Your search keyword '"Yuan-Chi Yang"' showing total 18 results

1. The Early Detection of Fraudulent COVID-19 Products From Twitter Chatter: Data Set and Baseline Approach Using Anomaly Detection

Author

Abeed Sarker, Sahithi Lakamana, Ruqi Liao, Aamir Abbas, Yuan-Chi Yang, and Mohammed Al-Garadi

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

BackgroundSocial media has served as a lucrative platform for spreading misinformation and for promoting fraudulent products for the treatment, testing, and prevention of COVID-19. This has resulted in the issuance of many warning letters by the US Food and Drug Administration (FDA). While social media continues to serve as the primary platform for the promotion of such fraudulent products, it also presents the opportunity to identify these products early by using effective social media mining methods. ObjectiveOur objectives were to (1) create a data set of fraudulent COVID-19 products that can be used for future research and (2) propose a method using data from Twitter for automatically detecting heavily promoted COVID-19 products early. MethodsWe created a data set from FDA-issued warnings during the early months of the COVID-19 pandemic. We used natural language processing and time-series anomaly detection methods for automatically detecting fraudulent COVID-19 products early from Twitter. Our approach is based on the intuition that increases in the popularity of fraudulent products lead to corresponding anomalous increases in the volume of chatter regarding them. We compared the anomaly signal generation date for each product with the corresponding FDA letter issuance date. We also performed a brief manual analysis of chatter associated with 2 products to characterize their contents. ResultsFDA warning issue dates ranged from March 6, 2020, to June 22, 2021, and 44 key phrases representing fraudulent products were included. From 577,872,350 posts made between February 19 and December 31, 2020, which are all publicly available, our unsupervised approach detected 34 out of 44 (77.3%) signals about fraudulent products earlier than the FDA letter issuance dates, and an additional 6 (13.6%) within a week following the corresponding FDA letters. Content analysis revealed misinformation, information, political, and conspiracy theories to be prominent topics. ConclusionsOur proposed method is simple, effective, easy to deploy, and does not require high-performance computing machinery unlike deep neural network–based methods. The method can be easily extended to other types of signal detection from social media data. The data set may be used for future research and the development of more advanced methods.

Published

2023

2. Natural language model for automatic identification of Intimate Partner Violence reports from Twitter

Author

Mohammed Ali Al-Garadi, Sangmi Kim, Yuting Guo, Elise Warren, Yuan-Chi Yang, Sahithi Lakamana, and Abeed Sarker

Subjects

Intimate partner violence, Domestic violence, Natural language processing, Machine learning, Social media, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95

Abstract

Intimate partner violence (IPV) is a preventable public health problem that affects millions of people worldwide. Approximately one in four women are estimated to be or have been victims of severe violence at some point in their lives, irrespective of age, ethnicity, and economic status. Victims often report IPV experiences on social media, and automatic detection of such reports via machine learning may enable improved surveillance and targeted distribution of support and/or interventions for those in need. However, no artificial intelligence systems for automatic detection currently exists, and we attempted to address this research gap. We collected posts from Twitter using a list of IPV-related keywords, manually reviewed subsets of retrieved posts, and prepared annotation guidelines to categorize tweets into IPV-report or non-IPV-report. We annotated 6,348 tweets in total, with the inter-annotator agreement (IAA) of 0.86 (Cohen's kappa) among 1,834 double-annotated tweets. The class distribution in the annotated dataset was highly imbalanced, with only 668 posts (∼11%) labeled as IPV-report. We then developed an effective natural language processing model to identify IPV-reporting tweets automatically. The developed model achieved classification F1-scores of 0.76 for the IPV-report class and 0.97 for the non-IPV-report class. We conducted post-classification analyses to determine the causes of system errors and to ensure that the system did not exhibit biases in its decision making, particularly with respect to race and gender. Our automatic model can be an essential component for a proactive social media-based intervention and support framework, while also aiding population-level surveillance and large-scale cohort studies.

