant mass flow rate. A high propellant utilization in a CHT is caused by a high ionization rate, which brings about large multiply charged ions. Ion currents and utilizations are much different due to the presence of multiply charged ions. A high multiply charged ion fraction and a high ionization rate in the CHT result in a higher specific impulse, thrust, and discharge current. [ABSTRACT FROM AUTHOR]

Published

2014

21. Observation of a high-energy tail in ion energy distribution in the cylindrical Hall thruster plasma.

Author

Youbong Lim, Holak Kim, Wonho Choe, Seung Hun Lee, Jongho Seon, and Hae June Lee

Subjects

ION energy, ION beams, TIKHONOV regularization, XENON, PARTICLE tracks (Nuclear physics), PLASMA physics

Abstract

A novel method is presented to determine populations and ion energy distribution functions (IEDFs) of individual ion species having different charge states in an ion beam from the measured spectrum of an E x B probe. The inversion of the problem is performed by adopting the iterative Tikhonov regularization method with the characteristic matrices obtained from the calculated ion trajectories. In a cylindrical Hall thruster plasma, an excellent agreement is observed between the IEDFs by an E x B probe and those by a retarding potential analyzer. The existence of a high-energy tail in the IEDF is found to be mainly due to singly charged Xe ions, and is interpreted in terms of non-linear ion acceleration. [ABSTRACT FROM AUTHOR]

Published

2014

22. Suppression of angiogenesis by atmospheric pressure plasma in human aortic endothelial cells.

Author

Bomi Gweon, Hyeonyu Kim, Kijung Kim, Mina Kim, Eunyoung Shim, Sunja Kim, Wonho Choe, and Shin, Jennifer H.

Subjects

NEOVASCULARIZATION, ATMOSPHERIC pressure, CANCER treatment, APOPTOSIS, NECROSIS, METASTASIS, ENDOTHELIAL cells

Abstract

Atmospheric pressure plasma (APP) has been recognized as a promising tool for cancer therapy based on its ability to remove cancer cells by causing apoptosis and necrosis. However, the effect of APP on the neighboring tissues of tumors remains unknown. Moreover, the role of APP on the vessels near tumors could be very important, because once a tumor becomes vascularized, the potential for metastasis can increase dramatically. We show in the present study that APP can induce cell cycle arrest in endothelial cells and further suppress the angiogenesis process. These results strongly support the use of APP in cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2014

23. Electron density and temperature measurement by continuum radiation emitted from weakly ionized atmospheric pressure plasmas.

Author

Sanghoo Park, Wonho Choe, Se Youn Moon, and Jaeyoung Park

Subjects

*ELECTRON density, *TEMPERATURE measurements, *WEAKLY ionized gases, *ATMOSPHERIC pressure, *PLASMA radiation, *BREMSSTRAHLUNG

Abstract

The electron-atom neutral bremsstrahlung continuum radiation emitted from weakly ionized plasmas is investigated for electron density and temperature diagnostics. The continuum spectrum in 450-1000 nm emitted from the argon atmospheric pressure plasma is found to be in excellent agreement with the neutral bremsstrahlung formula with the electron-atom momentum transfer cross- section given by Popović. In 280-450 nm, however, a large discrepancy between the measured and the neutral bremsstrahlung emissivities is observed. We find that without accounting for the radiative H2 dissociation continuum, the temperature, and density measurements would be largely wrong, so that it should be taken into account for accurate measurement. [ABSTRACT FROM AUTHOR]

Published

2014

24. Double streamer phenomena in atmospheric pressure low frequency corona plasma.

Author

Dan Bee Kim, Jung, H., Gweon, B., and Wonho Choe

Subjects

ATMOSPHERIC pressure, CLIMATOLOGY, METEOROLOGY, ELECTRODES, ELECTRIC resistors

Abstract

Time-resolved images of an atmospheric pressure corona discharge, generated at 50 kHz in a single pin electrode source, show unique positive and negative corona discharge features: a streamer for the positive period and a glow for the negative period. However, unlike in previous reports of dc pulse and low frequency corona discharges, multistreamers were observed at the initial time stage of the positive corona. A possible physical mechanism for the multistreamers is suggested. [ABSTRACT FROM AUTHOR]

