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1. Tuning the band topology and topological Hall effect in skyrmion crystals via the spin-orbit coupling

Author

Mandal, Arijit, Satpathy, S., and Nanda, B. R. K.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Quantum Physics
Abstract

The topological Hall effect (THE) is the result of spin-asymmetric deflection of charge carriers flowing through a non-collinear spin system. Effective manipulation of the topological Hall conductivity (THC) in skyrmions is currently a vigorous area of research with an eye towards potential spintronics application. Here, we show that the band topology and the THC in a skyrmion crystal can be tuned by changing the strength of the Rashba spin-orbit coupling (SOC), which can be accomplished via a perpendicular electric field. This results in the change of the subband Chern numbers and a transition between ordinary insulator and Chern insulator as the Rashba SOC is varied. For partially filled subbands, the Rashba SOC can tune the THC and reverse its sign, so that the direction of the Hall current is flipped. The critical Rashba strength for this depends on the skyrmion type and the carrier density. We extend our analysis to the cases of Dresselhaus and Weyl SOC as well, and show that they can be directly mapped to the Rashba SOC case and therefore lead to similar results. Our work suggests new avenues for the control of charge transport in skyrmion crystals., Comment: 17 pages, 12 figures, 1 table

Published
2024

2. AT-RAG: An Adaptive RAG Model Enhancing Query Efficiency with Topic Filtering and Iterative Reasoning

Author

Rezaei, Mohammad Reza, Hafezi, Maziar, Satpathy, Amit, Hodge, Lovell, and Pourjafari, Ebrahim

Subjects
Computer Science - Computation and Language, Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

Recent advancements in QA with LLM, like GPT-4, have shown limitations in handling complex multi-hop queries. We propose AT-RAG, a novel multistep RAG incorporating topic modeling for efficient document retrieval and reasoning. Using BERTopic, our model dynamically assigns topics to queries, improving retrieval accuracy and efficiency. We evaluated AT-RAG on multihop benchmark datasets QA and a medical case study QA. Results show significant improvements in correctness, completeness, and relevance compared to existing methods. AT-RAG reduces retrieval time while maintaining high precision, making it suitable for general tasks QA and complex domain-specific challenges such as medical QA. The integration of topic filtering and iterative reasoning enables our model to handle intricate queries efficiently, which makes it suitable for applications that require nuanced information retrieval and decision-making.

Published
2024

4. Systematic decoding of cis gene regulation defines context-dependent control of the multi-gene costimulatory receptor locus in human T cells

Author

Mowery, Cody T, Freimer, Jacob W, Chen, Zeyu, Casaní-Galdón, Salvador, Umhoefer, Jennifer M, Arce, Maya M, Gjoni, Ketrin, Daniel, Bence, Sandor, Katalin, Gowen, Benjamin G, Nguyen, Vinh, Simeonov, Dimitre R, Garrido, Christian M, Curie, Gemma L, Schmidt, Ralf, Steinhart, Zachary, Satpathy, Ansuman T, Pollard, Katherine S, Corn, Jacob E, Bernstein, Bradley E, Ye, Chun Jimmie, and Marson, Alexander

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Human Genome, Biotechnology, 1.1 Normal biological development and functioning, Underpinning research, Humans, CTLA-4 Antigen, CD28 Antigens, Gene Expression Regulation, Chromatin, T-Lymphocytes, Inducible T-Cell Co-Stimulator Protein, CCCTC-Binding Factor, CRISPR-Cas Systems, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Cis-regulatory elements (CREs) interact with trans regulators to orchestrate gene expression, but how transcriptional regulation is coordinated in multi-gene loci has not been experimentally defined. We sought to characterize the CREs controlling dynamic expression of the adjacent costimulatory genes CD28, CTLA4 and ICOS, encoding regulators of T cell-mediated immunity. Tiling CRISPR interference (CRISPRi) screens in primary human T cells, both conventional and regulatory subsets, uncovered gene-, cell subset- and stimulation-specific CREs. Integration with CRISPR knockout screens and assay for transposase-accessible chromatin with sequencing (ATAC-seq) profiling identified trans regulators influencing chromatin states at specific CRISPRi-responsive elements to control costimulatory gene expression. We then discovered a critical CCCTC-binding factor (CTCF) boundary that reinforces CRE interaction with CTLA4 while also preventing promiscuous activation of CD28. By systematically mapping CREs and associated trans regulators directly in primary human T cell subsets, this work overcomes longstanding experimental limitations to decode context-dependent gene regulatory programs in a complex, multi-gene locus critical to immune homeostasis.