Published

2022

3. Text classification models for the automatic detection of nonmedical prescription medication use from social media

Author

Mohammed Ali Al-Garadi, Yuan-Chi Yang, Haitao Cai, Yucheng Ruan, Karen O’Connor, Gonzalez-Hernandez Graciela, Jeanmarie Perrone, and Abeed Sarker

Subjects

Social media, Natural language processing, Prescription medication misuse, Machine learning, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Prescription medication (PM) misuse/abuse has emerged as a national crisis in the United States, and social media has been suggested as a potential resource for performing active monitoring. However, automating a social media-based monitoring system is challenging—requiring advanced natural language processing (NLP) and machine learning methods. In this paper, we describe the development and evaluation of automatic text classification models for detecting self-reports of PM abuse from Twitter. Methods We experimented with state-of-the-art bi-directional transformer-based language models, which utilize tweet-level representations that enable transfer learning (e.g., BERT, RoBERTa, XLNet, AlBERT, and DistilBERT), proposed fusion-based approaches, and compared the developed models with several traditional machine learning, including deep learning, approaches. Using a public dataset, we evaluated the performances of the classifiers on their abilities to classify the non-majority “abuse/misuse” class. Results Our proposed fusion-based model performs significantly better than the best traditional model (F1-score [95% CI]: 0.67 [0.64–0.69] vs. 0.45 [0.42–0.48]). We illustrate, via experimentation using varying training set sizes, that the transformer-based models are more stable and require less annotated data compared to the other models. The significant improvements achieved by our best-performing classification model over past approaches makes it suitable for automated continuous monitoring of nonmedical PM use from Twitter. Conclusions BERT, BERT-like and fusion-based models outperform traditional machine learning and deep learning models, achieving substantial improvements over many years of past research on the topic of prescription medication misuse/abuse classification from social media, which had been shown to be a complex task due to the unique ways in which information about nonmedical use is presented. Several challenges associated with the lack of context and the nature of social media language need to be overcome to further improve BERT and BERT-like models. These experimental driven challenges are represented as potential future research directions.

Published

2021

4. Large-Scale Social Media Analysis Reveals Emotions Associated with Nonmedical Prescription Drug Use

Author

Mohammed Ali Al-Garadi, Yuan-Chi Yang, Yuting Guo, Sangmi Kim, Jennifer S. Love, Jeanmarie Perrone, and Abeed Sarker

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Background. The behaviors and emotions associated with and reasons for nonmedical prescription drug use (NMPDU) are not well-captured through traditional instruments such as surveys and insurance claims. Publicly available NMPDU-related posts on social media can potentially be leveraged to study these aspects unobtrusively and at scale. Methods. We applied a machine learning classifier to detect self-reports of NMPDU on Twitter and extracted all public posts of the associated users. We analyzed approximately 137 million posts from 87,718 Twitter users in terms of expressed emotions, sentiments, concerns, and possible reasons for NMPDU via natural language processing. Results. Users in the NMPDU group express more negative emotions and less positive emotions, more concerns about family, the past, and body, and less concerns related to work, leisure, home, money, religion, health, and achievement compared to a control group (i.e., users who never reported NMPDU). NMPDU posts tend to be highly polarized, indicating potential emotional triggers. Gender-specific analyses show that female users in the NMPDU group express more content related to positive emotions, anticipation, sadness, joy, concerns about family, friends, home, health, and the past, and less about anger than males. The findings are consistent across distinct prescription drug categories (opioids, benzodiazepines, stimulants, and polysubstance). Conclusion. Our analyses of large-scale data show that substantial differences exist between the texts of the posts from users who self-report NMPDU on Twitter and those who do not, and between males and females who report NMPDU. Our findings can enrich our understanding of NMPDU and the population involved.

