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18,991 results on '"Momeni A"'

1. The influence of new severe plastic deformation on microstructure, mechanical, and corrosion properties of Mg-0.8Mn-0.5Ca alloy

Author

Khani M., Ebrahimi G.R., Ezatpour H.R., and Momeni A.

Subjects
mg-0.8mn-0.5ca alloy, accumulative extrusion bonding, microstructure, mechanical properties, corrosion, Mining engineering. Metallurgy, TN1-997
Abstract

In this research, the effect of accumulative extrusion bonding (AEB) on the microstructure and mechanical properties of Mg-0.8Mn-0.5Ca biocompatible alloy was investigated. The goal of this research was to develop the mechanical and corrosion properties of Mg-0.8Mn-0.5Ca alloy after ABE process as a novel severe plastic deformation process. The simulation of AEB process showed that the average effective strain per pass for channels with the internal angle of 120° was about 1.93. The average grain size was dramatically decreased from about 448.3 μm for the homogenized alloy to 1.55 μm for the 3-pass processed sample. Microstructural observations suggested a combination of continuous, discontinuous, and twinning-induced dynamic recrystallization as the major mechanisms of grain refinement. Tensile and compressive strengths were improved from 150 and 205 MPa to 330 and 301 MPa after three passes of AEB, indicating 2 and 1.5 times improvements, respectively. Tensile elongation decreased from 26% for the homogenized sample to 7.5% for the 3-pass processed sample due to the severe work-hardening, non-uniform strains, and inhomogeneous microstructure produced by the ABE process. Corrosion resistance in SBF solution was improved from 1.1 to 14.159 after three passes of ABE due to the presence of hydroxyapatite formed on the surface of the AEBed samples.

Published
2023
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2. Parallel wave-based analog computing using metagratings

Author

Rajabalipanah Hamid, Momeni Ali, Rahmanzadeh Mahdi, Abdolali Ali, and Fleury Romain

Subjects
analog optical computing, metagrating, metasurface, Physics, QC1-999
Abstract

Wave-based signal processing has witnessed a significant expansion of interest in a variety of science and engineering disciplines, as it provides new opportunities for achieving high-speed and low-power operations. Although flat optics desires integrable components to perform multiple missions, yet, the current wave-based computational metasurfaces can engineer only the spatial content of the input signal where the processed signal obeys the traditional version of Snell’s law. In this paper, we propose a multi-functional metagrating to modulate both spatial and angular properties of the input signal whereby both symmetric and asymmetric optical transfer functions are realized using high-order space harmonics. The performance of the designed compound metallic grating is validated through several investigations where closed-form expressions are suggested to extract the phase and amplitude information of the diffractive modes. Several illustrative examples are demonstrated to show that the proposed metagrating allows for simultaneous parallel analog computing tasks such as first- and second-order spatial differentiation through a single multichannel structured surface. It is anticipated that the designed platform brings a new twist to the field of optical signal processing and opens up large perspectives for simple integrated image processing systems.

Published
2022
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3. Warm non-minimally coupled Peccei-Quinn Inflation and de Sitter Swampland Conjecture

Author

Yuennan, Jureeporn, Channuie, Phongpichit, and Momeni, Davood

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

In this study, we explore the dynamics of warm inflation within a non-minimally coupled Peccei-Quinn (PQ) framework and evaluate its compatibility with the de Sitter Swampland Conjecture. Our model incorporates a PQ scalar field that is non-minimally coupled to gravity, facilitating inflation through a dissipative process that sustains a thermal bath, thereby distinguishing it from conventional cold inflation. We analyze the dissipation coefficient defined as $\Gamma(T, \sigma) = C_n T^n \sigma^p M^{1-n-p}$, where $C_n$ is a dimensionless constant, $M$ is a mass scale, and $n$ and $p$ are numerical powers. Our investigation focuses on three specific cases: (a) A temperature-dependent dissipation coefficient with an inverse relation, $\Gamma = C_{-1}\,\sigma^2/T$, where $n=-1$ and $p=2$; (b) A dissipation coefficient linear in field $\phi$, $\Gamma = C_{0} \sigma$, where $n=0$ and $p=1$; and (c) A dissipation coefficient linear in temperature $T$, $\Gamma = C_{1} T$, where $n=1$ and $p=0$. By examining the slow-roll dynamics in these inflationary scenarios, we derive essential cosmological parameters, including the scalar spectral index and the tensor-to-scalar ratio. We compare our results with the latest observational data from Planck 2018. Our findings suggest that the model is consistent with observational constraints while simultaneously satisfying the de Sitter Swampland conditions., Comment: v1: 28 pages, many figures

