Your search keyword '"Jun H Choi"' showing total 88 results

1. Early postnatal exposure to isoflurane causes cognitive deficits and disrupts development of newborn hippocampal neurons via activation of the mTOR pathway.

Author

Eunchai Kang, Danye Jiang, Yun Kyoung Ryu, Sanghee Lim, Minhye Kwak, Christy D Gray, Michael Xu, Jun H Choi, Sue Junn, Jieun Kim, Jing Xu, Michele Schaefer, Roger A Johns, Hongjun Song, Guo-Li Ming, and C David Mintz

Subjects

Biology (General), QH301-705.5

Abstract

Clinical and preclinical studies indicate that early postnatal exposure to anesthetics can lead to lasting deficits in learning and other cognitive processes. The mechanism underlying this phenomenon has not been clarified and there is no treatment currently available. Recent evidence suggests that anesthetics might cause persistent deficits in cognitive function by disrupting key events in brain development. The hippocampus, a brain region that is critical for learning and memory, contains a large number of neurons that develop in the early postnatal period, which are thus vulnerable to perturbation by anesthetic exposure. Using an in vivo mouse model we demonstrate abnormal development of dendrite arbors and dendritic spines in newly generated dentate gyrus granule cell neurons of the hippocampus after a clinically relevant isoflurane anesthesia exposure conducted at an early postnatal age. Furthermore, we find that isoflurane causes a sustained increase in activity in the mechanistic target of rapamycin pathway, and that inhibition of this pathway with rapamycin not only reverses the observed changes in neuronal development, but also substantially improves performance on behavioral tasks of spatial learning and memory that are impaired by isoflurane exposure. We conclude that isoflurane disrupts the development of hippocampal neurons generated in the early postnatal period by activating a well-defined neurodevelopmental disease pathway and that this phenotype can be reversed by pharmacologic inhibition.

Published

2017

2. Molecular Features and Treatment Paradigms of Acute Myeloid Leukemia

Author

Mihir Shukla, Maher Abdul-Hay, and Jun H. Choi

Subjects

acute myeloid leukemia, targeted therapy, molecular, Biology (General), QH301-705.5

Abstract

Acute myeloid leukemia (AML) is a common hematologic malignancy that is considered to be a disease of aging, and traditionally has been treated with induction chemotherapy, followed by consolidation chemotherapy and/or allogenic hematopoietic stem cell transplantation. More recently, with the use of next-generation sequencing and access to molecular information, targeted molecular approaches to the treatment of AML have been adopted. Molecular targeting is gaining prominence, as AML mostly afflicts the elderly population, who often cannot tolerate traditional chemotherapy. Understanding molecular changes at the gene level is also important for accurate disease classification, risk stratification, and prognosis, allowing for more personalized medicine. Some mutations are well studied and have an established gene-specific therapy, including FLT3 and IDH1/2, while others are being investigated in clinical trials. However, data on most known mutations in AML are still minimal and therapeutic studies are in pre-clinical stages, highlighting the importance of further research and elucidation of the pathophysiology involving these genes. In this review, we aim to highlight the key molecular alterations and chromosomal changes that characterize AML, with a focus on pathophysiology, presently available treatment approaches, and future therapeutic options.

Published

2024

3. Fabrication of a Multilayer X-Band Band-Pass Metasurface Using Liquid Metal

Author

Arkadeep Mitra, Kevin Xu, Komlan Payne, Jun H. Choi, and Jeong-Bong Lee

Subjects

Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials

Published

2022

4. Multiphysics Analysis of Plasma-Based Tunable Absorber for High-Power Microwave Applications

Author

Jun H. Choi, Komlan Payne, Kevin Xu, and Jay Kyoon Lee

Subjects

Transient state, Materials science, Band-pass filter, business.industry, Multiphysics, Heat transfer, Optoelectronics, Electrical and Electronic Engineering, business, Absorption (electromagnetic radiation), Electromagnetic interference, Microwave, Electromagnetic pulse

Abstract

Power handling capability of a tunable plasma-based multilayer absorber is studied using multiphysics analysis, then validated by experimental data. The proposed two-pole absorber is based on conductor-backed thickness customizable high-order bandpass frequency-selective surfaces (FSSs). Such technique allows simple integration of the tuning elements, while simultaneously providing the option to realize FSSs (including absorbers) with specific/desired thicknesses and transfer responses. Lossy magnetodielectric slabs, used to absorb electromagnetic (EM) energy in the $C$ -band, are added between the metallic layers. The lossy slabs are perforated to host discrete, electrically tunable, ceramic gas-encapsulating chambers (plasma-shells), enabling dynamic control of the absorption spectral band. To study the power handling capability of the proposed multilayered tunable absorber, dielectric and air breakdowns within the device are numerically emulated using EM simulation by quantifying the maximum field enhancement factor (MFEF). Furthermore, a comprehensive thermal analysis using a simulation method that couples EMs and heat transfer is performed for the absorber under high-power continuous microwave excitations. Since the heat generated within the absorber is a primary concern, the steady state as well as transient state temperature distributions have been evaluated for various incident power densities. The performance of the proposed absorber is validated for a prototype having a finite size of $13\times13$ cm2.

Published

2021

5. Flexible Liquid-Metal-Tuned Absorber

Author

Kevin Xu, Zhi Li, and Jun H. Choi

Published

2022

6. Bandwidth Enhanced Equal-Split Planar Knochel-Mayer Power Divider Capable of High Power Handling for Antenna Feed Applications

Author

Jeremy Furgal, Jun H. Choi, and Jay K. Lee

Published

2022

7. A W-band Rectifier Design Based on GCPW

Author

Nathan Chordas-Ewell, Zhi Li, Jun H. Choi, Dongyin Ren, and Ryan Wu

Published

2022

8. Characterization of Shorted Dipole Antennas for Low-Cost RFID Reader Applications

Author

Zhan Wang, Jun H. Choi, Yongsheng Pan, and Yuandan Dong

Subjects

Physics, business.industry, 020206 networking & telecommunications, 02 engineering and technology, Inductor, law.invention, Dipole, Optics, law, 0202 electrical engineering, electronic engineering, information engineering, Miniaturization, Dipole antenna, Electrical and Electronic Engineering, Antenna (radio), business, Omnidirectional antenna, Electrical impedance, Beam (structure)

Abstract

This article presents a comprehensive study on shorted dipole antennas aiming for low-cost radio frequency identification (RFID) reader applications. Starting from a low-profile shorted bowtie dipole antenna, it is found that by varying the shorting wall position, three different types of resonant antennas could be realized with different radiation features. A low-profile planar inverted F antenna (PIFA) -type dipole is obtained by moving the shorting wall toward the feeding, which exhibits a low resonance frequency without obvious back lobe radiation or sidelobes. When the shorting wall is placed in the middle of the radiating patch, a mushroom-type dipole antenna can be built. A zeroth-order mode is also observed. This structure differs from the magnetoelectric dipole due to a low-profile structure. Placing the wall toward the end of the dipole arm leads to a loop-type antenna with a broader beam and a reduced gain. It also shifts the resonance toward the higher frequency. Based on the PIFA- and mushroom-type structures, two circularly polarized antennas with crossed shorted dipoles are designed and investigated carefully. Finally, two optimized, compact, and low-cost RFID reader antennas based on simple metal stamping process and screws are designed, fabricated, and tested, showing an excellent RF reading range. This study demonstrates that for the shorted dipole antennas, miniaturization and bandwidth control can be achieved simultaneously. Particularly, for higher gain and smaller size, the shorting wall should be placed close to the feeding to suppress the loop mode. For omnidirectional radiation, the loop mode should be enhanced by moving the shorting wall close to the end of the dipole arm.