Published

2022

5. Defining Patient-Oriented Natural Language Processing: A New Paradigm for Research and Development to Facilitate Adoption and Use by Medical Experts

Author

Abeed Sarker, Mohammed Ali Al-Garadi, Yuan-Chi Yang, Jinho Choi, Arshed A Quyyumi, and Greg S Martin

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

The capabilities of natural language processing (NLP) methods have expanded significantly in recent years, and progress has been particularly driven by advances in data science and machine learning. However, NLP is still largely underused in patient-oriented clinical research and care (POCRC). A key reason behind this is that clinical NLP methods are typically developed, optimized, and evaluated with narrowly focused data sets and tasks (eg, those for the detection of specific symptoms in free texts). Such research and development (R&D) approaches may be described as problem oriented, and the developed systems perform specialized tasks well. As standalone systems, however, they generally do not comprehensively meet the needs of POCRC. Thus, there is often a gap between the capabilities of clinical NLP methods and the needs of patient-facing medical experts. We believe that to increase the practical use of biomedical NLP, future R&D efforts need to be broadened to a new research paradigm—one that explicitly incorporates characteristics that are crucial for POCRC. We present our viewpoint about 4 such interrelated characteristics that can increase NLP systems’ suitability for POCRC (3 that represent NLP system properties and 1 associated with the R&D process)—(1) interpretability (the ability to explain system decisions), (2) patient centeredness (the capability to characterize diverse patients), (3) customizability (the flexibility for adapting to distinct settings, problems, and cohorts), and (4) multitask evaluation (the validation of system performance based on multiple tasks involving heterogeneous data sets). By using the NLP task of clinical concept detection as an example, we detail these characteristics and discuss how they may result in the increased uptake of NLP systems for POCRC.

Published

2021

6. A Light-Weight Text Summarization System for Fast Access to Medical Evidence

Author

Abeed Sarker, Yuan-Chi Yang, Mohammed Ali Al-Garadi, and Aamir Abbas

Subjects

medical text processing, text summarization, text mining, natural language processing, health informatics, extractive summarization, Medicine, Public aspects of medicine, RA1-1270, Electronic computers. Computer science, QA75.5-76.95

Abstract

As the volume of published medical research continues to grow rapidly, staying up-to-date with the best-available research evidence regarding specific topics is becoming an increasingly challenging problem for medical experts and researchers. The current COVID19 pandemic is a good example of a topic on which research evidence is rapidly evolving. Automatic query-focused text summarization approaches may help researchers to swiftly review research evidence by presenting salient and query-relevant information from newly-published articles in a condensed manner. Typical medical text summarization approaches require domain knowledge, and the performances of such systems rely on resource-heavy medical domain-specific knowledge sources and pre-processing methods (e.g., text classification) for deriving semantic information. Consequently, these systems are often difficult to speedily customize, extend, or deploy in low-resource settings, and they are often operationally slow. In this paper, we propose a fast and simple extractive summarization approach that can be easily deployed and run, and may thus aid medical experts and researchers obtain fast access to the latest research evidence. At runtime, our system utilizes similarity measurements derived from pre-trained medical domain-specific word embeddings in addition to simple features, rather than computationally-expensive pre-processing and resource-heavy knowledge bases. Automatic evaluation using ROUGE—a summary evaluation tool—on a public dataset for evidence-based medicine shows that our system's performance, despite the simple implementation, is statistically comparable with the state-of-the-art. Extrinsic manual evaluation based on recently-released COVID19 articles demonstrates that the summarizer performance is close to human agreement, which is generally low, for extractive summarization.

Published

2020

7. Extending the coherence of a quantum dot hybrid qubit

Author

Brandur Thorgrimsson, Dohun Kim, Yuan-Chi Yang, L. W. Smith, C. B. Simmons, Daniel R. Ward, Ryan H. Foote, J. Corrigan, D. E. Savage, M. G. Lagally, Mark Friesen, S. N. Coppersmith, and M. A. Eriksson

Subjects

Physics, QC1-999, Electronic computers. Computer science, QA75.5-76.95

Abstract

Quantum information: improving semiconducting qubit performance Researchers in the United States demonstrate high tunability of spin qubits in silicon-based quantum dots. Mark Eriksson at the University of Wisconsin-Madison and colleagues have achieved more than a tenfold improvement in the performance of these three-electron double dot qubits by tuning the electric fields used to confine electrons to quantum dots to a regime where the qubit was predicted to be much less susceptible to the effects of charge noise. Since charge noise limits the performance of many such qubits, these findings provide a path toward the fabrication of electrically gated qubits in silicon quantum dots with very high fidelities.