Published
2024

4. Toward satisfactory public accessibility: A crowdsourcing approach through online reviews to inclusive urban design

Author

Li, Lingyao, Hu, Songhua, Dai, Yinpei, Deng, Min, Momeni, Parisa, Laverghetta, Gabriel, Fan, Lizhou, Ma, Zihui, Wang, Xi, Ma, Siyuan, Ligatti, Jay, and Hemphill, Libby

Subjects
Computer Science - Social and Information Networks
Abstract

As urban populations grow, the need for accessible urban design has become urgent. Traditional survey methods for assessing public perceptions of accessibility are often limited in scope. Crowdsourcing via online reviews offers a valuable alternative to understanding public perceptions, and advancements in large language models can facilitate their use. This study uses Google Maps reviews across the United States and fine-tunes Llama 3 model with the Low-Rank Adaptation technique to analyze public sentiment on accessibility. At the POI level, most categories -- restaurants, retail, hotels, and healthcare -- show negative sentiments. Socio-spatial analysis reveals that areas with higher proportions of white residents and greater socioeconomic status report more positive sentiment, while areas with more elderly, highly-educated residents exhibit more negative sentiment. Interestingly, no clear link is found between the presence of disabilities and public sentiments. Overall, this study highlights the potential of crowdsourcing for identifying accessibility challenges and providing insights for urban planners.

Published
2024

5. Fine-tuning Microporosity of Crystalline Vanadomolybdate Frameworks for Selective Adsorptive Separation of Kr from Xe

Author

Akter, Suchona, Li, Yong, Kim, Minbum, Faruque, Md Omar, Peng, Zhonghua, Thallapally, Praveen K., and Momeni, Mohammad R.

Subjects
Condensed Matter - Materials Science
Abstract

Selective adsorptive capture and separation of chemically inert Kr and Xe noble gases with very low ppmv concentrations in air and industrial off-gases constitute an important technological challenge. Here, using a synergistic combination of experiment and theory, the microporous crystalline vanadomolybdates (MoVOx) as highly selective Kr sorbents are studied in detail. By varying the Mo/V ratios, we show for the first time that their one-dimensional pores can be fine-tuned for the size-selective adsorption of Kr over the larger Xe with selectivities reaching >100. Using extensive electronic structure calculations and grand canonical Monte-Carlo simulations, the competition between Kr uptake with CO2 and N2 was also investigated. As most materials reported so far are selective toward the larger, more polarizable Xe than Kr, this work constitutes an important step toward robust Kr-selective sorbent materials. This work highlights the potential use of porous crystalline transition metal oxides as energy-efficient and selective noble gas capture sorbents for industrial applications.

Published
2024

6. High throughput screening, crystal structure prediction, and carrier mobility calculations of organic molecular semiconductors as hole transport layer materials in perovskite solar cells

Author

Faruque, Md Omar, Akter, Suchona, Limbu, Dil K., Kilway, Kathleen, Peng, Zhonghua, and Momeni, Mohammad R.

Subjects
Condensed Matter - Materials Science
Abstract

Using a representative translational dimer model, high throughput calculations are implemented for fast screening of a total of 74 diacenaphtho-extended heterocycle (DAH) derivatives as hole transport layer (HTL) materials in perovskite solar cells (PVSCs). Different electronic properties, including band structures, band gaps, and band edges compared to methylammonium and formamidinium lead iodide perovskites, along with reorganization energies, electronic couplings, and hole mobilities are calculated in order to decipher the effects of different parameters, including the polarity, steric and pi-conjugation, as well as the presence of explicit hydrogen bond interactions on the computed carrier mobilities of the studied materials. Full crystal structure predictions and hole mobility calculations of the top candidates resulted in some mobilities exceeding 10 cm2/V.s, further validating the employed translational dimer model as a robust approach for inverse design and fast high throughput screening of new HTL organic semiconductors with superior properties. The studied models and simulations performed in this work are instructive in designing next-generation HTL materials for higher-performance PVSCs.

