Search

Your search keyword '"Kim, Sungjoon"' showing total 309 results
Start Over Author "Kim, Sungjoon"
309 results on '"Kim, Sungjoon"'

1. S-confinement of 3d Argyres-Douglas theories and the Seiberg-like duality with an adjoint matter

Author

Hwang, Chiung and Kim, Sungjoon

Subjects
High Energy Physics - Theory
Abstract

We propose an $\mathcal{N}=2$ preserving deformation that leads to the confining phase of the 3d reduction of the $D_p[SU(N)]$ Argyres-Douglas theories, referred to as $\mathbb{D}_p[SU(N)]$. This deformation incorporates monopole superpotential terms, which have recently played interesting roles in exploring possible RG fixed points of 3d supersymmetric gauge theories. Employing this confining phenomenon in 3d $\mathbb{D}_p[SU(N)]$ theories, we also propose a deconfined version of the Kim-Park duality, an IR duality for 3d $\mathcal{N}=2$ adjoint SQCDs, where an adjoint matter field is replaced by a linear quiver tail of $\mathbb{D}_p[SU(N)]$. Surprisingly, both the confinement of deformed $\mathbb{D}_p[SU(N)]$ and the deconfined Kim-Park duality can be proven only assuming some basic 3d $\mathcal{N}=2$ IR dualities. Finally, we propose a variant of the Kim-Park duality deformed by a single monopole superpotential term, which can also be derived using the same method., Comment: 54 pages

Published
2024

2. Characterizing Novel Indium Phosphide Pad Detectors with Focused X-ray Beams and Laboratory Tests

Author

Almazan, Earl, Affolder, Anthony, Dyckes, Ian, Fadeyev, Vitaliy, Hance, Michael, Jadhav, Manoj, Kim, Sungjoon, McCoy, Thomas, Metcalfe, Jessica, Nielsen, Jason, Ott, Jennifer, Poley, Luise, Shin, Taylor, Sperlich, Dennis, and Sumant, Anirudha V.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

Future tracking systems in High Energy Physics experiments will require large instrumented areas with low radiation length. Crystalline silicon sensors have been used in tracking systems for decades, but are difficult to manufacture and costly to produce for large areas. We are exploring alternative sensor materials that are amenable to fast fabrication techniques used for thin film devices. Indium Phosphide pad sensors were fabricated at Argonne National Lab using commercially available InP:Fe 2-inch mono-crystal substrates. Current-voltage and capacitance-voltage characterizations were performed to study the basic operating characteristics of a group of sensors. Micro-focused X-ray beams at Canadian Light Source and Diamond Light Source were used to study the response to ionizing radiation, and characterize the uniformity of the response for several devices. The results show a high degree of performance uniformity in our evaluations, both within a device and between the 48 tested devices. This motivates further studies into thin film devices for future tracking detectors., Comment: 30 pages, 27 figures

Published
2024

3. Novel indium phosphide charged particle detector characterization with a 120 GeV proton beam

Author

Kim, Sungjoon, Jadhav, Manoj B., Berry, Vikas, Metcalfe, Jessica E., and Sumant, Anirudha V.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

Thin film detectors which incorporate semiconductor materials other than silicon have the potential to build upon their unique material properties and offer advantages such as faster response times, operation at room temperature, and radiation hardness. To explore the possibility, promising candidate materials were selected, and particle tracking detectors were fabricated. An indium phosphide detector with a metal-insulator-metal (MIM) structure has been fabricated for particle tracking. The detector was tested using radioactive sources and a high energy proton beam at Fermi National Accelerator Laboratory. In addition to its simplistic design and fabrication process, the indium phosphide particle detector showed a very fast response time of hundreds of picoseconds for the 120 GeV protons, which are comparable to the ultra-fast silicon detectors. This fast-timing response is attributed to the high electron mobility of indium phosphide. Such material properties can be leveraged to build novel detectors with superlative performance., Comment: 10 pages, 7 figures