Published

2020

9. All-Printed Conformal High-Temperature Electronics on Flexible Ceramics

Author

Yong Hu, John Olenick, Scott Scheers, Chi Zhou, Shenqiang Ren, Saurabh Khuje, Yulong Huang, Kevin Xu, Lu An, Shuquan Chang, Jun H. Choi, Kathy Olenick, Aditya Chivate, and Zheng Li

Subjects

Materials science, business.industry, High temperature electronics, Conformal map, Electronic, Optical and Magnetic Materials, Metal nanowires, Printed electronics, visual_art, Thermal, Materials Chemistry, Electrochemistry, visual_art.visual_art_medium, Optoelectronics, Electronics, Ceramic, business

Abstract

Each year, Cu is used in more than 60% of electrical applications due to its excellent electrical, thermal, and mechanical properties. Here, we report all-printed flexible conformal electronics con...

Published

2020

10. Multi-Band Array Using a Multiplexed Antenna Feed Composed of CRLH Transmission Line-Based Dual Band Isolation Circuits

Author

Jeremy Furgal, Hanseung Lee, Jun H. Choi, and Jay K. Lee

Published

2021

11. Liquid-Metal-Tuned Patch Element for Flexible and Reconfigurable Reflectarrays/Intelligent Surfaces

Author

Kevin Xu and Jun H. Choi

Published

2021

12. Stripline- Based W- Band Frequency Scanning Composite Right/Left-Handed Leaky-Wave Antenna with a Tapered Aperture for Narrow Beamwidth

Author

Ryan Wu, Jorge L. Salazar-Cerreno, Zeeshan Qamar, Jun H. Choi, Dongyin Ren, Nafati Aboserwal, Nathan Chordas-Ewell, and Zhi Li

Subjects

Physics, Beamwidth, Optics, W band, Aperture, business.industry, Leaky wave antenna, Antenna aperture, Composite number, Antenna (radio), business, Stripline

Abstract

A stripline-based composite right/left-handed (CRLH) leaky-wave antenna (LWA) with a tapered aperture is designed for an increased effective aperture size. Experimental results show that the CRLH LWA is able to scan from −33° to 25.5° by sweeping the frequency from 76.75 GHz to 83 GHz, with a half-nower heamwidth (HPRW) of less than 5°.

Published

2021

13. Frequency Scanning Reflectarray Based on Composite Right/Left-Handed Transmission Lines

Author

Zhi Li, Nathan Chordas-Ewell, Jun H. Choi, and Kevin Xu

Subjects

Physics, Left handed, Electric power transmission, Optics, business.industry, Phase advance, Composite number, Broadband, Phase slope, Center frequency, business, Beam (structure)

Abstract

This paper presents a new design method, based on composite right/left-handed (CRLH) transmission lines (TLs), to realize frequency scanning reflectarrays. The proposed technique enables continuous steering of the reflected beam toward both positive and negative elevation angles, by simply connecting customizable progressive phase advance/delay lines to the existing delay lines of a broadband reflectarray. This unique feature would otherwise not be possible using conventional right-handed delay lines due to impractical physical lengths and lack of control over the phase slope. A small prototype array of 4 × 3 elements operating at a center frequency of 2.5 GHz is designed, fabricated, and measured to demonstrate the frequency scanning enhancement provided by the CRLH TLs.

Published

2021

14. Microstrip patch back radiation reduction using metamaterial superstrate

Author

Ali Soleimani, Amir Jafargholi, Mehdi Veysi, Jun H. Choi, and Ali Jafargholi

Subjects

Patch antenna, Waveguide (electromagnetism), Materials science, business.industry, 020208 electrical & electronic engineering, Metamaterial, 020206 networking & telecommunications, 02 engineering and technology, Microstrip, Microstrip antenna, Optics, Front-to-back ratio, Surface wave, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Antenna (radio), business

Abstract

The capability of the capacitively loaded loop (CLL) metamaterial (MTM) superstrate to attenuate surface waves thereby reducing the back radiation of microstrip patch antennas is examined. To understand the surface wave suppression mechanism, theoretical approaches of a grounded dielectric slab waveguide is provided. Both theoretical and numerical analyses show that the proposed superstrate causes a drastic attenuation of surface wave propagation. To confirm the numerical simulations, the proposed antenna is fabricated and tested. The dimensions of the CLL-MTM covered patch antenna are 0.6λ × 0.8λ × 0.14λ. The radiated gain and efficiency are measured at 7.8 dB and 95%, respectively. Measurements show that the front-to-back ratio is enhanced by more than 12 dB. In comparison with the patch antenna without the CLL-MTM superstrate, the proposed antenna reduces the gain and efficiency by less than 0.1 dB and 2%, respectively.

Published

2019

15. Compact Dielectric-Permittivity Sensors of Liquid Samples Based on Substrate-Integrated-Waveguide With Negative-Order-Resonance

Author

Hanseung Lee, Jun H. Choi, Jose L. Medina-Monroy, and Humberto Lobato-Morales

Subjects

Permittivity, Waveguide (electromagnetism), Materials science, business.industry, 010401 analytical chemistry, Resonance, Dielectric, 01 natural sciences, 0104 chemical sciences, Resonator, Q factor, Miniaturization, Optoelectronics, Sensitivity (control systems), Electrical and Electronic Engineering, business, Instrumentation

Abstract

This paper presents the design and experimental test of dielectric permittivity sensors based on negative-order-resonances (NOR), which is supported by composite-right-left-hand (CRLH) structures. The proposed type of sensors is realized using high quality ${Q}$ -factor CRLH substrate-integrated-waveguide (SIW) resonator. By using the first NOR, −1st mode, a significant level of miniaturization is obtained; and moreover, this mode presents higher sensitivity over the 0th and +1st modes. To validate the proposed concept, testing results for five liquid samples are presented.

Published

2019

16. Electrically Tunable Microwave Absorber Based on Discrete Plasma-Shells

Author

Kevin Xu, Komlan Payne, Jun H. Choi, and Jay Kyoon Lee

Subjects

Materials science, business.industry, Capacitive sensing, 020206 networking & telecommunications, Biasing, 02 engineering and technology, Inductor, Physics::Plasma Physics, Transmission line, 0202 electrical engineering, electronic engineering, information engineering, Equivalent circuit, Optoelectronics, Radio frequency, Voltage source, Electrical and Electronic Engineering, business, Microwave

Abstract

This paper presents the feasibility of deploying a large-scale tunable absorber based on discrete plasma-shells. The proposed conductor-backed absorber is realized by integrating ceramic gas-encapsulating chambers (plasma-shells) and a closely coupled lossy resonant layer that also serves as a biasing electrode to sustain the plasma. Two topologies comprising lossy inductive or capacitive layers are investigated to realize tunable microwave absorbers. The plasma is sustained by a sinusoidal radio frequency (RF) voltage source coupled directly through the walls of the plasma-shells. These active frequency-selective absorbers are analyzed using a transmission line approach to provide the working principle and its frequency tuning capability. By varying the voltage of the sustainer, the plasma can be modeled as a lossy, variable, frequency-dependent inductor, providing a dynamic tuning response of the absorption spectral band. A prototype plasma-tuned absorber is fabricated and measured in a free space environment to validate the concept. A good agreement between the equivalent circuit model, full-wave electromagnetic simulation, and the measurement results is obtained.