Published
2024

7. Training of Physical Neural Networks

Author

Momeni, Ali, Rahmani, Babak, Scellier, Benjamin, Wright, Logan G., McMahon, Peter L., Wanjura, Clara C., Li, Yuhang, Skalli, Anas, Berloff, Natalia G., Onodera, Tatsuhiro, Oguz, Ilker, Morichetti, Francesco, del Hougne, Philipp, Gallo, Manuel Le, Sebastian, Abu, Mirhoseini, Azalia, Zhang, Cheng, Marković, Danijela, Brunner, Daniel, Moser, Christophe, Gigan, Sylvain, Marquardt, Florian, Ozcan, Aydogan, Grollier, Julie, Liu, Andrea J., Psaltis, Demetri, Alù, Andrea, and Fleury, Romain

Subjects
Physics - Applied Physics, Computer Science - Machine Learning
Abstract

Physical neural networks (PNNs) are a class of neural-like networks that leverage the properties of physical systems to perform computation. While PNNs are so far a niche research area with small-scale laboratory demonstrations, they are arguably one of the most underappreciated important opportunities in modern AI. Could we train AI models 1000x larger than current ones? Could we do this and also have them perform inference locally and privately on edge devices, such as smartphones or sensors? Research over the past few years has shown that the answer to all these questions is likely "yes, with enough research": PNNs could one day radically change what is possible and practical for AI systems. To do this will however require rethinking both how AI models work, and how they are trained - primarily by considering the problems through the constraints of the underlying hardware physics. To train PNNs at large scale, many methods including backpropagation-based and backpropagation-free approaches are now being explored. These methods have various trade-offs, and so far no method has been shown to scale to the same scale and performance as the backpropagation algorithm widely used in deep learning today. However, this is rapidly changing, and a diverse ecosystem of training techniques provides clues for how PNNs may one day be utilized to create both more efficient realizations of current-scale AI models, and to enable unprecedented-scale models., Comment: 29 pages, 4 figures

Published
2024

8. From Retributive to Restorative: An Alternative Approach to Justice. EdWorkingPaper No. 23-854

Author

Annenberg Institute for School Reform at Brown University, Anjali Adukia, Benjamin Feigenberg, and Fatemeh Momeni

Abstract

School districts historically approached conflict-resolution from a zero-sum perspective: suspend students seen as disruptive and potentially harm them, or avoid suspensions and harm their classmates. Restorative practices (RP) -- focused on reparation and shared ownership of disciplinary justice -- are designed to avoid this trade-off by addressing undesirable behavior without imparting harm. This study examines Chicago Public Schools' adoption of RP. We identify decreased suspensions, improved school climate, and find no evidence of increased classroom disruption. We estimate a 19% decrease in arrests, including for violent offenses, with reduced arrests outside of school, providing evidence that RP substantively changed behavior. [Additional funding provided by the Becker Friedman Institute for Economics at the University of Chicago and the Hymen Milgrom Supporting Organization through the Successful Pathways from School to Work initiative of the University of Chicago.]

Published
2023

9. A Tale of Two Languages: Large-Vocabulary Continuous Sign Language Recognition from Spoken Language Supervision

Author

Raude, Charles, Prajwal, K R, Momeni, Liliane, Bull, Hannah, Albanie, Samuel, Zisserman, Andrew, and Varol, Gül

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

In this work, our goals are two fold: large-vocabulary continuous sign language recognition (CSLR), and sign language retrieval. To this end, we introduce a multi-task Transformer model, CSLR2, that is able to ingest a signing sequence and output in a joint embedding space between signed language and spoken language text. To enable CSLR evaluation in the large-vocabulary setting, we introduce new dataset annotations that have been manually collected. These provide continuous sign-level annotations for six hours of test videos, and will be made publicly available. We demonstrate that by a careful choice of loss functions, training the model for both the CSLR and retrieval tasks is mutually beneficial in terms of performance -- retrieval improves CSLR performance by providing context, while CSLR improves retrieval with more fine-grained supervision. We further show the benefits of leveraging weak and noisy supervision from large-vocabulary datasets such as BOBSL, namely sign-level pseudo-labels, and English subtitles. Our model significantly outperforms the previous state of the art on both tasks.