Published
2024

4. Thin Film Charged Particle Trackers

Author

Kim, Sungjoon, Berry, Vikas, Metcalfe, Jessica, and Sumant, Anirudha V.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

Silicon tracking detectors have grown to cover larger surface areas up to hundreds of square meters, and are even taking over other sub-detectors, such as calorimeters. However, further improvements in tracking detector performance are more likely to arise from the ability to make a low mass detector comprised of a high ratio of active sensor to dead materials, where dead materials include electrical services, cooling, mechanical supports, etc. In addition, the cost and time to build these detectors is currently large. Therefore, advancements in the fundamental technology of tracking detectors may need to look at a more transformative approach that enables extremely large area coverage with minimal dead material and is easier and faster to build. The advancement of thin film fabrication techniques has the potential to revolutionize the next-to-next generation of particle detector experiments. Some thin film deposition techniques have already been developed and widely used in the industry to make LED screens for TV's and monitors. If large area thin film detectors on the order of several square meters can be fabricated with similar performance as current silicon technologies, they could be used in future particle physics experiments. This paper aims to review the key fundamental performance criteria of existing silicon detectors and past research to use thin films and other semi-conductor materials as particle detectors in order to explore the important considerations and challenges to pursue thin film detectors., Comment: 32 pages, 15 figures

Published
2022
Full Text
View/download PDF

7. Monopole deformations of 3d Seiberg-like dualities with adjoint matters

Author

Hwang, Chiung, Kim, Sungjoon, and Park, Jaemo

Subjects
High Energy Physics - Theory
Abstract

We propose new 3d $\mathcal{N}=2$ Seiberg-like dualities by considering various monopole superpotential deformations on 3d $\mathcal{N}=2$ $U(N_c)$ SQCDs with fundamental and adjoint matter fields. We provide nontrivial evidence of these new dualities by comparing the superconformal indices, from which we analyze the change of the moduli space due to the monopole deformation. In addition, we perform the $F$-maximization to check the relevance of the monopole deformation for some examples, one of which is found to exhibit nontrivial symmetry enhancement in the IR. We prove such enhancement of the global symmetry using the superconformal index., Comment: 57 pages

Published
2022
Full Text
View/download PDF

10. Non-unitary TQFTs from 3D $\mathcal{N}=4$ rank 0 SCFTs

Author

Gang, Dongmin, Kim, Sungjoon, Lee, Kimyeong, Shim, Myungbo, and Yamazaki, Masahito

Subjects
High Energy Physics - Theory, Mathematics - Geometric Topology
Abstract

We propose a novel procedure of assigning a pair of non-unitary topological quantum field theories (TQFTs), TFT$_\pm [\mathcal{T}_{\rm rank \;0}]$, to a (2+1)D interacting $\mathcal{N}=4$ superconformal field theory (SCFT) $\mathcal{T}_{\rm rank \;0}$ of rank 0, i.e. having no Coulomb and Higgs branches. The topological theories arise from particular degenerate limits of the SCFT. Modular data of the non-unitary TQFTs are extracted from the supersymmetric partition functions in the degenerate limits. As a non-trivial dictionary, we propose that $F = \max_\alpha \left(- \log |S^{(+)}_{0\alpha}| \right) = \max_\alpha \left(- \log |S^{(-)}_{0\alpha}|\right)$, where $F$ is the round three-sphere free energy of $\mathcal{T}_{\rm rank \;0 }$ and $S^{(\pm)}_{0\alpha}$ is the first column in the modular S-matrix of TFT$_\pm$. From the dictionary, we derive the lower bound on $F$, $F \geq -\log \left(\sqrt{\frac{5-\sqrt{5}}{10}} \right) \simeq 0.642965$, which holds for any rank 0 SCFT. The bound is saturated by the minimal $\mathcal{N}=4$ SCFT proposed by Gang-Yamazaki, whose associated topological theories are both the Lee-Yang TQFT. We explicitly work out the (rank 0 SCFT)/(non-unitary TQFTs) correspondence for infinitely many examples., Comment: 60 pages, v2: minor corrections, references added, v3: some corrections in the discussion section

Published
2021
Full Text
View/download PDF

14. Self‐Rectifying Short‐Term Memory Phenomena Through Integration of TiOx Oxygen Reservoir and Al2O3 Barrier Layers for Neuromorphic System.