Published
2024

5. Emergence of giant orbital Hall and tunable spin Hall effects in centrosymmetric TMDs

Author

Sahu, Pratik, Bidika, Jatin Kumar, Biswal, Bubunu, Satpathy, S., and Nanda, B. R. K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We demonstrate the formation of orbital and spin Hall effects (OHE/SHE) in the 1T phase of non-magnetic transition metal dichalcogenides. With the aid of density functional theory calculations and model Hamiltonian studies on MX$_2$ (M = Pt, Pd and X = S, Se, and Te), we show an intrinsic orbital Hall conductivity ($\sim 10^3 \hbar /e\ \Omega^{-1}cm^{-1}$) , which primarily emerges due to the orbital texture around the valleys in the momentum space. The robust spin-orbit coupling in these systems induces a sizable SHE out of OHE. Furthermore, to resemble the typical experimental setups, where the magnetic overlayers produce a proximity magnetic field, we examine the effect of magnetic field on OHE and SHE and showed that the latter can be doubled in these class of compounds. With a giant OHE and tunable SHE, the 1T-TMDs are promising candidates for spin and orbital driven quantum devices such as SOT-MRAM, spin nano-oscillators, spin logic devices etc., and to carry out spin-charge conversion experiments for fundamental research.

Published
2024

6. Towards Adversarial Robustness And Backdoor Mitigation in SSL

Author

Satpathy, Aryan, Singh, Nilaksh, Rajwade, Dhruva, and Kumar, Somesh

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Self-Supervised Learning (SSL) has shown great promise in learning representations from unlabeled data. The power of learning representations without the need for human annotations has made SSL a widely used technique in real-world problems. However, SSL methods have recently been shown to be vulnerable to backdoor attacks, where the learned model can be exploited by adversaries to manipulate the learned representations, either through tampering the training data distribution, or via modifying the model itself. This work aims to address defending against backdoor attacks in SSL, where the adversary has access to a realistic fraction of the SSL training data, and no access to the model. We use novel methods that are computationally efficient as well as generalizable across different problem settings. We also investigate the adversarial robustness of SSL models when trained with our method, and show insights into increased robustness in SSL via frequency domain augmentations. We demonstrate the effectiveness of our method on a variety of SSL benchmarks, and show that our method is able to mitigate backdoor attacks while maintaining high performance on downstream tasks. Code for our work is available at github.com/Aryan-Satpathy/Backdoor, Comment: 8 pages, 2 figures

Published
2024

11. Grain Size Effects on UV-MIR (0.2-14 micron) Spectra of Carbonaceous Chondrite Groups

Author

Cantillo, David C., Reddy, Vishnu, Battle, Adam, Sharkey, Benjamin N. L., Pearson, Neil C., Campbell, Tanner, Satpathy, Akash, De Florio, Mario, Furfaro, Roberto, and Sanchez, Juan

Subjects
Astrophysics - Earth and Planetary Astrophysics, Physics - Geophysics
Abstract