Published

2019

17. Mutual Coupling Reduction in an Array of Patch Antennas Using CLL Metamaterial Superstrate for MIMO Applications

Author

Jun H. Choi, Ali Jafargholi, and Amir Jafargholi

Subjects

Coupling, Physics, business.industry, Attenuation, MIMO, Metamaterial, 020206 networking & telecommunications, 02 engineering and technology, Microstrip, Reduction (complexity), Optics, Surface wave, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Antenna (radio), business

Abstract

The capability of a magnetodielectric superstrate to suppress the surface wave propagation is investigated. It is shown that the capacitively loaded loop (CLL) metamaterial (MTM) superstrate exhibits a high degree of surface wave attenuation. One of the important applications of such structure is to reduce the mutual coupling between the microstrip patch elements in array antennas. The results of numerical simulations show a significant reduction in the mutual coupling between the antenna elements. To verify and confirm the simulation results, a prototype of the CLL-MTM superstrate incorporating an array of rectangular patch antennas are fabricated and tested. The proposed two-element array antenna has a dimension of approximately $1.6\lambda \times 0.9\lambda \times 0.16\lambda $ while achieving a gain and an efficiency of 8.2 dB and 97%, respectively. Measurement shows the mutual coupling reduction of over 55 dB. The CLL-MTM superstrate provides the gain and efficiency almost the same of unloaded array antennas with 0.1 dB and 2% changes, respectively.

Published

2019

18. Liquid Metal-Based Flexible Band-Stop Frequency Selective Surface

Author

Arkadeep Mitra, Jun H. Choi, Jeong-Bong Lee, Kevin Xu, and Sachin Babu

Subjects

Waveguide (electromagnetism), Liquid metal, Materials science, Fabrication, business.industry, 020209 energy, Microfluidics, chemistry.chemical_element, 020206 networking & telecommunications, 02 engineering and technology, Cryogenics, medicine.disease_cause, chemistry, Mold, Torr, 0202 electrical engineering, electronic engineering, information engineering, medicine, Optoelectronics, Gallium, business

Abstract

We report the design, fabrication, and characterization of PDMS encapsulated physically flexible (bendable, foldable) gallium-based liquid metal band-stop frequency selective surface. A band-stop frequency selective surface (FSS) with targeted operation in the X-band (7~11.2 GHz) was designed. Liquid metal was embedded in PDMS microfluidic channels replicated from a deep etched Si mold. Ultra-low pressure (5.75 x 10-6 Torr) vacuum at cryogenic temperatures (10 K) was employed for clean encapsulation of liquid metal. An array of 5 x 5 FSS has been fabricated. Characterization of the fabricated FSS was carried out in a waveguide environment. The S-parameter values of the simulated and measured band-stop FSS response showed an excellent agreement.

Published

2021

19. Early Isoflurane Exposure Impairs Synaptic Development in Fmr1 KO Mice via the mTOR Pathway

Author

Jun H. Choi, C. David Mintz, R. Paige Mathena, Jing Xu, and Jieqiong Wen

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Biochemistry, Synapse, 03 medical and health sciences, Cellular and Molecular Neuroscience, Fragile X Mental Retardation Protein, 0302 clinical medicine, Pregnancy, Internal medicine, medicine, Animals, PI3K/AKT/mTOR pathway, Mice, Knockout, Neurons, Sirolimus, Gephyrin, biology, Isoflurane, TOR Serine-Threonine Kinases, Membrane Proteins, General Medicine, Synapsins, FMR1, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Toxicity, Anesthetics, Inhalation, Synapses, biology.protein, Immunohistochemistry, Female, Neuron, Disks Large Homolog 4 Protein, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction

Abstract

General anesthetics (GAs) may cause disruptions in brain development, and the effect of GA exposure in the setting of pre-existing neurodevelopmental disease is unknown. We tested the hypothesis that synaptic development is more vulnerable to GA-induced deficits in a mouse model of fragile X syndrome than in WT mice and asked whether they were related to the mTOR pathway, a signaling system implicated in both anesthesia toxicity and fragile X syndrome. Early postnatal WT and Fmr1-KO mice were exposed to isoflurane and brain slices were collected in adulthood. Primary neuron cultures isolated from WT and Fmr1-KO mice were exposed to isoflurane during development, in some cases treated with rapamycin, and processed for immunohistochemistry at maturity. Quantitative immunofluorescence microscopy was conducted for synaptic markers and markers of mTOR pathway activity. Isoflurane exposure caused reduction in Synpasin-1, PSD-95, and Gephyrin puncta that was significantly lower in Fmr1-KO mice than in WT mice. Similar results were found in cell culture, where synapse loss was ameliorated with rapamycin treatment. Early developmental exposure to isoflurane causes more profound synapse loss in Fmr1- KO than WT mice, and this effect is mediated by a pathologic increase in mTOR pathway activity.

Published

2021

20. Broadband Equal-Split Planar 4-Way Power Divider/Combiner Suitable for High Power Applications

Author

Jun H. Choi, Jay Kyoon Lee, Jeremy Furgal, and Kevin Xu

Subjects

Computer science, 020208 electrical & electronic engineering, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Microstrip, law.invention, law, Broadbanding, Broadband, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Bandwidth (computing), Power dividers and directional couplers, Resistor, Stripline

Abstract

A 4-way equal-split in-phase power divider/combiner with broadband characteristics is presented in this paper. The proposed design uses a modified Gysel structure to enable heatsinking and design flexibility of the isolation resistors, while extending the bandwidth using a broadbanding technique previously only realizable for the 2-way case. By adapting a multi-layer microstrip/stripline topology with vertical interconnects, an N-way solution suitable for integration with planar technology can be achieved. A 4-way power divider/combiner prototype operating in the S-band is designed and fabricated, exhibiting bandwidth of over 30%. The measured results of the prototype show good agreement with full-wave EM simulation.

Published

2021

21. Via-Less Waveguide-to-Stripline Transition Using 2D Electromagnetic Bandgap Structure

Author

Kevin Xu, Zhi Li, Ryan Wu, Jun H. Choi, Nathan Chordas-Ewell, and Dongyin Ren

Subjects

Materials science, business.industry, Electromagnetic bandgap, 020208 electrical & electronic engineering, Structure (category theory), Metamaterial, 020206 networking & telecommunications, 02 engineering and technology, Flange, law.invention, law, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Insertion loss, business, Return loss bandwidth, Waveguide, Stripline

Abstract

A novel waveguide-to-stripline transition utilizing an electromagnetic bandgap (EBG) structure is presented. The proposed transition, which does not require vias or waveguide shorts, delivers a simpler implementation option and allows the stripline to be mounted directly to the flange of a waveguide. The EBG structure is added to suppress parallel plate mode propagation and to ensure the transition can maintain the desired performance when used with arbitrary board dimensions. A 1.0dB insertion loss from 10.6GHz to 11.5GHz and a 10dB return loss bandwidth of 8.1% are achieved and verified by measurement.

Published

2021

22. Vibrating Antenna Doppler Radar

Author

Adly T. Fam, Ravi Kadlimatti, Nathan Chordas-Ewell, Jun H. Choi, and Kevin Xu

Subjects

Physics, Aperture, Direction finding, Acoustics, Doppler radar, Beam steering, Astrophysics::Instrumentation and Methods for Astrophysics, 020206 networking & telecommunications, 02 engineering and technology, law.invention, symbols.namesake, Direct-conversion receiver, law, 0202 electrical engineering, electronic engineering, information engineering, symbols, Radar, Antenna (radio), Doppler effect, Computer Science::Information Theory

Abstract

This paper presents a new method of gaining spatial resolution in continuous wave (CW) Doppler radars by using a vibrating antenna. Resolution of direction finding, though conventionally controlled through beam steering or other circuitry, is decoupled from the antenna and front-end circuitry by vibrating the antenna in a controlled fashion. It is shown that vibrating an antenna results in an induced Doppler shift, whereby the return from each spatial angle has a different Doppler frequency. This allows for smaller aperture antennas or antenna arrays to be used in place of larger aperture antennas or antenna arrays, thereby reducing the overall system's size and complexity. As a proof of concept, a single vibrating antenna radar is designed, fabricated, and tested in order to verify the angle finding capability for a single, as well as multiple targets. This method may also be expanded into two-dimensional detection by integrating a vibrating one-dimensional array.