Published

2017

8. Can accurate demographic information about people who use prescription medications nonmedically be derived from Twitter?

Author

Yuan-Chi Yang, Al-Garadi, Mohammed Ali, Love, Jennifer S., Cooper, Hannah L. F., Perrone, Jeanmarie, and Sarker, Abeed

Subjects

*NATURAL language processing, *RACE, *PROGRAMMING languages, *MACHINE learning, *SUBSTANCE abuse

Abstract

Traditional substance use (SU) surveillance methods, such as surveys, incur substantial lags. Due to the continuously evolving trends in SU, insights obtained via such methods are often outdated. Social media-based sources have been proposed for obtaining timely insights, but methods leveraging such data cannot typically provide fine-grained statistics about subpopulations, unlike traditional approaches. We address this gap by developing methods for automatically characterizing a large Twitter nonmedical prescription medication use (NPMU) cohort (n = 288,562) in terms of age-group, race, and gender. Our natural language processing and machine learning methods for automated cohort characterization achieved 0.88 precision (95% CI:0.84 to 0.92) for age-group, 0.90 (95% CI: 0.85 to 0.95) for race, and 94% accuracy (95% CI: 92 to 97) for gender, when evaluated against manually annotated gold-standard data. We compared automatically derived statistics for NPMU of tranquilizers, stimulants, and opioids from Twitter with statistics reported in the National Survey on Drug Use and Health (NSDUH) and the National Emergency Department Sample (NEDS). Distributions automatically estimated from Twitter were mostly consistent with the NSDUH [Spearman r: race: 0.98 (P < 0.005); age-group: 0.67 (P < 0.005); gender: 0.66 (P = 0.27)] and NEDS, with 34/65 (52.3%) of the Twitter-based estimates lying within 95% CIs of estimates from the traditional sources. Explainable differences (e.g., overrepresentation of younger people) were found for age-group-related statistics. Our study demonstrates that accurate subpopulation-specific estimates about SU, particularly NPMU, may be automatically derived from Twitter to obtain earlier insights about targeted subpopulations compared to traditional surveillance approaches. [ABSTRACT FROM AUTHOR]

Published

2023

9. Developing an Automatic System for Classifying Chatter About Health Services on Twitter: Case Study for Medicaid

Author

Jane M. Zhu, Yuan-Chi Yang, David Grande, Mohammed Ali Al-Garadi, Abeed Sarker, and Whitney Bremer

Subjects

020205 medical informatics, Computer science, social media, Twitter, Computer applications to medicine. Medical informatics, R858-859.7, Health Informatics, 02 engineering and technology, computer.software_genre, infodemiology, infoveillance, 03 medical and health sciences, Naive Bayes classifier, 0302 clinical medicine, Classifier (linguistics), 0202 electrical engineering, electronic engineering, information engineering, Humans, Social media, 030212 general & internal medicine, natural language processing, Original Paper, Medicaid, business.industry, consumer feedback, Bayes Theorem, Health Services, United States, Random forest, Support vector machine, machine learning, Categorization, Infoveillance, Artificial intelligence, Public aspects of medicine, RA1-1270, business, F1 score, computer, Natural language processing