Carbonaceous chondrites are among the most important meteorite types and have played a vital role in deciphering the origin and evolution of our solar system. They have been linked to low-albedo C-type asteroids, but due to subdued absorption bands, definitive asteroid-meteorite linkages remain elusive. A majority of these existing linkages rely on fine-grained (typically < 45 micron) powders across a limited wavelength range in the visible to near-infrared (0.35-2.5 microns). While this is useful in interpreting the fine-grained regolith of larger main-belt objects like Ceres, recent spacecraft missions to smaller near-Earth asteroids (NEAs), such as Bennu and Ryugu, have shown that their surfaces are dominated by larger grain size material. To better interpret the surfaces of these smaller, carbonaceous NEAs, we obtained laboratory reflectance spectra of seven carbonaceous chondrite meteorite groups (CI, CM, CO, CV, CR, CK, C2-ungrouped) over the ultraviolet to mid-infrared range (0.2-14 microns). Each meteorite contained five grain size bins (45-1000 microns) to help constrain spectral grain size effects. We find a correlation between grain size and absolute reflectance, spectral slope, band depth, and the Christiansen feature band center. Principal component analysis of grain size variation illustrates a similar trend to lunar-style space weathering. We also show that the Bus-DeMeo asteroid taxonomic classification of our samples is affected by grain size, specifically shifting CM2 Aguas Zarcas from a Ch-type to B-type with increasing grain size. This has implications for the parent body of the OSIRIS-REx target, Bennu. With Aguas Zarcas, we present results from Hapke modeling., Comment: 40 pages, 15 figures, published in the Planetary Science Journal

Published
2024
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12. GPU Acceleration of a Conjugate Exponential Model for Cancer Tissue Heterogeneity

Author

Chaudhuri, Anik, Mohanty, Anwoy, and Satpathy, Manoranjan

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Quantitative Biology - Quantitative Methods
Abstract

Heterogeneity in the cell population of cancer tissues poses many challenges in cancer diagnosis and treatment. Studying the heterogeneity in cell populations from gene expression measurement data in the context of cancer research is a problem of paramount importance. In addition, reducing the computation time of the algorithms that deal with high volumes of data has its obvious merits. Parallelizable models using Markov chain Monte Carlo methods are typically slow. This paper shows a novel, computationally efficient, and parallelizable model to analyze heterogeneity in cancer tissues using GPUs. Because our model is parallelizable, the input data size does not affect the computation time much, provided the hardware resources are not exhausted. Our model uses qPCR (quantitative polymerase chain reaction) gene expression measurements to study heterogeneity in cancer tissue. We compute the cell proportion breakup by accelerating variational methods on a GPU. We test this model on synthetic and real-world gene expression data collected from fibroblasts and compare the performance of our algorithm with those of MCMC and Expectation Maximization. Our new model is computationally less complex and faster than existing Bayesian models for cancer tissue heterogeneity.

Published
2024

13. Autonomous Multi-Rotor UAVs: A Holistic Approach to Design, Optimization, and Fabrication

Author

A, Aniruth, Satpathy, Chirag, K, Jothika, M, Nitteesh, M, Gokulraj, K, Venkatram, G, Harshith, S, Shristi, Vani, Anushka, and Spurgeon, Jonathan

Subjects
Computer Science - Robotics, Condensed Matter - Materials Science
Abstract

Unmanned Aerial Vehicles (UAVs) have become pivotal in domains spanning military, agriculture, surveillance, and logistics, revolutionizing data collection and environmental interaction. With the advancement in drone technology, there is a compelling need to develop a holistic methodology for designing UAVs. This research focuses on establishing a procedure encompassing conceptual design, use of composite materials, weight optimization, stability analysis, avionics integration, advanced manufacturing, and incorporation of autonomous payload delivery through object detection models tailored to satisfy specific applications while maintaining cost efficiency. The study conducts a comparative assessment of potential composite materials and various quadcopter frame configurations. The novel features include a payload-dropping mechanism, a unibody arm fixture, and the utilization of carbon-fibre-balsa composites. A quadcopter is designed and analyzed using the proposed methodology, followed by its fabrication using additive manufacturing and vacuum bagging techniques. A computer vision-based deep learning model enables precise delivery of payloads by autonomously detecting targets.