Author

Ji, Hyeonseung, Kim, Sungjoon, and Kim, Sungjun

Subjects
*RECOGNITION (Psychology), *MEMRISTORS, *MEMORIZATION, *ION migration & velocity, *COMPUTER systems
Abstract

In this study, a tri‐layer Pt/Al/TiOx/HfOx/Al2O3/Pt memristor device is fabricated and analyze its electrical characteristics for reservoir computing and neuromorphic systems applications. This device incorporates an oxygen reservoir of a TiOx and a barrier layer of an Al2O3, enabling stable bipolar switching characteristics without the need for an electroforming process over 103 cycles. It also exhibits self‐rectifying properties under a negative bias. Based on these characteristics, it is investigated essential synaptic functions such as long‐term potentiation (LTP), long‐term depression (LTD), paired‐pulse facilitation (PPF), spike‐rate‐dependent plasticity (SRDP), spike‐duration‐dependent plasticity (SDDP), spike‐number‐dependent plasticity (SNDP), and spike‐amplitude‐dependent plasticity (SADP), to assess their suitability for neuromorphic applications that mimic biological synapses. Furthermore, utilizing the short‐term memory characteristics of the device, reservoir computing (RC) measurement from [0000] to [1111] in 4‐bit representation is conducted. This capability enables us to achieve a high accuracy of 95.5% in MNIST pattern recognition tasks. Lastly, the natural decay characteristics caused by oxygen ion migration in the device, examining the transition from short‐term to long‐term memory in image memorization tasks is explored. The potential for deployment in high‐density crossbar arrays by calculating the read margin based on the device I–V curve and programming scheme is also evaluated. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

20. Memristive Architectures Exploiting Self-Compliance Multilevel Implementation on 1 kb Crossbar Arrays for Online and Offline Learning Neuromorphic Applications

Author

Kim, Sungjoon, Ji, Hyeonseung, Park, Kyungchul, So, Hyojin, Kim, Hyungjin, Kim, Sungjun, and Choi, Woo Young

Abstract

This paper suggests the practical implications of utilizing a high-density crossbar array with self-compliance (SC) at the conductive filament (CF) formation stage. By limiting the excessive growth of CF, SC functions enable the operation of a crossbar array without access transistors. An AlOx/TiOy, internal overshoot limitation structure, allows the SC to have resistive random-access memory. In addition, an overshoot-limited memristor crossbar array makes it possible to implement vector-matrix multiplication (VMM) capability in neuromorphic systems. Furthermore, AlOx/TiOystructure optimization was conducted to reduce overshoot and operation current, verifying uniform bipolar resistive switching behavior and analog switching properties. Additionally, extensive electric pulse stimuli are confirmed, evaluating long-term potentiation (LTP), long-term depression (LTD), and other forms of synaptic plasticity. We found that LTP and LTD characteristics for training an online learning neural network enable MNIST classification accuracies of 92.36%. The SC mode quantized multilevel in offline learning neural networks achieved 95.87%. Finally, the 32 × 32 crossbar array demonstrated spiking neural network-based VMM operations to classify the MNIST image. Consequently, weight programming errors make only a 1.2% point of accuracy drop to software-based neural networks.

Published
2024
Full Text
View/download PDF

21. Explainable Deep-Learning-Based Gait Analysis of Hip–Knee Cyclogram for the Prediction of Adolescent Idiopathic Scoliosis Progression.