Published

2021

23. Liquid‐Metal‐Enabled Flexible Metasurface with Self‐Healing Characteristics

Author

Arkadeep Mitra, Kevin Xu, Sachin Babu, Jun H. Choi, and Jeong‐Bong Lee

Subjects

Mechanics of Materials, Mechanical Engineering

Published

2022

24. Flexible Liquid Metal Frequency Selective Surface With Tunable Second-Order Bandpass Response

Author

Jay Kyoon Lee, Jun H. Choi, Komlan Payne, Jeong-Bong Lee, and Kevin Xu

Subjects

Liquid metal, Materials science, business.industry, Aperture, 010401 analytical chemistry, chemistry.chemical_element, 020206 networking & telecommunications, 02 engineering and technology, Elastomer, 01 natural sciences, Capacitance, 0104 chemical sciences, Physics::Fluid Dynamics, chemistry, Band-pass filter, Filter (video), 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Gallium, business, Layer (electronics)

Abstract

A flexible, fluidically tunable, second-order bandpass frequency selective surface (FSS) operating in the X-band is presented in this paper. The proposed multilayer structure utilizes elastomeric microfluidic channels to enclose and allow precise movement of gallium-based liquid metal slugs, while preserving its mechanically flexible nature. The liquid metal slug tuning elements are integrated into two periodic Jerusalem cross layers, which are coupled together through a periodic square aperture layer. By pneumatically shifting the position of the liquid metal slugs, the capacitance between adjacent Jerusalem cross elements can be linearly tuned, with high precision, to shift the operating frequency range of the filter in real time. Full-wave simulation of the bandpass FSS is performed for three different liquid metal slug orientations to demonstrate the tunability of the design.

Published

2020

25. Frequency-Tunable Dual-Band and Polarization-Flexible CRLH SIW Resonant Antenna

Author

Dongyin Ren, Hanseung Lee, Jun H. Choi, and Dongjin Jung

Subjects

Physics, Printed circuit board, business.industry, Radiative transfer, Optoelectronics, Multi-band device, Radiation, Antenna (radio), Communications system, business, Polarization (waves), Lambda

Abstract

As communication systems demand compact size and multi-functionality, advanced antenna elements with radiative feature including frequency-tunability, multi-band functionality, and polarization-flexibility are highly sought after. This paper presents a novel antenna structure delivering abovementioned desirable features. The antenna is fabricated on a single printed circuit board and tuned using varactors. The simulated results correspond well with the measured results. The proposed antenna shows frequency tuning range from 1.54 GHz to 2 GHz at first radiation band. Second radiation appears at around 5.3 GHz. The antenna has a very compact size of around 0.1\ {\lambda_{\mathrm{g}}}^{2}$ and 0.7\ {\lambda_{\mathrm{g}}}^{2}$ at first and second radiation frequencies, respectively.

Published

2020

26. 1D & 2D W-band Frequency Scanning Metamaterial Antenna and Array

Author

Ryan Wu, Zhi Li, Jun H. Choi, and Dongyin Ren

Subjects

Physics, business.industry, Leaky wave antenna, Beam steering, 020206 networking & telecommunications, 02 engineering and technology, Microstrip, Microstrip antenna, Optics, W band, 0202 electrical engineering, electronic engineering, information engineering, Antenna (radio), business, Stripline, Metamaterial antenna

Abstract

1D & 2D W-band frequency scanning metamaterial antenna and array are proposed in this paper. Unlike the traditional microstrip-based design [1], we hereby highlight a relatively lower cost/loss antenna solution to the W-band beam steering application using stripline-based composite right/left handed (CRLH) leaky wave antenna (LWA). Our proposed passive CRLH LWA element is able to deliver positive, zero, and negative phase progression from 76 GHz to 81 GHz, thereby ensuring the backward (−28°) to forward (23°) fan beam frequency scanning when CRLH unit cells are periodically cascaded to form a 1D CRLH LWA. To further broaden the frequency mapping range to the hemisphere, we have also realized a 2D CRLH LWA that can produce highly directive pencil-beam radiation patterns. A coverage area of about −10° to 10° by −28° to 23° in elevation angle along the two orthogonal planes with a maximum gain of 26.1 dBi is realized by the proposed 2D CRLH LWA. In-depth analysis and simulated validation of both 1D/2D designs in this paper confirm the aforementioned functionalities.

Published

2020

27. Targeting Apoptosis in Acute Myeloid Leukemia: Current Status and Future Directions of BCL-2 Inhibition with Venetoclax and Beyond

Author

Jun H. Choi, Raoul Tibes, and James M Bogenberger

Subjects

0301 basic medicine, Cancer Research, Myeloid, Antineoplastic Agents, Apoptosis, Inhibitor of apoptosis, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cyclin-dependent kinase, Medicine, Humans, Pharmacology (medical), Sulfonamides, biology, business.industry, Venetoclax, Myeloid leukemia, medicine.disease, Bridged Bicyclo Compounds, Heterocyclic, Leukemia, Leukemia, Myeloid, Acute, 030104 developmental biology, medicine.anatomical_structure, Oncology, chemistry, Drug development, Proto-Oncogene Proteins c-bcl-2, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Mdm2, business

Abstract

Acute myeloid leukemia (AML) is a disease of the hematopoietic system that remains a therapeutic challenge despite advances in our understanding of the underlying cancer biology over the past decade. Recent developments in molecular targeting have shown promising results in treating leukemia, paving the way for novel treatment strategies. The discovery of drugs that promote apoptosis in leukemic cells has translated to encouraging activity in clinical trials. B-cell lymphoma (BCL)-2 inhibition has been at the center of drug development efforts to target apoptosis in AML. Remarkable clinical success with venetoclax has revolutionized the ways we treat hematological malignancies. Several landmark trials have demonstrated the potent antitumor activity of venetoclax, and it is now frequently combined with traditional cytotoxic agents to treat AML. However, resistance to BCL-2 inhibition is emerging, and alternative strategies to address resistance mechanisms have become an important focus of research. A number of clinical trials are now underway to investigate a plurality of novel agents that were shown to overcome resistance to BCL-2 inhibition in preclinical models. Some of the most promising data come from studies on drugs that downregulate myeloid cell leukemia (MCL)-1, such as cyclin-dependent kinases (CDK) inhibitors. Furthermore, innovative approaches to target apoptosis via extrinsic pathways and p53 regulation have added new cytotoxic agents to the arsenal, including drugs that inhibit inhibitor of apoptosis protein (IAP) family proteins and murine double minute 2 (MDM2). This review provides a perspective on past and current treatment strategies harnessing various mechanisms of apoptosis to target AML and highlights some important promising treatment combinations in development.