Published
2024

10. Gravity Rainbow Effects on Higher Curvature Modification of R2 inflation

Author

Yuennan, Jureeporn, Channuie, Phongpichit, and Momeni, Davood

Subjects
General Relativity and Quantum Cosmology
Abstract

In this work, we study several extensions of the higher curvature modification of $R^{2}$ inflation in the context of gravity's rainbow. We modify the $(R+R^{2})$ model by adding an $f_{1}R^3$-term, an $f_{2}R^4$-term, and an $f_{3}R^{3/2}$-term to the original model. We calculate the inflationary observables and confront them using the latest observational bounds from Planck 2018 data. We assume the rainbow function of the form $\tilde{f}=1+\left(\frac{H}{M}\right)^{\lambda }$ with $\lambda$ being a rainbow parameter and $M$ a mass-dimensional parameter. We demonstrate that the power spectrum of curvature perturbation relies on the dimensionless coefficient $f_{i},\,i=1,2,3$, a rainbow parameter $\lambda$ and a ratio $H/M$. Likewise, the scalar spectral index $n_s$ is affected by both $f_{i}$ and the rainbow parameter. Moreover, the tensor-to-scalar ratio $r$ is solely determined by the rainbow parameter. Interestingly, by ensuring that $n_s$ aligns with the Planck collaboration's findings at the $1\sigma$ confidence level, the tensor-to-scalar ratio could reach up to $r\sim 0.01$, which is possibly measurable for detection in forthcoming Stage IV CMB ground experiments and is certainly feasible for future dedicated space missions., Comment: v3: 21 pages, 4 figures. references added, texts modified, results unchanged. Version published in EPJC. arXiv admin note: text overlap with arXiv:2404.14766

Published
2024
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11. Unveiling Novel Insights in Quantum Dynamics through Extended Sachdev-Ye-Kitaev Model

Author

Momeni, Davood

Subjects
High Energy Physics - Theory
Abstract

Inspired by recent developments in the study of the model of double scaled SYK (DSSYK), as elucidated in a recent paper, we embark on a re-evaluation of the Sachdev-Ye-Kitaev (SYK) model. Our motivation stems from the insights gained from the DSSYK model, particularly its ability to capture essential features of quantum dynamics and gravitational effects. In this work, we delve into the SYK model, uncovering precise solutions for the two-point function and self-energy that have not been previously reported. Building upon the advancements made in particle physics phenomenology, we extend the SYK model to encompass tensor field theory. Through the incorporation of a cutoff term to ensure convergence, we substantially advance our understanding of quantum many-body physics. Our investigation extends to experimental parameter estimation and the exploration of cutoff dependency in random couplings, providing invaluable insights into system dynamics. The introduction of a novel tensor field theory replaces conventional fermionic degrees of freedom with tensorial counterparts, leading to the discovery of intriguing phase transition phenomena characterized by a first-order transition. Furthermore, we elucidate a direct linear relationship between the coupling parameter and the cutoff scale. These findings not only shed light on emergent behavior across both high-energy physics and condensed matter systems but also pave the way for further theoretical and experimental exploration, inspired by the recent advancements in the SYK model., Comment: 43 pages, two References added