Published
2024

14. Assessment of Riverbank Filtration at Rushikulya River in Odisha, India

Author

Dash, Rakesh Roshan, Sahu, Rajiv Lochan, Subhadarsini, Lusi, Satpathy, Laren, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Roshan Dash, Rajesh, editor, Mohapatro, Sankarsan, editor, and Behera, Manaswini, editor

Published
2025
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28. The Near-Earth Object Surveyor Mission

Author

Mainzer, A. K., Masiero, Joseph R., Abell, Paul A., Bauer, J. M., Bottke, William, Buratti, Bonnie J., Carey, Sean J., Cotto-Figueroa, D., Cutri, R. M., Dahlen, D., Eisenhardt, Peter R. M., Fernandez, 6 Y. R., Furfaro, Roberto, Grav, Tommy, Hoffman, T. L., Kelley, Michael S., Kim, Yoonyoung, Kirkpatrick, J. Davy, Lawler, Christopher R., Lilly, Eva, Liu, X., Marocco, Federico, Marsh, K. A., Masci, Frank J., McMurtry, Craig W., Pourrahmani, Milad, Reinhart, Lennon, Ressler, Michael E., Satpathy, Akash, Schambeau, C. A., Sonnett, S., Spahr, Timothy B., Surace, Jason A., Vaquero, Mar, Wright, E. L., Zengilowski, Gregory R., and Team, NEO Surveyor Mission

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Near-Earth Object (NEO) Surveyor mission is a NASA observatory designed to discover and characterize near-Earth asteroids and comets. The mission's primary objective is to find the majority of objects large enough to cause severe regional impact damage ($>$140 m in effective spherical diameter) within its five-year baseline survey. Operating at the Sun-Earth L1 Lagrange point, the mission will survey to within 45 degrees of the Sun in an effort to find the objects in the most Earth-like orbits. The survey cadence is optimized to provide observational arcs long enough to reliably distinguish near-Earth objects from more distant small bodies that cannot pose an impact hazard. Over the course of its survey, NEO Surveyor will discover $\sim$200,000 - 300,000 new NEOs down to sizes as small as $\sim$10 m and thousands of comets, significantly improving our understanding of the probability of an Earth impact over the next century., Comment: accepted to PSJ

Published
2023

29. DKEC: Domain Knowledge Enhanced Multi-Label Classification for Diagnosis Prediction

Author

Ge, Xueren, Abhishek, Satpathy, Williams, Ronald Dean, Stankovic, John A., and Alemzadeh, Homa

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Multi-label text classification (MLTC) tasks in the medical domain often face the long-tail label distribution problem. Prior works have explored hierarchical label structures to find relevant information for few-shot classes, but mostly neglected to incorporate external knowledge from medical guidelines. This paper presents DKEC, Domain Knowledge Enhanced Classification for diagnosis prediction with two innovations: (1) automated construction of heterogeneous knowledge graphs from external sources to capture semantic relations among diverse medical entities, (2) incorporating the heterogeneous knowledge graphs in few-shot classification using a label-wise attention mechanism. We construct DKEC using three online medical knowledge sources and evaluate it on a real-world Emergency Medical Services (EMS) dataset and a public electronic health record (EHR) dataset. Results show that DKEC outperforms the state-of-the-art label-wise attention networks and transformer models of different sizes, particularly for the few-shot classes. More importantly, it helps the smaller language models achieve comparable performance to large language models.

Published
2023

30. Unique $d_{xy}$ Superconducting State in the Cuprate Member Ba$_{2}$CuO$_{3.25}$

Author

Adhikary, Priyo, Gupta, Mayank, Chauhan, Amit, Satpathy, Sashi, Mukherjee, Shantanu, and Nanda, B. R. K.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Recent discovery of superconductivity at a transition temperature of $73$K in the doped layered compound Ba$_{2}$CuO$_{3+x}$ for $x\sim 0.2$ has generated a lot of interest. Experiments in this alternately stacked oxygen octahedral and chain layered structure reveal that a compression of the octahedra causes the Cu- {$d_{z^{2}}$} orbital to lie above the Cu- {$d_{x^2-y^2}$} orbital unlike in the well-known cuprate superconducting materials. Our first-principle calculations and low-energy Hamiltonian studies on the $x$ = 0.25 system reveal that this energy ordering results in the formation of $d_{z^2}$ dominated electron pockets. The strong nesting in the Fermi pockets leads to an AFM spin fluctuation mediated $d_{xy}$ wave superconducting state dominated by pairing among the $d_{z^{2}}$ orbitals. This is in contrast to the cuprate superconductors (e.g., YBCO) where both electron and hole pockets exist and the superconducting state with B$_{1g}$ symmetry is formed by the $d_{x^2-y^2}$ orbital electrons. Unlike the earlier reports, we find that inter-layer hybridization has an important contribution to the low-energy band structure and formation of the unconventional superconducting state., Comment: 13 pages, 12 figures