Published

2010

25. Study of a dual frequency atmospheric pressure corona plasma.

Author

Dan Bee Kim, Moon, S. Y., Jung, H., Gweon, B., and Wonho Choe

Subjects

RADIO frequency, PARTICLES (Nuclear physics), ATMOSPHERIC pressure, ELECTRODES, METEOROLOGY

Abstract

Radio frequency mixing of 2 and 13.56 MHz was investigated by performing experimental measurements on the atmospheric pressure corona plasma. As a result of the dual frequency, length, current density, and electron excitation temperature of the plasma were increased, while the gas temperature was maintained at roughly the same level when compared to the respective single frequency plasmas. Moreover, observation of time-resolved images revealed that the dual frequency plasma has a discharge mode of 2 MHz positive streamer, 2 MHz negative glow, and 13.56 MHz continuous glow. [ABSTRACT FROM AUTHOR]

Published

2010

26. Development of a particle injection system for impurity transport study in KSTAR.

Author

H. Y. Lee, Suk-Ho Hong, Joohwan Hong, Seung Hun Lee, Siwon Jang, Juhyeok Jang, Taemin Jeon, Jae Sun Park, and Wonho Choe

Subjects

NUCLEAR fusion, PLASMA gas research, MAGNETIC fields, SOFT X rays, VACUUM technology, ULTRAVIOLET spectra

Abstract

A solid particle injection system is developed for KSTAR. The system has a compact size, compatibility with a strong magnetic field and high vacuum environment, and the capability to inject a small amount of solid particles with a narrow injection angle. The target flight-distance of 10 cm has been achieved with a particle loss rate of less than 10%. Solid impurity particles such as tungsten and carbon will be injected by this system at the midplane in KSTAR. The impurity transport feature will be studied with a soft X-ray array, a vacuum ultra-violet diagnostic, and Stand Alone Non-Corona code. [ABSTRACT FROM AUTHOR]

Published

2014

27. Differential responses of human liver cancer and normal cells to atmospheric pressure plasma.

Author

Bomi Gweon, Mina Kim, Dan Bee Kim, Daeyeon Kim, Hyeonyu Kim, Heesoo Jung, Shin, Jennifer H., and Wonho Choe

Subjects

LIVER cancer, CANCER cells, ATMOSPHERIC pressure, PLASMA gases, CELL adhesion, CELL communication

Abstract

When treated by atmospheric pressure plasma, human liver cancer cells (SK-HEP-1) and normal cells (THLE-2) exhibited distinctive cellular responses, especially in relation to their adhesion behavior. We discovered the critical threshold voltage of 950 V, biased at the electrode of the micro-plasma jet source, above which SK-HEP-1 started to detach from the substrate while THLE-2 remained intact. Our mechanical and biochemical analyses confirmed the presence of intrinsic differences in the adhesion properties between the cancer and the normal liver cells, which provide a clue to the differential detachment characteristics of cancer and normal cells to the atmospheric pressure plasma. [ABSTRACT FROM AUTHOR]

Published

2011

28. Plasma effects on subcellular structures.

Author

Bomi Gweon, Daeyeon Kim, Dan Bee Kim, Heesoo Jung, Wonho Choe, and Shin, Jennifer H.