Published
2024

12. Observation of Floquet states in graphene

Author

Merboldt, Marco, Schüler, Michael, Schmitt, David, Bange, Jan Philipp, Bennecke, Wiebke, Gadge, Karun, Pierz, Klaus, Schumacher, Hans Werner, Momeni, Davood, Steil, Daniel, Manmana, Salvatore R., Sentef, Michael, Reutzel, Marcel, and Mathias, Stefan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recent advances in the field of condensed-matter physics have unlocked the potential to realize and control emergent material phases that do not exist in thermal equilibrium. One of the most promising concepts in this regard is Floquet engineering, the coherent dressing of matter via time-periodic perturbations. However, the broad applicability of Floquet engineering to quantum materials is still unclear. For the paradigmatic case of monolayer graphene, the theoretically predicted Floquet-induced effects, despite a seminal report of the light-induced anomalous Hall effect, have been put into question. Here, we overcome this problem by using electronic structure measurements to provide direct experimental evidence of Floquet engineering in graphene. We report light-matter-dressed Dirac bands by measuring the contribution of Floquet sidebands, Volkov sidebands, and their quantum path interference to graphene's photoemission spectral function. Our results finally demonstrate that Floquet engineering in graphene is possible, paving the way for the experimental realization of the many theoretical proposals on Floquet-engineered band structures and topological phases., Comment: 4 main figures, 3 extended figures

Published
2024

13. Finding $d$-Cuts in Graphs of Bounded Diameter, Graphs of Bounded Radius and $H$-Free Graphs

Author

Lucke, Felicia, Momeni, Ali, Paulusma, Daniël, and Smith, Siani

Subjects
Mathematics - Combinatorics, Computer Science - Computational Complexity, Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms
Abstract

The $d$-Cut problem is to decide if a graph has an edge cut such that each vertex has at most $d$ neighbours at the opposite side of the cut. If $d=1$, we obtain the intensively studied Matching Cut problem. The $d$-Cut problem has been studied as well, but a systematic study for special graph classes was lacking. We initiate such a study and consider classes of bounded diameter, bounded radius and $H$-free graphs. We prove that for all $d\geq 2$, $d$-Cut is polynomial-time solvable for graphs of diameter $2$, $(P_3+P_4)$-free graphs and $P_5$-free graphs. These results extend known results for $d=1$. However, we also prove several NP-hardness results for $d$-Cut that contrast known polynomial-time results for $d=1$. Our results lead to full dichotomies for bounded diameter and bounded radius and to almost-complete dichotomies for $H$-free graphs.

Published
2024

14. Exploring Self-Gravitating Cylindrical Structures in Modified Gravity: Insights from Scalar-Vector-Tensor Theory

Author

Momeni, Davood, Channuie, Phongpichit, and Al-Ajmi, Mudhahir

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

We investigate static cylindrical solutions within an extended theory of modified gravity. By incorporating various coupling functions through a straightforward boost symmetry approach, we establish the equations of motion in a self-consistent manner and subsequently determine the linear scalar field profile. Utilizing analytical methods, we solve the system of equations for the metric functions and the $U(1)$ gauge field, revealing their dependence on Bessel's functions. To comprehend gravito-objects exhibiting cylindrical symmetry, we develop a perturbative framework aimed at identifying all nontrivial solutions for the scalar profiles. Introducing first-order truncated perturbation equations for the gauge field, synchronized with metric gauges and electromagnetic field considerations, we demonstrate their integrability and obtain solutions through quadrature. Our findings suggest the feasibility of obtaining self-gravitating cylindrical structures within the scalar-vector-tensor theory., Comment: v3: version published in Nucl. Phys. B

Published
2024
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18. Quantitative Analysis of Genomic DNA Degradation of E. coli Using Automated Gel Electrophoresis under Various Levels of Microwave Exposure.

Author

Pandey, Aditya, Momeni, Omeed, and Pandey, Pramod

Subjects
E. coli, automated gel electrophoresis, degradation, genomic DNA, microwave
Abstract