Published

2020

28. Evolution of the Epigenetic Landscape in Childhood B Acute Lymphoblastic Leukemia and Its Role in Drug Resistance

Author

Elizabeth A. Raetz, Mignon L. Loh, Stephen P. Hunger, Xiaotu Ma, Sonali Narang, Christopher E. Mason, Nikki A. Evensen, Kylie M. Getz, Aristotelis Tsirigos, Jun H. Choi, Shella Saint Fleur-Lominy, Stephen Kelly, Gunjan Sethia, Cem Meydan, Richard C. Harvey, Jun J. Yang, Teena Bhatla, William L. Carroll, Patrick A. Brown, and Cheryl L. Willman

Subjects

0301 basic medicine, Male, Cancer Research, Adolescent, Biology, Somatic evolution in cancer, Article, Epigenesis, Genetic, Clonal Evolution, Histones, 03 medical and health sciences, 0302 clinical medicine, Recurrence, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, Humans, Epigenetics, Child, Promoter Regions, Genetic, Regulation of gene expression, Gene Expression Regulation, Leukemic, Epigenome, DNA Methylation, Chromatin, 030104 developmental biology, Enhancer Elements, Genetic, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Reduced representation bisulfite sequencing, Child, Preschool, DNA methylation, Cancer research, Female, Chromatin immunoprecipitation

Abstract

Although B-cell acute lymphoblastic leukemia (B-ALL) is the most common malignancy in children and while highly curable, it remains a leading cause of cancer-related mortality. The outgrowth of tumor subclones carrying mutations in genes responsible for resistance to therapy has led to a Darwinian model of clonal selection. Previous work has indicated that alterations in the epigenome might contribute to clonal selection, yet the extent to which the chromatin state is altered under the selective pressures of therapy is unknown. To address this, we performed chromatin immunoprecipitation, gene expression analysis, and enhanced reduced representation bisulfite sequencing on a cohort of paired diagnosis and relapse samples from individual patients who all but one relapsed within 36 months of initial diagnosis. The chromatin state at diagnosis varied widely among patients, while the majority of peaks remained stable between diagnosis and relapse. Yet a significant fraction was either lost or newly gained, with some patients showing few differences and others showing massive changes of the epigenetic state. Evolution of the epigenome was associated with pathways previously linked to therapy resistance as well as novel candidate pathways through alterations in pyrimidine biosynthesis and downregulation of polycomb repressive complex 2 targets. Three novel, relapse-specific superenhancers were shared by a majority of patients including one associated with S100A8, the top upregulated gene seen at relapse in childhood B-ALL. Overall, our results support a role of the epigenome in clonal evolution and uncover new candidate pathways associated with relapse. Significance: This study suggests a major role for epigenetic mechanisms in driving clonal evolution in B-ALL and identifies novel pathways associated with drug resistance.

Published

2020

29. Miniaturized Active Metamaterial Resonant Antenna With Improved Radiation Performance Based on Negative-Resistance-Enhanced CRLH Transmission Lines

Author

Jun H. Choi, Sanghyun Han, Kepei Sun, and Jay Kyoon Lee

Subjects

Materials science, business.industry, Negative resistance, Metamaterial, 020206 networking & telecommunications, 02 engineering and technology, 021001 nanoscience & nanotechnology, Microstrip, Microstrip antenna, Resonator, Transmission line, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Electrical and Electronic Engineering, Antenna (radio), 0210 nano-technology, business, Electronic circuit

Abstract

In this letter, a miniaturized microstrip resonant antenna (MRA) based on the active metamaterial resonator is presented. Unlike the passive composite right/left-handed (CRLH) resonators, the presented active metamaterial resonators are realized using the negative-resistance-enhanced CRLH transmission line that incorporates active circuits for loss compensation. The active circuit uses bipolar junction transfer in its inverted-common-collector configuration to provide a negative resistance for the proposed active MRA. The presented passive and active antennas both operate in the negative-first-order resonance mode and thus have reduced dimensions compared to the conventional planar MRAs. The integration of the active elements delivers higher radiation gain compared to the passive negative-order CRLH resonator antenna. The passive and active antennas were fabricated, and the measured results are presented to validate the concept.

Published

2018

30. Plasma-Enabled Adaptive Absorber for High-Power Microwave Applications

Author

Jun H. Choi, Komlan Payne, Kevin Xu, and Jay Kyoon Lee

Subjects

Nuclear and High Energy Physics, Materials science, business.industry, Bandwidth (signal processing), Tunable metamaterials, 020206 networking & telecommunications, 02 engineering and technology, Plasma, Condensed Matter Physics, Plasma oscillation, 01 natural sciences, Design guide, Microwave applications, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Center frequency, 010306 general physics, business, Microwave, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

The feasibility of realizing an adaptive absorber subject to high-power microwave/electromagnetic (EM) pulse is investigated. To achieve this goal, a passive absorber based on circuit analog topology is designed and then embedded with active components to enable tunability/adaptivity of the absorption bandwidth. This tuning mechanism can be achieved using discrete plasma shells embedded in a low-profile frequency selective surface-based absorber. The absorption center frequency and bandwidth can be tuned by controlling the plasma frequency. A systematic design guide is presented to explain the working principle of the proposed absorber. The proposed design is insensitive to the polarization, and the absorption bandwidth is enhanced by controlling two spectrally overlapped resonances. A full wave EM simulation is performed to present the performance of the proposed absorber. Finally, the peak power handling capability of the active absorber has been investigated.

Published

2018

31. Vivaldi Antenna With Pattern Diversity for 0.7 to 2.7 GHz Cellular Band Applications

Author

Tatsuo Itoh, Yuandan Dong, and Jun H. Choi

Subjects

Physics, Antenna radiation patterns, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Radiation, Microstrip, law.invention, Base station, Planar, law, 0202 electrical engineering, electronic engineering, information engineering, Radiator (engine cooling), Electrical and Electronic Engineering, Antenna (radio), Vivaldi antenna

Abstract

This letter describes a planar ultrawideband Vivaldi antenna for base-station pattern diversity applications. It is designed to cover most of the cellular and LTE bands, a very wide frequency range from 0.7 to 2.7 GHz. It is formed by two adjacent Vivaldi tapered slots with a rotated angle of 29° between them. The antenna is miniaturized by sharing some common structure and cutting the noncritical board area. It is designed step by step from a single Vivaldi element with a microstrip line feeding to a dual-slot pattern diversity radiator with uniform radiation patterns. It is fabricated and tested inside a near-field chamber. The radiation performance, including both in-phase and 180° out-of-phase differential feeding cases, is verified by simulation as well as experiment. The measured results show good agreement with the simulation. It could be useful for base station and other smart array systems.

Published

2018

32. Generalized Synthesized Technique for the Design of Thickness Customizable High-Order Bandpass Frequency-Selective Surface

Author

Kevin Xu, Jun H. Choi, and Komlan Payne

Subjects

Radiation, Materials science, Bandwidth (signal processing), 020206 networking & telecommunications, 02 engineering and technology, Dielectric, Condensed Matter Physics, Topology, 01 natural sciences, 010305 fluids & plasmas, Controllability, Resonator, Band-pass filter, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Equivalent circuit, Electrical and Electronic Engineering, Center frequency

Abstract

This paper presents a design guide for the implementation of thickness customizable high-order ( $N \ge 2$ ) bandpass frequency-selective surface (FSS). Admittance inverters are used to synthesize the filter response given desired characteristics such as filter type, center frequency, and bandwidth. The spatial inverter layers are essentially electromagnetic coupling interlayers that can be adjusted to customize the thickness of multilayered FSS without degrading the desired filter performance. A generalized equivalent circuit is used to provide physical insights of the proposed design. This synthesized technique can be adopted to deliver a versatile implementation capability of high-order FSS filters using various dielectric spacers with arbitrary thicknesses. Such a technique enables the realization of spatial filters with variable weight and size, while maintaining the desired filter response. To highlight its thickness controllability, a third-order bandpass FSS operating at the X-band (center frequency at $f_{0} = 10$ GHz) with $\approx 10$ % fractional bandwidth is synthesized in four different thickness configurations (electrical size varying from $\lambda _{0}$ /12 to $\lambda _{0}$ /6). The simulation results of all the four thickness customized configurations deliver the same filter response. To validate the proposed technique, two prototypes among the four design configurations are fabricated and measured in a free-space environment. Simulated and measured results show good agreement.