Abstract

Background The wide adoption of social media in daily life renders it a rich and effective resource for conducting near real-time assessments of consumers’ perceptions of health services. However, its use in these assessments can be challenging because of the vast amount of data and the diversity of content in social media chatter. Objective This study aims to develop and evaluate an automatic system involving natural language processing and machine learning to automatically characterize user-posted Twitter data about health services using Medicaid, the single largest source of health coverage in the United States, as an example. Methods We collected data from Twitter in two ways: via the public streaming application programming interface using Medicaid-related keywords (Corpus 1) and by using the website’s search option for tweets mentioning agency-specific handles (Corpus 2). We manually labeled a sample of tweets in 5 predetermined categories or other and artificially increased the number of training posts from specific low-frequency categories. Using the manually labeled data, we trained and evaluated several supervised learning algorithms, including support vector machine, random forest (RF), naïve Bayes, shallow neural network (NN), k-nearest neighbor, bidirectional long short-term memory, and bidirectional encoder representations from transformers (BERT). We then applied the best-performing classifier to the collected tweets for postclassification analyses to assess the utility of our methods. Results We manually annotated 11,379 tweets (Corpus 1: 9179; Corpus 2: 2200) and used 7930 (69.7%) for training, 1449 (12.7%) for validation, and 2000 (17.6%) for testing. A classifier based on BERT obtained the highest accuracies (81.7%, Corpus 1; 80.7%, Corpus 2) and F1 scores on consumer feedback (0.58, Corpus 1; 0.90, Corpus 2), outperforming the second best classifiers in terms of accuracy (74.6%, RF on Corpus 1; 69.4%, RF on Corpus 2) and F1 score on consumer feedback (0.44, NN on Corpus 1; 0.82, RF on Corpus 2). Postclassification analyses revealed differing intercorpora distributions of tweet categories, with political (400778/628411, 63.78%) and consumer feedback (15073/27337, 55.14%) tweets being the most frequent for Corpus 1 and Corpus 2, respectively. Conclusions The broad and variable content of Medicaid-related tweets necessitates automatic categorization to identify topic-relevant posts. Our proposed system presents a feasible solution for automatic categorization and can be deployed and generalized for health service programs other than Medicaid. Annotated data and methods are available for future studies.

Published

2021

10. Developing an automatic pipeline for analyzing chatter about health services from social media: A case study for Medicaid

Author

Jane M. Zhu, Yuan-Chi Yang, Whitney Hogg-Bremer, Abeed Sarker, Mohammed Ali Al-Garadi, and David Grande

Subjects

Future studies, Computer science, business.industry, computer.software_genre, Support vector machine, Health services, Categorization, Social media, Artificial intelligence, business, computer, Medicaid, Encoder, Natural language processing, Supervised training

Abstract

ObjectiveSocial media can be an effective but challenging resource for conducting close-to-real-time assessments of consumers’ perceptions about health services. Our objective was to develop and evaluate an automatic pipeline, involving natural language processing and machine learning, for automatically characterizing user-posted Twitter data about Medicaid.Material and MethodsWe collected Twitter data via the public API using Medicaid-related keywords (Corpus-1), and the website’s search option using agency-specific handles (Corpus-2). We manually labeled a sample of tweets into five pre-determined categories or other, and artificially increased the number of training posts from specific low-frequency categories. We trained and evaluated several supervised learning algorithms using manually-labeled data, and applied the best-performing classifier to collected tweets for post-classification analyses assessing the utility of our methods.ResultsWe collected 628,411 and 27,377 tweets for Corpus-1 and -2, respectively. We manually annotated 9,571 (Corpus-1: 8,180; Corpus-2: 1,391) tweets, using 7,923 (82.8%) for training and 1,648 (17.2%) for evaluation. A BERT-based (bidirectional encoder representations from transformers) classifier obtained the highest accuracies (83.9%, Corpus-1; 86.4%, Corpus-2), outperforming the second-best classifier (SVMs: 79.6%; 76.4%). Post-classification analyses revealed differing inter-corpora distributions of tweet categories, with political (63%) and consumer-feedback (43%) tweets being most frequent for Corpus-1 and -2, respectively.Discussion and ConclusionThe broad and variable content of Medicaid-related tweets necessitates automatic categorization to identify topic-relevant posts. Our proposed pipeline presents a feasible solution for automatic categorization, and can be deployed/generalized for health service programs other than Medicaid. Annotated data and methods are available for future studies (LINK_TO_BE_AVAILABLE).