Subjects

HELIUM plasmas, LIVER cells, PARTICLE accelerators, NECROSIS, ELECTRIC fields

Abstract

Atmospheric pressure helium plasma treated human hepatocytes exhibit distinctive zones of necrotic and live cells separated by a void. We propose that plasma induced necrosis is attributed to plasma species such as oxygen radicals, charged particles, metastables and/or severe disruption of charged cytoskeletal proteins. Interestingly, uncharged cytoskeletal intermediate filaments are only minimally disturbed by plasma, elucidating the possibility of plasma induced electrostatic effects selectively destroying charged proteins. These bona fide plasma effects, which inflict alterations in specific subcellular structures leading to necrosis and cellular detachment, were not observed by application of helium flow or electric field alone. [ABSTRACT FROM AUTHOR]

Published

2010

29. Local profiles of line emission of impurity ions in rotating fusion plasmas.

Author

Inwoo Song, Yoon Seong Han, and Wonho Choe

Subjects

ION emission, TOROIDAL plasma, ULTRAVIOLET spectrometers, VACUUM, SPECTROMETERS

Abstract

We analyze the poloidal distribution of impurity ions, such as C V, C VI and O VIII, in fast rotating KSTAR plasmas using the impurity emission lines in the 1–7 nm wavelength range obtained from the space-resolved extreme ultra violet spectrometer. This is aided particularly by a new tomographic reconstruction technique with limited viewing angles. The vacuum and extreme ultraviolet spectrometer system at ITER and its prototypes installed at KSTAR are one of the main diagnostic systems to monitor the impurity species in fusion plasmas; however, they have an insufficient field of view to utilize the conventional reconstruction method. The new algorithm developed in this work considers a curvilinear grid of pixels mapped onto the magnetic equilibrium and a weight factor considering toroidal rotational effect on impurity species. Validation tests with poloidally asymmetric images of synthetic plasma demonstrate that this method is highly useful for emission diagnostics that have a narrow field of view. The experimental results of the spatially resolved spectra from KSTAR plasma clearly show that even the light impurities such as carbon and oxygen are significantly affected by the toroidal rotation. Accordingly, the method is expected to be utilized for estimating the poloidal density profile of each charge state of an impurity species, which will play a key role in impurity transport studies. [ABSTRACT FROM AUTHOR]

Published

2020

30. Preliminary design of the soft x-ray array tomographic diagnostic system for Korea Superconducting Tokamak Advanced Research (KSTAR) plasmas.

Author

Junghee Kim and Wonho Choe

Subjects

*X-rays, *DETECTORS, *TOMOGRAPHY, *MAGNETOHYDRODYNAMICS, *PLASMA gases, *PLASMA dynamics

Abstract

Analyses of x-ray (SXR) emission from tokamak plasmas provide valuable information about magnetohydrodynamics activities and transport phenomena. In this study, design and optimization of the SXR detector arrays were performed for the KSTAR (Korea superconducting tokamak advanced research) device. Geometrical arrangement of the array system was made by coverage mapping and tomographic reconstruction tests. The space-time tomography algorithm was developed for KSTAR-like plasmas using the fast maximum entropy method combined with singular value decomposition. Spatial setup of the components in each detector array was determined and optimized by geometrical calculation. A curved beryllium window and a developed cooling system will be mounted on the detector arrays. Due to the existence of the complex structures between outer vessel and passive stabilizers, each array is designed to be miniaturized. Hardware-optimization of the array system was cross-checked with the tomographic test results. [ABSTRACT FROM AUTHOR]

Published

2004

31. Atomic processes leading to asymmetric divertor detachment in KSTAR L-mode plasmas.

Author

Jae Sun Park, Wonho Choe, Mathias Groth, Richard Pitts, Jun-Gyo Bak, S.G. Thatipamula, June-Woo Juhn, and Suk-Ho Hong

Subjects

*L-mode plasma confinement, *DEUTERIUM, *FUSION reactor divertors, *CARBON, *SIMULATION methods & models, *LANGMUIR probes