Author

Kim, Yong-Gyun, Kim, Sungjoon, Park, Jae Hyeon, Yang, Seung, Jang, Minkyu, Yun, Yeo Joon, Cho, Jae-sung, You, Sungmin, and Jang, Seong-Ho

Subjects
*ADOLESCENT idiopathic scoliosis, *CONVOLUTIONAL neural networks, *KNEE, *MACHINE learning, *GAIT in humans, *DEEP learning
Abstract

Accurate prediction of scoliotic curve progression is crucial for guiding treatment decisions in adolescent idiopathic scoliosis (AIS). Traditional methods of assessing the likelihood of AIS progression are limited by variability and rely on static measurements. This study developed and validated machine learning models for classifying progressive and non-progressive scoliotic curves based on gait analysis using wearable inertial sensors. Gait data from 38 AIS patients were collected using seven inertial measurement unit (IMU) sensors, and hip–knee (HK) cyclograms representing inter-joint coordination were generated. Various machine learning algorithms, including support vector machine (SVM), random forest (RF), and novel deep convolutional neural network (DCNN) models utilizing multi-plane HK cyclograms, were developed and evaluated using 10-fold cross-validation. The DCNN model incorporating multi-plane HK cyclograms and clinical factors achieved an accuracy of 92% in predicting curve progression, outperforming SVM (55% accuracy) and RF (52% accuracy) models using handcrafted gait features. Gradient-based class activation mapping revealed that the DCNN model focused on the swing phase of the gait cycle to make predictions. This study demonstrates the potential of deep learning techniques, and DCNNs in particular, in accurately classifying scoliotic curve progression using gait data from wearable IMU sensors. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

23. Overshoot‐Suppressed Memristor Crossbar Array with High Yield by AlOx Oxidation for Neuromorphic System.

Author

Kim, Sungjoon, Park, Kyungchul, Hong, Kyungho, Kim, Tae‐Hyeon, Park, Jinwoo, Youn, Sangwook, Kim, Hyungjin, and Choi, Woo Young

Subjects
*ARTIFICIAL neural networks, *MEMRISTORS, *ENERGY consumption, *OXIDATION
Abstract

There is a need to design a hardware synapse array appropriate for enhancing the efficiency of neuromorphic computing systems while minimizing energy consumption. This study introduces a memristor device with an AlOx overshoot suppression layer (A‐OSL) to achieve a self‐compliance effect. By optimizing each cell within the 16 × 16 crossbar array, synaptic devices are successfully fabricated with reliable characteristics and 3‐bit multilevel capabilities. In addition, the oxygen composition of TiOx and the annealing conditions are optimized to reduce the forming voltage and minimize the variation in the switching voltage. As a result, stable forming‐free characteristics are obtained through A‐OSL insertion, a reduction in forming voltage, and TiOx oxygen composition optimization. Also, target weights are accurately transferred to the A‐OSL memristor crossbar array and conducted the inference process by applying spike signals to the array following the designated time step. The spiking neural network (SNN) is demonstrated by measuring vector‐matrix multiplication (VMM) of the 16 × 16 crossbar array. The VMM results exhibit a classification accuracy of 90.80% for the MNIST dataset, which is close to the accuracy achieved by software‐based approaches, amounting to 91.85%. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

27. Synaptic Characteristics and Vector‐Matrix Multiplication Operation in Highly Uniform and Cost‐Effective Four‐Layer Vertical RRAM Array

Author

Kim, Jihyung, primary, Lee, Subaek, additional, Kim, Sungjoon, additional, Yang, Seyoung, additional, Lee, Jung‐Kyu, additional, Kim, Tae‐Hyeon, additional, Ismail, Muhammad, additional, Mahata, Chandreswar, additional, Kim, Yoon, additional, Choi, Woo Young, additional, and Kim, Sungjun, additional

Published
2023
Full Text
View/download PDF

28. Discovery of Orally Bioavailable Phthalazinone Analogues as an ENPP1 Inhibitor for STING-Mediated Cancer Immunotherapy