Published

2020

11. Self-reported COVID-19 symptoms on Twitter: An analysis and a research resource

Author

Mohammed Ali Al-Garadi, Yuan-Chi Yang, Abeed Sarker, Sahithi Lakamana, Angel Xie, and Whitney Hogg-Bremer

Subjects

medicine.medical_specialty, 2019-20 coronavirus outbreak, 020205 medical informatics, Coronavirus disease 2019 (COVID-19), social media, Pneumonia, Viral, Anosmia, communicable diseases, Health Informatics, Clinical settings, text mining, 02 engineering and technology, Virus diseases, Betacoronavirus, 03 medical and health sciences, 0302 clinical medicine, Research community, Internal medicine, virus diseases, 0202 electrical engineering, electronic engineering, information engineering, medicine, Data Mining, Humans, Social media, 030212 general & internal medicine, natural language processing, Pandemics, SARS-CoV-2, business.industry, COVID-19, Ageusia, Mild symptoms, Self Report, Symptom Assessment, medicine.symptom, Coronavirus Infections, Brief Communications, business

Abstract

ObjectiveTo mine Twitter and quantitatively analyze COVID-19 symptoms self-reported by users, compare symptom distributions across studies, and create a symptom lexicon for future research.Materials and MethodsWe retrieved tweets using COVID-19-related keywords, and performed semiautomatic filtering to curate self-reports of positive-tested users. We extracted COVID-19-related symptoms mentioned by the users, mapped them to standard concept IDs in the Unified Medical Language System, and compared the distributions to those reported in early studies from clinical settings.ResultsWe identified 203 positive-tested users who reported 1002 symptoms using 668 unique expressions. The most frequently-reported symptoms were fever/pyrexia (66.1%), cough (57.9%), body ache/pain (42.7%), fatigue (42.1%), headache (37.4%), and dyspnea (36.3%) amongst users who reported at least 1 symptom. Mild symptoms, such as anosmia (28.7%) and ageusia (28.1%), were frequently reported on Twitter, but not in clinical studies.ConclusionThe spectrum of COVID-19 symptoms identified from Twitter may complement those identified in clinical settings.

Published

2020

12. Extending the coherence of a quantum dot hybrid qubit

Author

Yuan-Chi Yang, Daniel R. Ward, Dohun Kim, L. W. Smith, Mark Friesen, Brandur Thorgrimsson, Christie Simmons, J. Corrigan, Donald E. Savage, Susan Coppersmith, Mark A. Eriksson, Ryan H. Foote, and Max G. Lagally

Subjects

Quantum decoherence, Computer Networks and Communications, QC1-999, FOS: Physical sciences, 02 engineering and technology, 01 natural sciences, Computer Science::Emerging Technologies, Quantum mechanics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Computer Science (miscellaneous), 010306 general physics, Quantum, Quantum computer, Physics, Condensed Matter::Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics, Statistical and Nonlinear Physics, Quantum Physics, QA75.5-76.95, 021001 nanoscience & nanotechnology, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Free induction decay, Computational Theory and Mathematics, Quantum dot, Qubit, Electronic computers. Computer science, 0210 nano-technology, Rabi frequency, Coherence (physics)

Abstract

Identifying and ameliorating dominant sources of decoherence are important steps in understanding and improving quantum systems. Here we show that the free induction decay time ($T_{2}^{*}$) and the Rabi decay rate ($\Gamma_{\mathrm{Rabi}}$) of the quantum dot hybrid qubit can be increased by more than an order of magnitude by appropriate tuning of the qubit parameters and operating points. By operating in the spin-like regime of this qubit, and choosing parameters that increase the qubit's resilience to charge noise (which we show is presently the limiting noise source for this qubit), we achieve a Ramsey decay time $T_{2}^{*}$ of $177~\mathrm{ns}$ and a Rabi decay time, $1/\Gamma_{\mathrm{Rabi}}$, exceeding $1~\mathrm{\mu s}$. We find that the slowest $\Gamma_{\mathrm{Rabi}}$ is limited by fluctuations in the Rabi frequency induced by charge noise and not by fluctuations in the qubit energy itself., Comment: 10 pages, 6 figures. Supplementary material is included as appendices