Published
2023

31. Size and Albedo Constraints for (152830) Dinkinesh Using WISE Data

Author

McFadden, Kiana D., Mainzer, Amy K., Masiero, Joseph R., Bauer, James M., Cutri, Roc M., Dahlen, Dar, Masci, Frank J., Pittichová, Jana, Satpathy, Akash, and Wright, Edward L.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Probing small main-belt asteroids provides insight into their formation and evolution through multiple dynamical and collisional processes. These asteroids also overlap in size with the potentially hazardous near-earth object population and supply the majority of these objects. The Lucy mission will provide an opportunity for study of a small main-belt asteroid, (152830) Dinkinesh. The spacecraft will perform a flyby of this object on November 1, 2023, in preparation for its mission to the Jupiter Trojan asteroids. We employed aperture photometry on stacked frames of Dinkinesh obtained by the Wide-field-Infrared Survey Explorer and performed thermal modeling on a detection at 12 $\mu$m to compute diameter and albedo values. Through this method, we determined Dinkinesh has an effective spherical diameter of $0.76^{+0.11}_{-0.21}$ km and a visual geometric albedo of $0.27^{+0.25}_{-0.06}$ at the 16th and 84th percentiles. This albedo is consistent with typical stony (S-type) asteroids., Comment: Submitted to Astrophysical Journal Letters

Published
2023

35. Effect of oral caroverine in the treatment of tinnitus: A quasi-experimental study

Author

Anil K. Dash, Abinash Panda, Nilamadhaba Prusty, Manas R. Satpathy, Sasmita K. Bisoyi, and Prasanjit A. Barik

Subjects
caroverine, tinnitus case history questionnaire, tinnitus handicap inventory score, tinnitus, Medicine
Abstract

Objective Caroverine is an antagonist of non-NMDA and NMDA glutamate receptors. Cochlear synaptic tinnitus arises from a synaptic disturbance of NMDA or non-NMDA receptors on the afferent dendrites of spiral ganglion neurons. This forms a basis for the use of caroverine in the treatment of tinnitus. Hence, the present study was carried out to find the effect of oral caroverine in the treatment of tinnitus. Methodology This quasi-experimental study was carried out on sixty consecutive patients of tinnitus. Thirty patients were given the usual standard of care consisting of Tab. Cinnarizine 25mg twice daily along with fixed dose combination Cap. B-complex and Ginkgo biloba once daily for ninety days and thirty patients were given Cap. Caroverine 40mg, twice daily for ninety days. Outcome assessment was done using the tinnitus case history questionnaire, tinnitus handicap inventory score, and VAS. The data were analyzed using GraphPad Prism Trial Version. A P value ≤ 0.05 was taken as statistically significant. Results There was a significant improvement in the tinnitus case history questionnaire score at 90 days in patients suffering from mild tinnitus when treated with caroverine. There was a larger decrease in the tinnitus handicap inventory score at 90 days of treatment in the caroverine-treated patients. The median VAS showed an improvement in the caroverine-treated group. The overall reduction in tinnitus in the caroverine-treated group was 53.3% with an odds ratio, 95% CI of 0.375 (0.12-1.08). Conclusion Oral caroverine was found to be better than the usual standard of care in reducing mild cochlear synaptic tinnitus. It also improved sensory–neural hearing loss during the treatment period.