Author

Cho, Yeonguk, primary, Kang, Miso, additional, Ji, Su Hyun, additional, Jeong, Hee Jin, additional, Jung, Jae Eun, additional, Oh, Do Hee, additional, Park, Sunyoung, additional, Park, Yong-Yea, additional, Choi, Junghwan, additional, Kim, Sungjoon, additional, Kim, Nam-Jung, additional, Lee, Duck-Hyung, additional, Park, Chan Sun, additional, Han, Seo-Jung, additional, Lee, Sanghee, additional, and Choi, Junwon, additional

Published
2023
Full Text
View/download PDF

29. 1077 Preclinical and IND-enabling studies of TXN10128, an ENPP1 inhibitor, for clinical evaluation in patients with solid tumor

Author

Kim, Shin-Yeong, primary, Lee, Sun Woo, additional, Choi, Hye Lim, additional, Choi, Jun Yong, additional, Chae, Hyang Ji, additional, Yoo, Eun Kyung, additional, Min, Chang Won, additional, Choi, Junghwan, additional, Sun, Bo Kyung, additional, Kwak, Eun Young, additional, Park, Yongyea, additional, Kim, Sungjoon, additional, Kim, JongRan, additional, Lee, Jong Heun, additional, and Park, Chan Sun, additional

Published
2023
Full Text
View/download PDF

31. Maximum Mass of Boson Star Formed by Self-Interacting Scalar Fields

Author

Ho, Jeongwon, Kim, Sungjoon, and Lee, Bum-Hoon

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Theory
Abstract

We make analytic derivation for maximum masses of stable boson stars formed by scalar fields with any higher order self-interactions and show that those are equivalent to numerical results. It is shown that the contribution of the higher order self-interaction terms to the maximum mass decreases as $(m/M_p)^2$ power., Comment: 14 pages, 6 figures

Published
1999

34. Thermodynamics and Kinetics in Anisotropic Growth of One-Dimensional Midentropy Nanoribbons

Author

Wang, Shuxi, primary, Yang, Taimin, additional, Kumar, Khagesh, additional, Namvar, Shahriar, additional, Kim, Sungjoon, additional, Ahmadiparidari, Alireza, additional, Shahbazi, Hessam, additional, Singh, Sakshi, additional, Hemmat, Zahra, additional, Berry, Vikas, additional, Cabana, Jordi, additional, Khalili-Araghi, Fatemeh, additional, Huang, Zhehao, additional, and Salehi-Khojin, Amin, additional

Published
2023
Full Text
View/download PDF

37. Synaptic Characteristics and Vector‐Matrix Multiplication Operation in Highly Uniform and Cost‐Effective Four‐Layer Vertical RRAM Array.

Author

Kim, Jihyung, Lee, Subaek, Kim, Sungjoon, Yang, Seyoung, Lee, Jung‐Kyu, Kim, Tae‐Hyeon, Ismail, Muhammad, Mahata, Chandreswar, Kim, Yoon, Choi, Woo Young, and Kim, Sungjun

Subjects
EXCITATORY postsynaptic potential, INHIBITORY postsynaptic potential, MULTIPLICATION, LONG-term potentiation, TRANSMISSION electron microscopy, ELECTRON spectroscopy, NEUROPLASTICITY
Abstract

This study implements a highly uniform 3D vertically stack resistive random‐access memory (VRRAM) with a four‐layer contact hole structure. The fabrication process of a four‐layer VRRAM is demonstrated, and its physical and electrical properties are thoroughly examined. X‐ray photoelectron spectroscopy and transmission electron microscopy are employed to analyze the chemical distribution and physical structure of the VRRAM device. Multilevel capability, reliable endurance (>104 cycles), and retention (104 s) are successfully obtained. Synaptic memory plasticity, such as spike time‐dependent plasticity, spike rate‐dependent plasticity, excitatory post‐synaptic current, paired‐pulse facilitation, and long‐term potentiation and depression is presented. Finally, the vector‐matrix multiplication (VMM) operation is conducted on a 4 × 12 VRRAM array, according to the low resistance state ratio. It is ascertained that the accuracy drop, which can occur due to VMM error, can be limited to a decrease of less than 0.44% point. Utilizing the high‐density, multilevel, and biological characteristics of VRRAM, it is possible to implement high‐performance neuromorphic systems that require densely integrated synaptic devices. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