Published

2018

33. Integrated Full-Hemisphere Space-to-Frequency Mapping Antenna With CRLH Stripline Feed Network

Author

Michael D. Enders, Jay Kyoon Lee, and Jun H. Choi

Subjects

Radiation, Computer science, Beam steering, 020206 networking & telecommunications, 02 engineering and technology, Condensed Matter Physics, 01 natural sciences, Microstrip, 010305 fluids & plasmas, law.invention, Antenna array, Electric power transmission, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Radar, Antenna (radio), Sensitivity (electronics), Stripline

Abstract

A planar 2-D antenna array capable of mapping a full-hemisphere space to frequencies around 6 GHz is presented. It was designed using composite right-/left-handed transmission lines for the series feed network as well as for the radiating elements, thus achieving size reduction and beam steering control simplification compared to other approaches. Stripline fabrication technology is utilized to eliminate the undesired feed network radiation. A via-less unit cell reduces sensitivity to via misplacement. The result is an antenna that can be used for radar or imaging applications with the appropriate transmit/receive circuitry. Validation is provided by pattern measurements and successful detection of reflective targets.

Published

2018

34. Series Feed Networks for Dual-Polarized Frequency Scanning Phased Array Antenna Based on Composite Right/Left-Handed Transmission Line

Author

Tatsuo Itoh, Jun H. Choi, and Dongyin Ren

Subjects

Physics, Radiation, Phased array, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Condensed Matter Physics, Directivity, Beamwidth, Transmission line, Broadband, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Feed line, Antenna feed, Electrical and Electronic Engineering, Antenna (radio)

Abstract

In this paper, series feed networks based on composite right/left-handed transmission line for dual-polarized frequency scanning phased array antenna are presented. The proposed all-passive feed networks provide unique frequency dispersion and adjustable current amplitude distribution, which enable continuous backward-to-forward beam scanning capability as well as the directivity, beamwidth, and sidelobe level controllability of the incorporated array antenna. The working mechanisms are demonstrated through broadband dual-polarized aperture-coupled antenna elements and series feed networks that support uniform/binomial current amplitude distributions. Backward-to-forward frequency beam scanning and wide range beam shaping capability for dual-polarization states of the proposed phased array are validated in both simulation and measurement.

Published

2017

35. Supporting Wide-Band Circular Polarization: CRLH Networks for High-Performance CP Antenna Arrays

Author

Joshua M. Kovitz, Jun H. Choi, and Yahya Rahmat-Samii

Subjects

Engineering, Radiation, business.industry, Axial ratio, Bandwidth (signal processing), 020206 networking & telecommunications, 02 engineering and technology, Condensed Matter Physics, Polarization (waves), 01 natural sciences, Optics, Picosecond, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Wide band, Electrical and Electronic Engineering, Wideband, 010306 general physics, business, Circular polarization, Microwave

Abstract

Supporting wide-band circular polarization (CP) over broad bandwidths poses a significant challenge for patch antennas and arrays. In any CP antenna, not only must the antenna's impedance-matching requirements be met; the circularity of the radiated wave polarization must be considered as well [1]. The circularity can be defined by a wave?s axial ratio (AR), which describes the variation of the instantaneous electric field magnitude versus time. An AR of lower than 3 dB is usually sufficient to ensure good circularity, although many high-performance applications demand 1 dB or less. The difficulty is in the timing of the two polarizations created to form the CP wave. At microwave frequencies, even errors on the order of tens of picoseconds can dramatically worsen the circularity.

Published

2017

36. Folded Strip/Slot Antenna With Extended Bandwidth for WLAN Application

Author

Yuandan Dong, Jun H. Choi, and Tatsuo Itoh

Subjects

Physics, business.industry, Loop antenna, 020208 electrical & electronic engineering, Antenna measurement, Electrical engineering, 020206 networking & telecommunications, Slot antenna, 02 engineering and technology, Antenna efficiency, law.invention, Folded inverted conformal antenna, Microstrip antenna, law, 0202 electrical engineering, electronic engineering, information engineering, Dipole antenna, Electrical and Electronic Engineering, business, Monopole antenna

Abstract

A compact and novel printed antenna for 2.4-GHz WLAN/Zigbee/Bluetooth applications is proposed in this letter. To extend the bandwidth, a strip mode and a slot mode are combined together, which generate a dual-mode response inside the radiating band. To miniaturize the overall size, the structure is folded in order to fully utilize the available antenna space. The antenna is fabricated on a 1-mm FR4 board and excited by an SMA connector using a short microstrip line. It achieves a –10-dB bandwidth of 5.09% with a compact size of 0.073 λ 0 × 0.052 λ 0 × 0.008 λ 0 (9.2 × 6.5 × 1 mm3) and an in-band radiation efficiency above 73%. It is small and low-profile, which can be fabricated at a low cost using the standard printed circuit board (PCB) process. It shows good radiation performance and therefore is suitable for applications in Internet of Things and smart home devices.

Published

2017

37. L‐section matching with notches and its application for composite lowpass filter with spurious signal suppression

Author

Jun H. Choi, Hanseung Lee, Dongyin Ren, and Dongjin Jung

Subjects

Matching (statistics), Computer science, Acoustics, Low-pass filter, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Filter (signal processing), Signal, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Spurious relationship, Electrical impedance, Electronic circuit

Abstract

L-section matching circuits are used for various applications. Such circuits can be advanced to provide notch responses to suppress undesired spurious signals. The design guide that allows integration of notch responses in the L-section matching circuits is presented. With given impedance at the targeted matching frequency and notch frequencies, a matching circuit with the spurious signal suppressing notches can be simply designed based on the closed-form equations provided. A composite lowpass filter (LPF) based on the image parameter method is composed of two matching sections and two filter sections. Replacing conventional matching sections with the proposed L-section matching circuits, an LPF with spurious signal notches can be realised. The proposed matching circuit and filter with spurious suppression notches will bring an added dimension of design freedom for modern communication systems that demand stringent out-of-band requirements.

Published

2018

38. Higher Order Plasma-Based Tunable Absorber Using Magneto-Dielectric Substrates

Author

Komlan Payne, Kevin Xu, Jay Kyoon Lee, and Jun H. Choi

Subjects

Materials science, business.industry, Dielectric, 01 natural sciences, Electromagnetic radiation, Selective surface, 010305 fluids & plasmas, Band-pass filter, 0103 physical sciences, Optoelectronics, Center frequency, business, Absorption (electromagnetic radiation), Magneto, Ground plane

Abstract

This paper presents a multilayer absorber based on the technique previously developed for the design of a thickness customizable high-order bandpass frequency selective surface (FSS). Lossy substrates are used to absorb the electromagnetic energy in the FSS backed by a ground plane. Such technique allows simple integration of the tuning elements, while simultaneously providing the design option to realize the absorber with specific/desired thicknesses. The lossy substrates are perforated to host discrete electrically tunable ceramic gas-encapsulating chambers (plasma-shells). These plasma-shells enable dynamic control of the absorption spectral band. To demonstrate the design flexibility and performance, a second order frequency selective absorber operating at the C-band (center frequency at f 0 = 6 GHz with 17% fractional bandwidth) is designed with different thickness configurations. Then the plasma-shells are strategically integrated in the design in order to control the location of both absorption resonant frequencies by applying different plasma frequencies. Full-wave electromagnetic simulations are carried out to validate the proposed concepts.

Published

2019

39. Planar Vertically Polarized Quasi-Yagi Antennas Using Magnetic Current Loops

Author

Nathan Chordas-Ewell, Jun H. Choi, and Kevin Xu

Subjects

Physics, Plane (geometry), HFSS, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Microstrip, Microstrip antenna, Dipole, Planar, 0202 electrical engineering, electronic engineering, information engineering, Antenna (radio), Computer Science::Information Theory

Abstract

A novel quasi-Yagi antenna based on a magnetic-current-loop-induced electric dipole is presented in this paper. The design emulates the conventional quasi-Yagi antenna by introducing multiple parasitic planar dipole elements that function as directors. However, unlike conventional designs, the proposed antenna radiates a vertically polarized wave by employing virtual dipoles oriented perpendicular to the plane. This eliminates the restriction of positioning the antenna at the edge of the board, providing increased flexibility of integration with microstrip circuitry. The proposed topology is verified through full wave simulation using ANSYS HFSS for antennas consisting of one, two, and five dipole elements.