Published
2024
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36. A multi-string differential power processing based voltage equalizer for partial shading detection and mitigation in PV arrays

Author

Priya Ranjan Satpathy, Balaqasem Aljafari, Sudhakar Babu Thanikanti, Nnamdi Nwulu, and Renu Sharma

Subjects
Partial shading, Arrays, Configurations, Multiple peaks, Reconfiguration, Mismatch, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Abstract-: Partial shading deteriorates the overall performance of photovoltaic (PV) arrays by reducing the power output. Various shading mitigation strategies have been proposed in the literature with vulnerabilities of limited applications, switches, sensor counts, design, cost, and complexities. In this paper, a multi-string differential power processing (MS-DPP) based voltage equalizer is proposed for power output improvement in the PV arrays during shading. The equalizer is utilized for the series-parallel array which is equipped with a shading detection system achieved from the optimal placement of minimum sensor counts. The technique uses the concept of a switching capacitor that balances the voltage ratio between the modules of individual strings to ensure higher power generation and convex power curves during shading. The system is simulated and validated in MATLAB simulation and further verified on the OPAL-RT 4510 hardware-in-loop FPGA-based real-time platform. The technique is executed on three array sizes and compared with existing techniques under static and dynamic partial shading cases. The analysis shows that MS-DPP enhances the array power output with a conversion efficiency higher than 99 % during shading with lower system size and 98.38 % and 95.05 % reduced counts of switches and sensors than dynamic reconfigurations.

Published
2024
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37. Process of Renewal of PC&PNDT License of a Large Tertiary Care Teaching Hospital of North India: How One Needs to Plan for It?

Author

Srivatsa Deshikulu, Jitender Sodhi, Devender Kumar Sharma, Nirupam Madaan, and Sidhartha Satpathy

Subjects
administrative challenges, female feticide, license renewal, medical institutions, PC&PNDT Act, sex selection, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Background The Pre-Conception and Pre-Natal Diagnostic Techniques (Prohibition of Sex Selection) Act (PC&PNDT Act), 1994 was enacted to prevent sex determination and female feticide. As a mandatory statutory requirement, All India Institute of Medical Sciences, New Delhi, India has to renew its PC&PNDT license after every 5 years.

Published
2024
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38. Transitioning from Conventional to Organic Smallholder Farming among Indian Farmers: A Psychological Perspective

Author

Parwinder Singh, Pratiksha Satpathy, and Chintan Vaishnav

Abstract

Purpose: Despite hazardous consequences, the use of fertilizers and pesticides has been exceptionally high, mainly to increase crop yield. Socio-economic factors have been explored to understand the inability to curb its overuse; however, literature on psychological factors affecting farmers' decision-making is very scarce. Psychological factors are important to understand as these factors mediate the effects of external socio-economic factors on one's behaviour. The present study focused on farmers' intentions to convert their farming practices from conventional to organic. Design/methodology/approach: The data was collected from 389 participants, mainly using semi-structured face-to-face interviews. The observations were analysed through regression and structural equation modelling. Findings: A significant association has been observed between attitudes, subjective norms, perceived behavioural control, awareness and farmers' intention to switch to organic farming practices. Practical implications: As the observed factors are significantly associated with conversion intentions and malleable by nature, the study serves as a confirmatory node to proceed with the interventional plan based on the belief system restructuring module to educate farmers about sustainable farming practices. Theoretical implications: The study verified the applicability of the theory of planned behaviour in the Indian context and highlighted the factors to be targeted to convert the intentions of conventional farmers to organic farming. Originality/value: In order to curb the overuse of chemicals in agriculture, policymakers can plan suitable interventions and use the relevant psychological measures to target the factors identified in the present study.

Published
2024
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41. Metaverse

Author

Nayak, Arpita, primary, Patnaik, Atmika, additional, Satpathy, Ipseeta, additional, Patnaik, B.C.M., additional, and Baral, Sukanta Kumar, additional

Published
2024
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44. Effective tight-binding Hamiltonian for the low-energy electronic structure of the Cu-doped lead apatite and the parent compound

Author

Gupta, Mayank, Satpathy, S., and Nanda, B. R. K.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