The problem that this study addresses is to understand how microwave radiation is able to degrade genomic DNA of E. coli. In addition, a comparative study was made to evaluate the suitability of a high-throughput automated electrophoresis platform for quantifying the DNA degradation under microwave radiation. Overall, this study investigated the genomic DNA degradation of E. coli under microwave radiation using automated gel electrophoresis. To examine the viable organisms and degradation of genomic DNA under microwave exposure, we used three methods: (1) post-microwave exposure, where E. coli was enumerated using modified mTEC agar method using membrane filtration technique; (2) extracted genomic DNA of microwaved sample was quantified using the Qubit method; and (3) automated gel electrophoresis, the TapeStation 4200, was used to examine the bands of extracted DNA of microwaved samples. In addition, to examine the impacts of microwaves, E. coli colonies were isolated from a fecal sample (dairy cow manure), these colonies were grown overnight to prepare fresh E. coli culture, and this culture was exposed to microwave radiation for three durations: (1) 2 min; (2) 5 min; and (3) 8 min. In general, Qubit values (ng/µL) were proportional to the results of automated gel electrophoresis, TapeStation 4200, DNA integrity numbers (DINs). Samples from exposure studies (2 min, 5 min, and 8 min) showed no viable E. coli. Initial E. coli levels (at 0 min microwave exposure) were 5 × 108 CFU/mL, and the E. coli level was reduced to a non-detectable level within 2 min of microwave exposure. The relationships between Qubit and TapeStation measurements was linear, except for when the DNA level was lower than 2 ng/µL. In 8 min of microwave exposure, E. coli DNA integrity was reduced by 61.7%, and DNA concentration was reduced by 81.6%. The overall conclusion of this study is that microwave radiation had a significant impact on the genomic DNA of E. coli, and prolonged exposure of E. coli to microwaves can thus lead to a loss of genomic DNA integrity and DNA concentrations.

Published
2024

19. Blind System Identification in Linear Parameter-Varying Systems

Author

Moghaddam, Javad Zahedi, Momeni, Hamidreza, and Danesh, Mojtaba

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Blind System Identification (BSI) is used to extract a system model whenever input data is not attainable. Therefore, the input data and system model should be estimated simultaneously. Because of nonlinearities in a large number of systems, BSI problem is usually challenging to solve. In this paper, an innovative solution is proposed to deal with the BSI problem in nonlinear systems using the properties of the Linear Parameter-Varying (LPV) systems and Hidden Markov Models (HMM). More specifically, assuming scheduling variable is not measurable, the dynamic of the LPV system is approximated. To solve the BSI problem in this context, LPV structure is modeled as an HMM network and a modified Quasi-Static combination of Viterbi and Baum-Welch algorithms (QSVBW) is proposed to estimate the nonlinear mappings and scheduling variable signal. The applicability and the performance of the suggested QSVBW algorithm has been justified by numerical studies.

Published
2023

20. Mechanical and Microstructural Response of Near Beta Ti Alloys to Hot Tensile Testing

Author

Abbasi S.M., Momeni A., Daraee M., Akhondzadeh A., and Mirsaeed S.G.

Subjects
Thermomechanical processing, Hot deformation, Dynamic softening, Yield point phenomena, Hot ductility, Mining engineering. Metallurgy, TN1-997, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Hot tensile tests were carried out on Timetal-125 and Timetal-LCB near beta Ti alloys at temperatures in range of 600-1000°C and constant strain rate of 0.1 s−1. At temperatures below 700-800°C, the homogenuous and total strains for Timetal-LCB were greater than those for Timetal-125. In contrast, at temperatures over 800°C, Timetal-125 showed better hot ductility. The yield point phenomena was observed in Timetal-LCB at all temperatures. Unlikely, for Timetal-125, it was observed only at temperatures over 800°C. The weaker yield point phenomena in Timetal-125 could be attributed to the negative effect of Al on the diffusion of V. At all temperatures Timetal-LCB exhibited higher strength than Timetal-125. It was found that there should be a direct relationship between the extent of yield point phenomena and strength and dynamic softening through hot tensile testing. It was observed that at temperatures beyond 800°C (beta phase field in both alloys) dynamic recrystallization can progress more in Timetal-125 than in Timetal-LCB. These results were in good agreement with the better hot ductility of Timetal-125 at high temperatures. At low temperatures, i.e. below 700-800°C, partial dynamic recrystallization occurs in beta and dynamic globularization in alpha phase. These processes progress more in Timetal-LCB than in Timetal-125.