Published

2019

40. A Retrodirective Microwave Barcode

Author

Dana Koshen, Muratkhan Abdirash, Jun H. Choi, and Kevin Xu

Subjects

Radar cross-section, Computer science, 020206 networking & telecommunications, 02 engineering and technology, Tracking (particle physics), Barcode, ENCODE, Signal, law.invention, Identification (information), law, Broadband, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Microwave

Abstract

A passive, long range, wide angle, chipless radio-frequency identification (RFID) tag operating in the S-band is presented in this paper. The proposed design consists of a broadband Van Atta retrodirective array incorporating perfectly matched bandstop filters in its feeding network, to encode identifying information across the frequency spectrum in the reflected signal while tracking the direction of the reader. As a result we are able to obtain a low-cost, high performance, microwave version of barcode that is easy to implement. A prototype is fabricated and radar cross section (RCS) is measured across the frequency range for three different combinations of identifying bits, to validate both the tracking capability and the data encoding ability of the design.

Published

2019

41. Full-Sphere Frequency Scanning Array Antenna Based on Passive Dual-Band CRLH Series Integrated Feeding Network

Author

Dongyin Ren and Jun H. Choi

Subjects

Left handed, Physics, Series (mathematics), Acoustics, 010401 analytical chemistry, 020206 networking & telecommunications, 02 engineering and technology, 01 natural sciences, 0104 chemical sciences, Quadrant (plane geometry), Antenna array, Electric power transmission, 0202 electrical engineering, electronic engineering, information engineering, Multi-band device, Antenna (radio), Ground plane

Abstract

A full-sphere frequency scanning array antenna based on passive dual-band composite right/left handed series (CRLH) series integrated feeding network is presented in the paper. The proposed antenna array can support full-sphere (elevation angle θ = 0o to 360o) frequency beam scanning, where each θ is mapped to a unique frequency value. The array is realized by combining the dual-sided antenna elements with dual-band CRLH feeding network. For the antenna elements, both the proximity and aperture coupling are used to feed the radiators placed on the opposite sides of the shared ground plane. Furthermore, the right-handed and left-handed sections of the CRLH transmission lines (TL) are individually designed to provide the dual-band dispersion engineering of the proposed feeding network. In summary, directive full-sphere frequency scanning can be realized using an all-passive compact single array design. The full-sphere frequency scanning capability (a minimum of 30o in each quadrant) of the proposed passive array antenna is validated both in simulation and measurement.

Published

2019

42. Compact Third-Order Bandpass Frequency Selective Surface with Wide Spurious-Suppression Bandwidth

Author

Kevin Xu, Jun H. Choi, Jay Kyoon Lee, and Komlan Payne

Subjects

Materials science, Aperture, business.industry, Bandwidth (signal processing), 020206 networking & telecommunications, 02 engineering and technology, Radome, law.invention, Resonator, Third order, Band-pass filter, law, 0202 electrical engineering, electronic engineering, information engineering, Equivalent circuit, Optoelectronics, business, Spurious relationship

Abstract

A compact third-order bandpass frequency selective surface (FSS) with high selectivity and wide spurious-suppression bandwidth characteristics is presented. The proposed multi-layer FSS filter operating in the C-band, is composed of three Jerusalem Cross (JC) periodic array layers coupled together through periodic square aperture layers. The wide rejection band is obtained by incorporating bandstop JC layers that are designed to suppress spurious responses. The analysis of the design based on its equivalent circuit model (ECM) shows that the proposed FSS design can be synthesized with inductively coupled bandpass resonators from filter theory. To demonstrate its superior response, the proposed third-order FSS is compared through full wave simulation with its counterpart [5], which uses complementary JC layers that behave as parallel LC bandpass resonators.

Published

2018

43. Tunable Leaky Wave Antenna Based on Bidirectional Amplifier Enhanced Composite Right/Left Handed Transmission Line

Author

Kevin Xu, Jun H. Choi, and Dongyin Ren

Subjects

Physics, Beam diameter, business.industry, Leaky wave antenna, Amplifier, 020206 networking & telecommunications, 02 engineering and technology, Effective radiated power, Directivity, Radiation pattern, Optics, Transmission line, 0202 electrical engineering, electronic engineering, information engineering, Active antenna, business

Abstract

Tunable leaky wave antenna (LWA) based on bidirectional amplifier enhanced composite right/left handed transmission line (CRLH TL) is proposed in this paper. Phase offset and current amplitude distribution of the LWA can be individually controlled by manipulating the CRLH TL and the biasing voltage of the bidirectional amplifier, respectively. While the CRLH TL controlled phase offset dictates the beam scanning angle, the bidirectional amplifier allows radiation pattern tunability. The directivity, radiated power, and main beam width tunability are experimentally verified by comparing the radiation performance of the proposed LWA in OFF (0V) and ON (0.9V) states.

Published

2018

44. Ultra-low profile tri-polarized antenna for WLAN/MIMO application

Author

Jun H. Choi, Taehee Jang, and Komlan Payne

Subjects

Physics, Coaxial antenna, business.industry, Antenna measurement, Astrophysics::Instrumentation and Methods for Astrophysics, 020206 networking & telecommunications, Slot antenna, 02 engineering and technology, Antenna factor, Radiation pattern, Antenna efficiency, Microstrip antenna, Optics, 0202 electrical engineering, electronic engineering, information engineering, business, Monopole antenna, Computer Science::Information Theory

Abstract

This paper presents a novel tri-orthogonal polarization antenna operating at 2.4 GHz with good prospective for WLAN and MIMO systems. The design is implemented by integrating dual polarized cross-slot antenna and zeroth-order resonant (ZOR) antenna. The total height of the antenna is 0.762 mm corresponding to 0.01λ g (where λ g is the guide wavelength at 2.4 GHz). Linear horizontal dual-polarization and vertical polarization radiation patterns are obtained by using cross-polarized slot antennas and ZOR array antenna respectively. The broadside gain provided by the slot radiation is 5.3 dBi while the azimuthal average gain of the ZOR antenna is about 1.2 dBi.

Published

2017

45. Dual-polarized frequency-scanning phased-array antenna based on composite right/left handed serial feed network

Author

Tatsuo Itoh, Jun H. Choi, and Dongyin Ren

Subjects

Patch antenna, Engineering, Coaxial antenna, business.industry, Acoustics, Antenna measurement, Antenna aperture, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, law.invention, Antenna array, Microstrip antenna, law, 0202 electrical engineering, electronic engineering, information engineering, Dipole antenna, Antenna feed, business

Abstract

A dual-polarized frequency-scanning phased-array antenna based on composite right/left handed (CRLH) feed network is presented. The proposed feed network provides phase advance in addition to phase delay and allows uniform power distribution to each antenna element, thereby delivering high directivity frequency-scanning radiation beams that can scan the full-hemi-sphere. The working mechanism is presented through a broadband microstrip antenna. The orthogonally placed feed networks and coupling slots enable the dual-polarized (horizontal/vertical) operation of the proposed antenna array without compromising the high isolation between two feeding ports. Full space frequency-scanning capability for both polarization states are verified experimentally.