We examine the origin of the formation of narrow bands in LK-99 (Pb$_{9}$Cu(PO$_4$)$_6$O) and the parent compound without the Cu doping using density functional theory calculations and model Hamiltonian studies. Explicit analytical expressions are given for a nearest-neighbor tight-binding (TB) Hamiltonian in the momentum space for both the parent and the LK-99 compound, which can serve as an effective model to study various quantum phenomena including superconductivity. The parent material is an insulator with the buckle oxygen atom on the stacked triangular lattice forming the topmost bands, well-separated from the remaining oxygen band manifold. The $C_3$ symmetry-driven two-band TB model describes these two bands quite well. These bands survive in the Cu-doped, LK-99, though with drastically altered band dispersion due to the Cu-O interaction. A similar two-band model involving the Cu $xz$ and $yz$ orbitals broadly describes the top two valence bands of LK-99. However, the band dispersions of both the Cu and O bands are much better described by the four-band TB model incorporating the Cu-O interactions on the buckled honeycomb lattice. We comment on the possible mechanisms of superconductivity in LK-99. even though the actual T$_c$ may be much smaller than reported, and suggest that interstitial Cu clusters leading to broad bands might have a role to play, Comment: 8 pages, 6 figures

Published
2023

45. Dielectric Screening and Electric Field Control of Ferromagnetism at the CaMnO$_3$/CaRuO$_3$ Interface

Author

Bhandari, Churna and Satpathy, S

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Control of magnetism by an applied electric field is a desirable technique for the functionalization of magnetic materials. Motivated by recent experiments, we study the electric field control of the interfacial magnetism of CaRuO$_3$/CaMnO$_3$ (CRO/CMO) (001), a prototype interface between a non-magnetic metal and an antiferromagnetic insulator. Even without the electric field, the interfacial CMO layer acquires a ferromagnetic moment due to a spin-canted state, caused by the Anderson-Hasegawa double exchange (DEX) between the Mn moments and the leaked electrons from the CRO side. An electric field would alter the carrier density at the interface, leading to the possibility of controlling the magnetism, since DEX is sensitive to the carrier density. We study this effect quantitatively usingdensity-functional calculations in the slab geometry. We find a text-book like dielectric screening of the electric field, which introduces polarization charges at the interfaces and the surfaces. The extra charge at the interface enhances the ferromagnetism via the DEX interaction, while away from the interface the original AFM state of the Mn layers remains unchanged. The effect could have potential application in spintronics devices., Comment: 7 pages, 6 figures

Published
2023
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46. Magnetic Proximity induced efficient charge-to-spin conversion in large area PtSe$_{2}$/Ni$_{80}$Fe$_{20}$ heterostructures

Author

Mudgal, Richa, Jakhar, Alka, Gupta, Pankhuri, Yadav, Ram Singh, Biswal, B., Sahu, P., Bangar, Himanshu, Kumar, Akash, Chowdhury, Niru, Satpati, Biswarup, Nanda, B. R. K., Satpathy, S., Das, Samaresh, and Muduli, P. K.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

As a topological Dirac semimetal with controllable spin-orbit coupling and conductivity, PtSe$_2$, a transition-metal dichalcogenide, is a promising material for several applications from optoelectric to sensors. However, its potential for spintronics applications is yet to be explored. In this work, we demonstrate that PtSe$_{2}$/Ni$_{80}$Fe$_{20}$ heterostructure can generate a large damping-like current-induced spin-orbit torques (SOT), despite the absence of spin-splitting in bulk PtSe$_{2}$. The efficiency of charge-to-spin conversion is found to be $(-0.1 \pm 0.02)$~nm$^{-1}$ in PtSe$_{2}$/Ni$_{80}$Fe$_{20}$, which is three times that of the control sample, Ni$_{80}$Fe$_{20}$/Pt. Our band structure calculations show that the SOT due to the PtSe$_2$ arises from an unexpectedly large spin splitting in the interfacial region of PtSe$_2$ introduced by the proximity magnetic field of the Ni$_{80}$Fe$_{20}$ layer. Our results open up the possibilities of using large-area PtSe$_{2}$ for energy-efficient nanoscale devices by utilizing the proximity-induced SOT., Comment: 18 pages, 4 figures

Published
2023
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47. Mitigation of chromosome loss in clinical CRISPR-Cas9-engineered T cells