39. Electrochemical Reduction of Nitrates on CoO Nanoclusters‐Functionalized Graphene with Highest Mass Activity and Nearly 100% Selectivity to Ammonia (Adv. Energy Mater. 17/2023)

Author

Kani, Nishithan C., primary, Nguyen, Ngoc Hoang Lan, additional, Markel, Kyle, additional, Bhawnani, Rajan R., additional, Shindel, Benjamin, additional, Sharma, Kartikey, additional, Kim, Sungjoon, additional, Dravid, Vinayak P., additional, Berry, Vikas, additional, Gauthier, Joseph A., additional, and Singh, Meenesh R., additional

Published
2023
Full Text
View/download PDF

41. Supplementary Figure Legend from The ALK Inhibitor Ceritinib Overcomes Crizotinib Resistance in Non–Small Cell Lung Cancer

Author

Friboulet, Luc, primary, Li, Nanxin, primary, Katayama, Ryohei, primary, Lee, Christian C., primary, Gainor, Justin F., primary, Crystal, Adam S., primary, Michellys, Pierre-Yves, primary, Awad, Mark M., primary, Yanagitani, Noriko, primary, Kim, Sungjoon, primary, Pferdekamper, AnneMarie C., primary, Li, Jie, primary, Kasibhatla, Shailaja, primary, Sun, Frank, primary, Sun, Xiuying, primary, Hua, Su, primary, McNamara, Peter, primary, Mahmood, Sidra, primary, Lockerman, Elizabeth L., primary, Fujita, Naoya, primary, Nishio, Makoto, primary, Harris, Jennifer L., primary, Shaw, Alice T., primary, and Engelman, Jeffrey A., primary

Published
2023
Full Text
View/download PDF

42. Supplementary Table S1 from The ALK Inhibitor Ceritinib Overcomes Crizotinib Resistance in Non–Small Cell Lung Cancer

Author

Friboulet, Luc, primary, Li, Nanxin, primary, Katayama, Ryohei, primary, Lee, Christian C., primary, Gainor, Justin F., primary, Crystal, Adam S., primary, Michellys, Pierre-Yves, primary, Awad, Mark M., primary, Yanagitani, Noriko, primary, Kim, Sungjoon, primary, Pferdekamper, AnneMarie C., primary, Li, Jie, primary, Kasibhatla, Shailaja, primary, Sun, Frank, primary, Sun, Xiuying, primary, Hua, Su, primary, McNamara, Peter, primary, Mahmood, Sidra, primary, Lockerman, Elizabeth L., primary, Fujita, Naoya, primary, Nishio, Makoto, primary, Harris, Jennifer L., primary, Shaw, Alice T., primary, and Engelman, Jeffrey A., primary

Published
2023
Full Text
View/download PDF

43. Data from The ALK Inhibitor Ceritinib Overcomes Crizotinib Resistance in Non–Small Cell Lung Cancer

Author

Friboulet, Luc, primary, Li, Nanxin, primary, Katayama, Ryohei, primary, Lee, Christian C., primary, Gainor, Justin F., primary, Crystal, Adam S., primary, Michellys, Pierre-Yves, primary, Awad, Mark M., primary, Yanagitani, Noriko, primary, Kim, Sungjoon, primary, Pferdekamper, AnneMarie C., primary, Li, Jie, primary, Kasibhatla, Shailaja, primary, Sun, Frank, primary, Sun, Xiuying, primary, Hua, Su, primary, McNamara, Peter, primary, Mahmood, Sidra, primary, Lockerman, Elizabeth L., primary, Fujita, Naoya, primary, Nishio, Makoto, primary, Harris, Jennifer L., primary, Shaw, Alice T., primary, and Engelman, Jeffrey A., primary