Published

2017

13. High-Fidelity Entangling Gates for Quantum-Dot Hybrid Qubits Based on Exchange Interactions

Author

Susan Coppersmith, Yuan-Chi Yang, and Mark Friesen

Subjects

Physics, Quantum Physics, Current (mathematics), Condensed Matter - Mesoscale and Nanoscale Physics, Dephasing, FOS: Physical sciences, Charge (physics), Coupling (probability), 01 natural sciences, Noise (electronics), 010305 fluids & plasmas, Computer Science::Emerging Technologies, Quantum dot, Qubit, Quantum mechanics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Hardware_ARITHMETICANDLOGICSTRUCTURES, Quantum Physics (quant-ph), 010306 general physics, Quasistatic process

Abstract

Quantum dot hybrid qubits exploit an extended charge-noise sweet spot that suppresses dephasing and has enabled the experimental achievement of high-fidelity single-qubit gates. However, current proposals for two-qubit gates require tuning the qubits away from their sweet spots. Here, we propose a two-hybrid-qubit coupling scheme, based on exchange interactions, that allows the qubits to remain at their sweet spots at all times. The interaction is controlled via the inter-qubit tunnel coupling. By simulating such gates in the presence of realistic quasistatic and $1\!/\!f$ charge noise, we show that our scheme should enable controlled-$Z$ gates of length $\sim$5~ns, and Z-CNOT gates of length $\sim$7~ns, both with fidelities $>$99.9\%., 19 pages

Published

2019

14. High-fidelity single-qubit gates in a strongly driven quantum dot hybrid qubit with $1/f$ charge noise

Author

Mark Friesen, Yuan-Chi Yang, and Susan Coppersmith

Subjects

Physics, Quantum Physics, Quantum decoherence, Condensed Matter - Mesoscale and Nanoscale Physics, Dephasing, FOS: Physical sciences, Charge (physics), Coupling (probability), 01 natural sciences, Noise (electronics), 010305 fluids & plasmas, Quantum gate, Quantum mechanics, Qubit, 0103 physical sciences, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 010306 general physics, Quantum Physics (quant-ph), Quantum computer

Abstract

Semiconductor double quantum dot hybrid qubits are promising candidates for high-fidelity quantum computing. However, their performance is limited by charge noise, which is ubiquitous in solid-state devices, and phonon-induced dephasing. Here we explore methods for improving the quantum operations of a hybrid qubit, using strong microwave driving to enable gate operations that are much faster than decoherence processes. Using numerical simulations and a theoretical method based on a cumulant expansion, we analyze qubit dynamics in the presence of $1/f$ charge noise, which forms the dominant decoherence mechanism in many solid-state devices. We show that, while strong-driving effects and charge noise both reduce the quantum gate fidelity, simple pulse-shaping techniques effectively suppress the strong-driving effects. Moreover, a broad AC sweet spot emerges when the detuning parameter and the tunneling coupling are driven simultaneously. Taking into account phonon-mediated noise, we find that it should be possible to achieve $X_{\pi}$ gates with fidelities higher than $99.9\%$., Comment: 14 pages, 6 figures

Published

2019

15. Achieving High-Fidelity Single-Qubit Gates in a Strongly Driven Charge Qubit with $1\!/\!f$ Charge Noise

Author

Susan Coppersmith, Mark Friesen, and Yuan-Chi Yang

Subjects

Quantum decoherence, Charge qubit, Computer Networks and Communications, FOS: Physical sciences, 01 natural sciences, lcsh:QA75.5-76.95, 010305 fluids & plasmas, Computer Science::Emerging Technologies, Hardware_GENERAL, Quantum mechanics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Computer Science (miscellaneous), Hardware_ARITHMETICANDLOGICSTRUCTURES, Quantum information, 010306 general physics, Quantum computer, Physics, Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Statistical and Nonlinear Physics, Charge (physics), lcsh:QC1-999, Quantum technology, Computational Theory and Mathematics, Quantum dot, Qubit, lcsh:Electronic computers. Computer science, Quantum Physics (quant-ph), lcsh:Physics