Abstract

The experimentally observed in/out detachment asymmetry in KSTAR L-mode plasmas with deuterium (D) fueling and carbon walls has been investigated with the SOLPS-ITER code to understand its mechanism and identify important atomic processes in the divertor region. The simulations show that the geometrical combination of a vertical, inner target with a short poloidal connection from the X-point to the target and a much longer outer divertor leg on an inclined target lead to neutral accumulation towards the outer target, driving the outer target detachment at lower upstream density than is required for the inner target. This is consistent with available Langmuir probe measurements at both target plates, although the inner target profile is poorly resolved in these plasmas and further experiments with corroborating diagnostics are required to confirm this finding. The pressure and power loss factors defined in the two-point model (Stangeby 2018 Plasma Phys. Control. Fusion60 4; Kotov and Reiter 2009 Plasma Phys. Control. Fusion51 115002; Stangeby and Sang 2017 Nucl. Fusion57 056007; Moulton et al 2017 Plasma Phys. Control. Fusion59 6) of the divertor scrape-off layer (SOL) and the sources contributing to the loss factors are calculated through post-processing of the SOLPS-ITER results. The momentum losses are mainly driven by plasma-neutral interaction and the power losses by plasma-neutral interaction and carbon radiation. The presence of carbon impurities in the simulation enhances the pressure and power dissipation compared to the pure D case. Carbon radiation is a strong power loss channel which cools the plasma, but its effect on the pressure balance is indirect. Reduction of the electron temperature indirectly increases the momentum loss and increasing the volumetric reaction rates which are responsible for the loss of momentum. As a result, the addition of carbon saturates the momentum and power losses in the flux tube at lower upstream densities, reducing the roll-over threshold of the upstream density. The relative strengths of the various mechanisms contributing to momentum and power loss depend on the radial distance of the SOL flux tubes from the separatrix (near/far SOL) and the target (inner/outer target). This is related to the strong D2 molecule accumulation near the outer strike point, which makes the deuterium gas density at the outer target 2–10 times higher than that at the inner target. A large portion of the recycled neutral particles from both targets reach and accumulate in the outer SOL, which is predominantly attributed to the target inclination and gap structure between the central and outboard divertors and hence to the impact of geometry. The accumulated neutrals enhance the reactions involving D2, which causes momentum and power loss. [ABSTRACT FROM AUTHOR]

Published

2018

32. Nonlinear ion dynamics in Hall thruster plasma source by ion transit-time instability.

Author

Youbong Lim, Wonho Choe, Stéphane Mazouffre, Jae Sun Park, Holak Kim, Jongho Seon, and L Garrigues

Subjects

*ION energy, *PLASMA sources, *COLLOID thrusters, *NONLINEAR systems, *SPECTRAL energy distribution

Abstract

High-energy tail formation in an ion energy distribution function (IEDF) is explained in a Hall thruster plasma with the stationary crossed electric and magnetic fields whose discharge current is oscillated at the ion transit-time scale with a frequency of 360 kHz. Among ions in different charge states, singly charged Xe ions (Xe+) have an IEDF that is significantly broadened and shifted toward the high-energy side, which contributes to tail formation in the entire IEDF. Analytical and numerical investigations confirm that the IEDF tail is due to nonlinear ion dynamics in the ion transit-time oscillation. [ABSTRACT FROM AUTHOR]

Published

2017

33. Modification of argon impurity transport by electron cyclotron heating in KSTAR H-mode plasmas.

Author

Joohwan Hong, S.S. Henderson, Kimin Kim, C.R. Seon, Inwoo Song, H.Y. Lee, Juhyeok Jang, Jae Sun Park, S.G. Lee, J.H. Lee, Seung Hun Lee, Suk-Ho Hong, and Wonho Choe

Subjects

PLASMA transport processes, ARGON plasmas, ELECTRON cyclotron resonance heating, PHYSICS experiments, PLASMA injection, PLASMA impurities, TOKAMAKS