Published
2023
Full Text
View/download PDF

44. Supplementary Figures 1-4 from The ALK Inhibitor Ceritinib Overcomes Crizotinib Resistance in Non–Small Cell Lung Cancer

Author

Friboulet, Luc, primary, Li, Nanxin, primary, Katayama, Ryohei, primary, Lee, Christian C., primary, Gainor, Justin F., primary, Crystal, Adam S., primary, Michellys, Pierre-Yves, primary, Awad, Mark M., primary, Yanagitani, Noriko, primary, Kim, Sungjoon, primary, Pferdekamper, AnneMarie C., primary, Li, Jie, primary, Kasibhatla, Shailaja, primary, Sun, Frank, primary, Sun, Xiuying, primary, Hua, Su, primary, McNamara, Peter, primary, Mahmood, Sidra, primary, Lockerman, Elizabeth L., primary, Fujita, Naoya, primary, Nishio, Makoto, primary, Harris, Jennifer L., primary, Shaw, Alice T., primary, and Engelman, Jeffrey A., primary

Published
2023
Full Text
View/download PDF

47. Thermodynamics and Kinetics in Anisotropic Growth of One-Dimensional Midentropy Nanoribbons

Author

Wang, Shuxi, Yang, Taimin, Kumar, Khagesh, Namvar, Shahriar, Kim, Sungjoon, Ahmadiparidari, Alireza, Shahbazi, Hessam, Singh, Sakshi, Hemmat, Zahra, Berry, Vikas, Cabana, Jordi, Khalili-Araghi, Fatemeh, Huang, Zhehao, Salehi-Khojin, Amin, Wang, Shuxi, Yang, Taimin, Kumar, Khagesh, Namvar, Shahriar, Kim, Sungjoon, Ahmadiparidari, Alireza, Shahbazi, Hessam, Singh, Sakshi, Hemmat, Zahra, Berry, Vikas, Cabana, Jordi, Khalili-Araghi, Fatemeh, Huang, Zhehao, and Salehi-Khojin, Amin

Abstract

One-dimensional (1D) materials demonstrate anisotropic in-plane physical properties that enable a wide range of functionalities in electronics, photonics, valleytronics, optoelectronics, and catalysis. Here, we undertake an in-depth study of the growth mechanism for equimolar midentropy alloy of (NbTaTi)0.33S3 nanoribbons as a model system for 1D transition metal trichalcogenide structures. To understand the thermodynamic and kinetic effects in the growth process, the energetically preferred phases at different synthesis temperatures and times are investigated, and the phase evolution is inspected at a sequence of growth steps. It is uncovered that the dynamics of the growth process occurs at four different stages via preferential incorporation of chemical species at high-surface-energy facets. Also, a sequence of temperature and time dependent nonuniform to uniform phase evolutions has emerged in the composition and structure of (NbTaTi)0.33S3 which is described based on an anisotropic vapor–solid (V–S) mechanism. Furthermore, direct evidence for the 3D structure of the charge density wave (CDW) phase (width less than 100 nm) is provided by three-dimensional electron diffraction (3DED) in individual nanoribbons at cryogenic temperature, and detailed comparisons are made between the phases obtained before and after CDW transformation. This study provides important fundamental information for the design and synthesis of future 1D alloy structures.

Published
2023
Full Text
View/download PDF

50. Correction: Synaptic plasticity and non-volatile memory characteristics in TiN-nanocrystal-embedded 3D vertical memristor-based synapses for neuromorphic systems

Author

Yang, Seyeong, primary, Kim, Taegyun, additional, Kim, Sunghun, additional, Chung, Daewon, additional, Kim, Tae-Hyeon, additional, Lee, Jung Kyu, additional, Kim, Sungjoon, additional, Ismail, Muhammad, additional, Mahata, Chandreswar, additional, Kim, Sungjun, additional, and Cho, Seongjae, additional

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results