Published
2017
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21. Moving toward a Democratic Assessment Framework: Iranian EFL Teachers' Critical Language Assessment Literacy

Author

Ali Momeni and Esmaeel Ali Salimi

Abstract

In spite of the resurgence of interest in teachers' language assessment literacy (LAL), teachers' critical language assessment literacy (CLAL) has not garnered satisfactory prominence. This constitutes a substantial void in the extant corpus of literature that this study will address. To this illumination, a cross-sectional survey research approach utilizing the Critical Language Assessment Literacy (CLAL) scale (Tajeddin et al., 2022) was employed to accomplish the stated purpose of the study. The current study conveniently selected 120 Iranian EFL teachers in different language institutes and universities in Tehran and Kermanshah province. To analyze data, descriptive (e.g., mean and standard deviation) and inferential statistics (e.g., one sample t-test) were employed to illustrate a comprehensive answer to the study's primary research question. The results of the one-sample t-test and the mean value for all CLAL items showed that teachers have moderate or low knowledge of CLAL factors. In addition, the findings signposted that effective teachers must retain high linguistic competence, teaching/learning cognition, and knowledge of critical language assessment literacy factors; this could be accomplished by including these factors in teacher training programs. These findings displaying shortcomings and gaps in the critical language assessment literacy (CLAL) level of Iranian EFL teachers hold many theoretical and pedagogical implications for teacher development in the realm of assessment and testing at the practice, policy, and professional development levels.

Published
2023

32. Shadows and photon spheres in static and rotating traversable wormholes

Author

Tangphati, Takol, Channuie, Phongpichit, Bamba, Kazuharu, and Momeni, Davood

Subjects
General Relativity and Quantum Cosmology
Abstract

The shadows and photon spheres are investigated for both static and rotating traversable wormholes. In particular, with a red-shift function constructed in combination with two distinct shape functions, the null geodesic equation is found to predict the light trajectory. To explore observable phenomena and gain a deeper understanding of the gravitational influences originating from wormholes, we explicitly demonstrate the shadow produced and photon spheres associated with both static and rotating traversable wormholes by taking into account the gravitational lensing effects and photon motion in strong gravitational fields. Specifically, the ray tracing of the light geodesic and profiles of the intensity around both static and rotating traversable wormholes can be accomplished., Comment: V1: 18 pages, 6 captioned figures

Published
2023

33. Free-text Keystroke Authentication using Transformers: A Comparative Study of Architectures and Loss Functions

Author

Momeni, Saleh and BabaAli, Bagher

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Keystroke biometrics is a promising approach for user identification and verification, leveraging the unique patterns in individuals' typing behavior. In this paper, we propose a Transformer-based network that employs self-attention to extract informative features from keystroke sequences, surpassing the performance of traditional Recurrent Neural Networks. We explore two distinct architectures, namely bi-encoder and cross-encoder, and compare their effectiveness in keystroke authentication. Furthermore, we investigate different loss functions, including triplet, batch-all triplet, and WDCL loss, along with various distance metrics such as Euclidean, Manhattan, and cosine distances. These experiments allow us to optimize the training process and enhance the performance of our model. To evaluate our proposed model, we employ the Aalto desktop keystroke dataset. The results demonstrate that the bi-encoder architecture with batch-all triplet loss and cosine distance achieves the best performance, yielding an exceptional Equal Error Rate of 0.0186%. Furthermore, alternative algorithms for calculating similarity scores are explored to enhance accuracy. Notably, the utilization of a one-class Support Vector Machine reduces the Equal Error Rate to an impressive 0.0163%. The outcomes of this study indicate that our model surpasses the previous state-of-the-art in free-text keystroke authentication. These findings contribute to advancing the field of keystroke authentication and offer practical implications for secure user verification systems.

Published
2023

34. Rock anisotropy promotes hydraulic fracture containment at depth

Author

Lu, Guanyi, Momeni, Seyyedmaalek, Peruzzo, Carlo, Moukhtari, Fatima-Ezzahra, and Lecampion, Brice

Subjects
Physics - Geophysics
Abstract

We report laboratory experiments and numerical simulations demonstrating that the anisotropic characteristics of rocks play a major role in the elongation of hydraulic fractures propagating in a plane perpendicular to bedding. Transverse anisotropy leads to larger hydraulic fracture extension in the parallel-to-bedding/divider direction compared to the perpendicular-to-bedding/arrester direction. This directly promotes vertical containment of hydraulic fractures in most sedimentary basins worldwide even in the absence of any favorable in-situ stress contrasts or other material heterogeneities. More importantly, the ratio of the energy dissipated in fluid viscous flow in the fracture to the energy dissipated in the creation of new surfaces is found to play a critical role on fracture elongation, with fracture-energy dominated hydraulic fractures being the most elongated while the viscous dominated ones remain more circular. These results open the door to a better engineering and control of hydraulic fractures containment at depth in view of the competition between material anisotropy and injection parameters (fluid viscosity and rate of injection).