Abstract

Experiments with a small amount of Ar gas injection as a trace impurity were conducted in the Korea Superconducting Tokamak Advanced Research (KSTAR) H-mode plasma (  =  2.8 T,   =  0.6 MA, and   =  4.0 MW). 170 GHz electron cyclotron resonance heating (ECH) at 600 and 800 kW was focused along the mid-plane with a fixed major radial position of   =  1.66 m. The emissivity of the Ar16+ (3.949 ) and Ar15+ (353.860 ) spectral lines were measured by x-ray imaging crystal spectroscopy (XICS) and a vacuum UV (VUV) spectrometer, respectively. ECH reduces the peak Ar15+ emission and increases the Ar16+ emission, an effect largest with 800 kW. The ADAS-SANCO impurity transport code was used to evaluate the Ar transport coefficients. It was found that the inward convective velocity found in the plasma core without ECH was decreased with ECH, while diffusion remained approximately constant resulting in a less-peaked Ar density profile. Theoretical results from the NEO code suggest that neoclassical transport is not responsible for the change in transport, while the microstability analysis using GKW predicts a dominant ITG mode during both ECH and non-ECH plasmas. [ABSTRACT FROM AUTHOR]

Published

2017

34. Continuum emission-based electron diagnostics for atmospheric pressure plasmas and characteristics of nanosecond-pulsed argon plasma jets.

Author

Sanghoo Park, Wonho Choe, Holak Kim, and Joo Young Park

Subjects

*ATMOSPHERIC pressure, *PLASMA gas research, *ARGON plasmas, *PLASMA jets, *BREMSSTRAHLUNG, *ELECTRON temperature

Abstract

Electron diagnostics based on electron–neutral atom (e–a) bremsstrahlung in the UV and visible range emitted from atmospheric pressure plasmas is presented. Since the spectral emissivity of the e–a bremsstrahlung is determined by electron density (ne) and mean electron temperature (Te) representing the Maxwellian electron energy distribution, their diagnostics is possible. As an example, emission spectra measured from capacitive discharges are presented, which show good agreement with the theoretically calculated emissivity of the e–a bremsstrahlung. For a single pin electrode nanosecond-pulsed plasma jet (n-PPJ) in argon, we investigate the electron properties and the temporal behavior of the positive streamers. Streamers with many branches are clearly observed inside the dielectric tube, while a few main streamers propagate outside the tube along the jet axis. A two-dimensional (2D) measurement of the time-averaged Te distribution was developed using a commercial digital camera and optical band pass filters based on the emissivity ratio of two wavelengths of the e–a bremsstrahlung. The viable measurement range of Te is 0.5–7 eV for the choice of two wavelengths of 300s and 900s nm and 0.5–4 eV for two wavelengths of 400s and 900s nm, which are uncontaminated by the atomic and/or molecular spectra. The 2D Te distribution obtained using 514.5 and 632.8 nm emissions helps to reveal the role of electrons in streamer characteristics in the argon n-PPJ. Time-averaged Te of 2.0 eV and 1.0 eV inside and outside the tube, respectively, were measured. The streamer dynamics of the n-PPJ is shown to be dependent on Te. [ABSTRACT FROM AUTHOR]

Published

2015

35. Spatio-temporally resolved electron temperature in argon radio-frequency capacitive discharge at atmospheric pressure.

Author

Sanghoo Park, Wonho Choe, Se Youn Moon, and Suk Jae Yoo

Subjects

*ELECTRON temperature measurement, *RADIO frequency discharges, *ARGON, *GLOW discharges, *ATMOSPHERIC pressure, *ELECTRIC discharge research

Abstract

Due to the lack of convincing experimental evidence for electron information, there are still unclearly understood discharge phenomena in atmospheric pressure radio-frequency (rf) capacitive discharge, e.g. the electron heating, discharge structures, and the alpha–gamma mode transition. Thus, to perceive basic and meaningful principles with an unambiguous interpretation, simple and reliable electron diagnostics are required. Since bremsstrahlung emitted through electron-neutral atom interaction depends on electron density (ne) and temperature (Te), their diagnostic is possible. In particular, Te is easily estimated from the ratio of bremsstrahlung emissivities at two different wavelengths or more. In this paper, 2D Te distribution in an argon atmospheric pressure capacitive discharge measured by using a digital camera and optical band pass filters is described. Time-averaged Te in the bulk region obtained by a digital camera is consistent with that measured by an absolutely calibrated spectrometer. In addition, time-resolved emission spectra and the corresponding ne and Te during one rf cycle of the argon capacitive discharge are discussed. The result shows that Te varied from 2.3 to 3.0 eV, while ne did not change significantly. [ABSTRACT FROM AUTHOR]