Abstract

Charge qubits formed in double quantum dots represent quintessential two-level systems that enjoy both ease of control and efficient readout. Unfortunately, charge noise can cause rapid decoherence, with typical single-qubit gate fidelities falling below $90\%$. Here, we develop analytical methods to study the evolution of strongly driven charge qubits, for general and $1\!/\!f$ charge-noise spectra. We show that special pulsing techniques can simultaneously suppress errors due to strong driving and charge noise, yielding single-qubit gates with fidelities above $99.9\%$. These results demonstrate that quantum dot charge qubits provide a potential route to high-fidelity quantum computation., 19 pages, 4 figures

Published

2018

16. Achieving High Fidelity Single Qubit Gates in a Strongly Driven Silicon Quantum Dot Hybrid Qubit

Author

Yuan-Chi Yang, Susan Coppersmith, and Mark Friesen

Subjects

Physics, Flux qubit, Quantum Physics, Charge qubit, Quantum decoherence, Condensed Matter - Mesoscale and Nanoscale Physics, FOS: Physical sciences, 01 natural sciences, 010305 fluids & plasmas, Phase qubit, Complex dynamics, Computer Science::Emerging Technologies, Qubit, Quantum mechanics, 0103 physical sciences, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Rotating wave approximation, 010306 general physics, Quantum Physics (quant-ph), Rabi frequency

Abstract

Performing qubit gate operations as quickly as possible can be important to minimize the effects of decoherence. For resonant gates, this requires applying a strong ac drive. However, strong driving can present control challenges by causing leakage to levels that lie outside the qubit subspace. Strong driving can also present theoretical challenges because preferred tools such as the rotating wave approximation can break down, resulting in complex dynamics that are difficult to control. Here we analyze resonant $X$ rotations of a silicon quantum double dot hybrid qubit within a dressed-state formalism, obtaining results beyond the rotating wave approximation. We obtain analytic formulas for the optimum driving frequency and the Rabi frequency, which both are affected by strong driving. While the qubit states exhibit fast oscillations due to counter-rotating terms and leakage, we show that they can be suppressed to the point that gate fidelities above $99.99\%$ are possible, in the absence of decoherence. Hence decoherence mechanisms, rather than strong-driving effects, should represent the limiting factor for resonant-gate fidelities in quantum dot hybrid qubits.

Published

2017

17. PUBLIC AND POLITICAL OPINION ON MEDICAID: A Twitter Analysis.

Author

Zhu, Jane M., Gollust, Sarah, Yuan-Chi Yang, Sarker, Abeed, and Grande, David

Published

2021

18. Residual-Load-Bearing Capacity of High-Performance Concrete-Filled Box Columns after Fire.

Author

How-Ji Chen, Yuan-Chi Yang, Chao-Wei Tang, and Ching-Fang Peng

Subjects

CONCRETE columns, HIGH strength concrete, FIRE testing of concrete, RESIDUAL stresses, MATERIALS at high temperatures

Abstract

In recent years, concrete-filled box columns (CFBCs) have been commonly used in high-rise buildings. In particular, steel box columns filled with high-performance concrete (HPC) are more common than concrete-encased steel columns. However, a number of fire test results show that there are significant differences between HPC and normal concrete after being subjected to high temperatures. Therefore, the residual strength of HPC-filled box columns exposed to fire was determined in this study. Two groups of full-size specimens were fabricated. The specimen of the control group was loaded at room temperature to achieve its ultimate load. On the other hand, fire tests were carried out on three specimens of the experimental group to investigate their residual-load-bearing capacity after exposure to elevated temperatures (400, 600, and 800 °C). To monitor and measure the temperature of the CFBC specimens during the fire test, an appropriate number of thermocouples were buried inside and outside the column. The thermocouples can effectively measure the temperature of the CFBC specimens during the fire test. The test results show that the residual ultimate strength of CFBC specimens increased at 400 and 600 °C by 5.2 and 1.0% respectively, compared with room-temperature strength. However, with a further increase in temperature to 800 °C, the residual ultimate strength was 15.7% lower than that of the control group at room temperature. [ABSTRACT FROM AUTHOR]

Published

2017