Published

2017

46. Half-mode hexagonal substrate integrated waveguide (HMHSIW) structure and its application

Author

Taehee Jang, L. Jay Guo, Jun H. Choi, and Komlan Payne

Subjects

Materials science, Hexagonal crystal system, business.industry, Mode (statistics), Structure (category theory), 020206 networking & telecommunications, 02 engineering and technology, Substrate (electronics), law.invention, Reduction (complexity), Resonator, Optics, law, 0202 electrical engineering, electronic engineering, information engineering, Antenna (radio), business, Waveguide, Computer Science::Information Theory

Abstract

A half-mode hexagonal substrate integrated waveguides (HMHSIW) structure with the internal angle of 90 degrees is presented and then applied in realizing a low-profile, dual-band/tri-polarized antenna with three independent ports. Dual-band composite right/left-handed (CRLH) substrate integrated waveguide (SIW) antennas and zeroth order resonator (ZOR) SIW antennas are designed based on the proposed HMHSIW to efficiently integrate the antennas while ensuring overall side reduction and providing enhanced design freedom.

Published

2017

47. Dual-polarized directivity enhanced active metamaterial antenna for polarimetric radar applications

Author

Jun H. Choi, Tatsuo Itoh, and Dongyin Ren

Subjects

Engineering, Optics, Coaxial antenna, business.industry, Antenna measurement, Antenna aperture, Active antenna, Antenna factor, Antenna gain, business, Computer Science::Information Theory, Radiation pattern, Antenna efficiency

Abstract

An active substrate integrated waveguide based dual-polarized directivity enhanced full-space scanning composite right/left handed leaky-wave antenna for polarimetric radar applications is proposed. The proposed antenna is realized by using reflection type amplifiers to compensate both radiation and material losses, thereby increasing the effective aperture dimension and directivity of the antenna without compromising all unique features of metamaterial leaky-wave antenna including full frequency-scanning (backfire-to-endfire) capability and bilateral operation. Bilateral operation is essential in radar applications to allow both transmitting and receiving operations. The proposed dual-polarized full frequency-scanning polarimetric radar antenna may be operated in either: 1) linear slant (+45° and −45°) polarization mode, 2) linear horizontal/vertical polarization mode, or 3) right/left-handed circular polarization mode. This paper demonstrates the operation of the proposed active antenna in horizontal/vertical polarization mode. The realized active antenna shows directivity enhancement compared to its all passive counterpart.

Published

2017

48. Pegasperagase Toxicity in Adult Patients with Acute Lymphoblastic Leukemia: A Single Center Experience Comparing Patients Older and Younger Than 35 Years of Age

Author

Shella Saint Fleur-Lominy, Maher Abdul Hay, Jacques Azzi, Jun H. Choi, Mary Lynn Nierodzik, and Tsivia Hochman

Subjects

medicine.medical_specialty, Chemotherapy, business.industry, medicine.medical_treatment, Immunology, Lymphoblastic lymphoma, Cell Biology, Hematology, medicine.disease, Biochemistry, Chemotherapy regimen, Tolerability, Internal medicine, Acute lymphocytic leukemia, PEG ratio, medicine, Young adult, Adverse effect, business

Abstract

Background: The treatment paradigm of adult patients with acute lymphoblastic leukemia (ALL) is primarily derived from successful pediatric chemotherapy regimens. Pegasparagase (PEG) is a key component of pediatric therapy and is the backbone of cytotoxic ALL regimens. However, among the adult population the use of PEG has been limited by the difficulty in tolerating prolonged asparagine depletion. Hepatotoxicity is among the most common adverse events reported with the use of PEG, with grade 3/4 hepatotoxicity seen in 20% of young adults compared to 40-60% of older adults. Incorporating PEG into the treatment of ALL patients under 40 remains an accepted practice despite some studies that report up to 75% of patients have grade 3/4 adverse events as a result of asparagine depletion. In a study of 85 patients with ALL, 3-year overall survival (OS) was significantly different between patients older and younger than 35 (52% vs 83% p = 0.003). Whether this difference is due to PEG toxicity or to other factors remains to be determined. At NYU hospitals, PEG-containing protocols are frequently deployed to treat adult ALL. In our study, we sought to look at the difference in PEG toxicity and response rate (RR) in patients older and younger than 35 and whether these toxicities contributed to a delay in subsequent treatments and to a worse outcome. Methods: We conducted a retrospective chart review of patients older than 18 diagnosed with ALL or lymphoblastic lymphoma, who received at least 1 dose of PEG at our institution between 2014 and 2018. All patients received PEG as part of their first line treatment protocol. Our main objective was to compare the tolerability and toxicity profile of intravenous PEG in patients ≥35 years old versus Results: Out of a total of 50 patients, 23 were age ≥ 35 (46%). Mean age was 34.4 (Range: 18.9-63.1). The 2 groups shared similar distributions in gender, race, and Philadelphia chromosome (Ph) subtypes (Table 1). The older group received significantly less PEG, 5114.8 vs. 25353.7 units (p=0.0007) and 1.65 vs. 3.59 doses (p Conclusions: Patients aged ≥ 35 received significantly less PEG during their treatments but were more likely to develop severe grade 3-4 hepatotoxicity compared to their younger counterparts. The response rates were similar with comparable MRD negativity rates after induction regardless of total amount of PEG administered. However, relapse occurred more frequently in the older group, possibly resulting from more frequent delays in administering other chemotherapy agents due to PEG toxicity. Incorporation of PEG is important in the treatment of ALL but should be used with caution in patients ≥35 years old, and will likely require dose and schedule modifications. A larger prospective trial investigating adequate dosing and scheduling of PEG in this age group is warranted, specifically comparing delays in chemotherapy, relapse, and survival rates in regimens with and without PEG. Disclosures No relevant conflicts of interest to declare.

Published

2019

49. Retrodirective Array Immune to Incident Waves With Arbitrary Polarizations

Author

Jun H. Choi, Yuandan Dong, Jim S. Sun, and Tatsuo Itoh

Subjects

Physics, retrodirective array, Communications Technologies, Orthogonal polarization, Retrodirectivity, business.industry, Orthogonal polarization spectral imaging, Phased array, phase conjugation, Polarization (waves), Mismatch loss, Optics, Incident wave, phased array, polarization friendly, Electrical and Electronic Engineering, Networking & Telecommunications, Phase conjugation, business, Circular polarization

Abstract

A retrodirective array (RDA) capable of retransmitting predictable polarization with respect to any received polarization state is presented. RDAs have the unique ability to scatter the received signal back to the interrogator without prior knowledge of the source location. In addition to this unique feature, the proposed system can receive any polarization and always retransmits the signal that is orthogonally polarized with respect to the received polarization state. This added feature helps to maintain a more stable communication link between the RDA and the interrogator by mitigating the polarization mismatch loss. The proposed system shows excellent retrodirectivity for various received linear and circular polarizations. © 2013 IEEE.

Published

2013

50. Multistage Directional Filter Based on Band-Reject Filter With Isolation Improvement Using Composite Right-/Left-Handed Transmission Lines

Author

Jim S. Sun, Humberto Lobato-Morales, T. Itoh, Alonso Corona-Chavez, and Jun H. Choi

Subjects

Voltage-controlled filter, Engineering, Radiation, business.industry, Low-pass filter, Butterworth filter, Condensed Matter Physics, Band-stop filter, Topology, Filter design, Control theory, Electrical and Electronic Engineering, High-pass filter, business, Active filter, m-derived filter

Abstract

The λ/2 strip-resonator directional filter has good balance between compactness and robustness against manufacturing error. However, there have been difficulties in generalizing the strip-resonator directional filter to realize multipole filtering responses. This paper presents the theory, experiments, and improvement of a new structure of strip-resonator directional filter based on a band-reject filter. This new structure allows the realization of multipole responses and theoretically does not limit the types of filter responses. A three-pole elliptic directional filter prototype is studied thoroughly to show that its performance can be predicted accurately by a conventional filter structure. We also propose a modification of the delay-line part using composite right-/left-handed transmission line to improve the isolation. An isolation level of 30 dB is shown to be achieved consistently.

Published

2012