Published

2015

36. Control of core argon impurity profile by ECH in KSTAR L-mode plasmas.

Author

Joohwan Hong, Seung Hun Lee, Juhyung Kim, C.R. Seon, S.G. Lee, G.Y. Park, K.D. Lee, S.S. Henderson, H.Y. Lee, Jae Sun Park, Juhyeok Jang, Siwon Jang, Taemin Jeon, M. O'Mullane, and Wonho Choe

Subjects

ARGON analysis, ELECTRON cyclotron resonance heating, L-mode plasma confinement, SOFT X rays, ULTRAVIOLET radiation, NUCLEAR physics experiments

Abstract

Experiments on trace argon impurity transport in L-mode discharges were performed on Korea superconducting tokamak advanced research (KSTAR) with electron cyclotron resonance heating (ECH). Ar emission was measured by soft x-ray (SXR) arrays and vacuum UV (VUV) diagnostics. A significant reduction in the core Ar emissivity was observed with core ECH. The reduction was the largest with on-axis heating and became smaller with outward heating positions. The diffusivity and convection velocity of Ar were obtained by analysis of the SXR data with the SANCO impurity transport code for the on-axis ECH and the non-ECH shots. In the on-axis ECH case, both diffusivity and convection velocity increased. Furthermore, the convection changed its direction from inward to outward in the plasma core (r/a < 0.3), resulting in a hollow profile of the total Ar density. Together with the reduction in the SXR signals, the hollow impurity profile in the core and the reversal of the convection velocity consistently confirm that ECH can reduce impurity accumulation in the core region. Neoclassical impurity transport and linear stability of micro-turbulence were calculated and discussed in relation to the possible transport mechanism. [ABSTRACT FROM AUTHOR]

Published

2015

37. A two-dimensional particle-in-cell simulation of stationary plasma thruster discharges.

Author

Wang Sun Lim, Hae June Lee, Wonho Choe, and Jongho Seon

Published

2008

38. Effects of minimal exposures to atmospheric pressure plasma on the activity of Salmonella Typhimurium: Deactivation of bacterial motility and suppression of host-cell invasion.

Author

Jin-Sung Park, Kijung Kim, Je-Hyun Han, Bomi Gweon, Ung Hyun Ko, Suk Jae Yoo, Wonho Choe, and Shin, Jennifer H.

Subjects

*SALMONELLA typhimurium, *PLASMA gases, *STERILIZATION (Disinfection)

Abstract

Atmospheric pressure plasma (APP) has been shown effective in sterilization by reducing the number of viable microbes during surface cleaning, food processing, or human tissue treatment. For safe conduct, the majority of previous research focused on complete abolition of microbes, which may require severe treatments. Our aim is to investigate the minimal treatment conditions necessary for effective inactivation of bacteria in such a manner that the APP treated bacteria would not be able to harm the host cells. For this, we ought to identify the objective criteria to make the bacteria dysfunctional. We choose the motile properties and the host-cell invasion capability as two measures to quantify the pathogenic state of bacteria. In this paper, we investigated how the APP treatment in a minimal dosage affects the activity of Salmonella Typhimurium. At 100 W and 15 kHz for 20 s, the APP treatment effectively suppressed active "run and tumble" type motility and induced formation of abnormally long structures. With 20 s exposure, the bacterial cells failed to cause pyroptosis in the host cells with >90% survival after 12 h of co-incubation. Our results suggest novel measures to evaluate the functional pathogenic state for identifying safe APP treatment conditions. [ABSTRACT FROM AUTHOR]

Published

2016