Published
2023

36. Online Assessment in Times of COVID-19 Lockdown: Iranian EFL Teachers' Perceptions

Author

Momeni, Ali

Abstract

The COVID-19 pandemic revolutionized the world's status quo to transition from face-to-face into online E-learning. However, this unexpected transformation in teaching-learning approaches necessitates teachers to teach while frequently assessing students' performance through online assessment, which has been substantiated to expose teachers to an array of unanticipated challenges. To this end, the current study was a bid to unearth the Iranian EFL teachers' perceptions of online assessment and illustrate the challenges encountered through adopting a sequential mixed-methods design. For the quantitative phase of the study, one hundred EFL teachers submitted responses to an online questionnaire constructed in Google Forms. The researcher recruited twelve teachers for the qualitative phase of the study from a pool of one hundred participants who completed questionnaires to participate in a semistructured interview protocol. The findings from the descriptive statistics of the questionnaire revealed that Iranian EFL teachers had either a negative or a neutral attitude toward online assessment. In addition, the results of the interview offered more insight into the challenges that teachers encounter during online assessment. In this light, the three most frequent challenges were the high risk of students cheating and plagiarism, the issue of internet connectivity, and poor technological infrastructures. The findings of this study bear witness to the voices of a group of Iranian EFL teachers about their perceptions and challenges of online assessment during the COVID-19 epidemic. In the spirit of the findings, the recommendations and suggestions for further investigations are discussed.

Published
2022

37. A Transformer-based Approach for Arabic Offline Handwritten Text Recognition

Author

Momeni, Saleh and BabaAli, Bagher

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Handwriting recognition is a challenging and critical problem in the fields of pattern recognition and machine learning, with applications spanning a wide range of domains. In this paper, we focus on the specific issue of recognizing offline Arabic handwritten text. Existing approaches typically utilize a combination of convolutional neural networks for image feature extraction and recurrent neural networks for temporal modeling, with connectionist temporal classification used for text generation. However, these methods suffer from a lack of parallelization due to the sequential nature of recurrent neural networks. Furthermore, these models cannot account for linguistic rules, necessitating the use of an external language model in the post-processing stage to boost accuracy. To overcome these issues, we introduce two alternative architectures, namely the Transformer Transducer and the standard sequence-to-sequence Transformer, and compare their performance in terms of accuracy and speed. Our approach can model language dependencies and relies only on the attention mechanism, thereby making it more parallelizable and less complex. We employ pre-trained Transformers for both image understanding and language modeling. Our evaluation on the Arabic KHATT dataset demonstrates that our proposed method outperforms the current state-of-the-art approaches for recognizing offline Arabic handwritten text.

Published
2023

38. Rotating traversable wormhole geometries in the presence of three-form fields

Author

Tangphati, Takol, Chaihao, Butsayapat, Samart, Daris, Channuie, Phongpichit, and Momeni, Davood

Subjects
General Relativity and Quantum Cosmology
Abstract

In this work, we study the rotating wormhole geometries supported by a three-form field. We demonstrate for particular choices of parameters that it is possible for the matter fields threading the wormhole to satisfy the null and weak energy conditions throughout the spacetime, when the three-form field is present. In this case, the form field is interpreted as supporting the wormhole and all the exoticity is confined to it. Thus, the three-form curvature terms, which may be interpreted as a gravitational fluid, sustain these wormhole geometries. Additionally, we also address the ergoregion of the solutions., Comment: v1: 9 pages, 9 figures. arXiv admin note: text overlap with arXiv:1806.10488 by other authors

Published
2023
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