Author

Tsuchida, Connor A, Brandes, Nadav, Bueno, Raymund, Trinidad, Marena, Mazumder, Thomas, Yu, Bingfei, Hwang, Byungjin, Chang, Christopher, Liu, Jamin, Sun, Yang, Hopkins, Caitlin R, Parker, Kevin R, Qi, Yanyan, Hofman, Laura, Satpathy, Ansuman T, Stadtmauer, Edward A, Cate, Jamie HD, Eyquem, Justin, Fraietta, Joseph A, June, Carl H, Chang, Howard Y, Ye, Chun Jimmie, and Doudna, Jennifer A

Subjects
Biomedical and Clinical Sciences, Immunology, Genetics, Clinical Research, Gene Therapy, Biotechnology, Bioengineering, 5.2 Cellular and gene therapies, 5.1 Pharmaceuticals, Generic health relevance, Cancer, Humans, Chromosomes, CRISPR-Cas Systems, DNA Damage, Gene Editing, T-Lymphocytes, Clinical Trials as Topic, Chromosome Aberrations, CAR T cells, CRISPR screen, CRISPR-Cas9, DNA repair, T cells, aneuploidy, chromosome loss, clinical trial, genome editing, immunoengineering, genome editing&#x3a, CAR T cells, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

CRISPR-Cas9 genome editing has enabled advanced T cell therapies, but occasional loss of the targeted chromosome remains a safety concern. To investigate whether Cas9-induced chromosome loss is a universal phenomenon and evaluate its clinical significance, we conducted a systematic analysis in primary human T cells. Arrayed and pooled CRISPR screens revealed that chromosome loss was generalizable across the genome and resulted in partial and entire loss of the targeted chromosome, including in preclinical chimeric antigen receptor T cells. T cells with chromosome loss persisted for weeks in culture, implying the potential to interfere with clinical use. A modified cell manufacturing process, employed in our first-in-human clinical trial of Cas9-engineered T cells (NCT03399448), reduced chromosome loss while largely preserving genome editing efficacy. Expression of p53 correlated with protection from chromosome loss observed in this protocol, suggesting both a mechanism and strategy for T cell engineering that mitigates this genotoxicity in the clinic.

Published
2023

48. Modular pooled discovery of synthetic knockin sequences to program durable cell therapies

Author

Blaeschke, Franziska, Chen, Yan Yi, Apathy, Ryan, Daniel, Bence, Chen, Andy Y, Chen, Peixin Amy, Sandor, Katalin, Zhang, Wenxi, Li, Zhongmei, Mowery, Cody T, Yamamoto, Tori N, Nyberg, William A, To, Angela, Yu, Ruby, Bueno, Raymund, Kim, Min Cheol, Schmidt, Ralf, Goodman, Daniel B, Feuchtinger, Tobias, Eyquem, Justin, Jimmie Ye, Chun, Carnevale, Julia, Satpathy, Ansuman T, Shifrut, Eric, Roth, Theodore L, and Marson, Alexander

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Gene Therapy, Genetics, Immunotherapy, Biotechnology, 2.1 Biological and endogenous factors, Cancer, Generic health relevance, Humans, Cell- and Tissue-Based Therapy, Exercise, Gene Library, Research, CRISPR, chimeric antigen receptor, chronic stimulation, human T cells, immunotherapy, knockins, pooled screens, synthetic surface receptor, transcription factor, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Chronic stimulation can cause T cell dysfunction and limit the efficacy of cellular immunotherapies. Improved methods are required to compare large numbers of synthetic knockin (KI) sequences to reprogram cell functions. Here, we developed modular pooled KI screening (ModPoKI), an adaptable platform for modular construction of DNA KI libraries using barcoded multicistronic adaptors. We built two ModPoKI libraries of 100 transcription factors (TFs) and 129 natural and synthetic surface receptors (SRs). Over 30 ModPoKI screens across human TCR- and CAR-T cells in diverse conditions identified a transcription factor AP4 (TFAP4) construct that enhanced fitness of chronically stimulated CAR-T cells and anti-cancer function in vitro and in vivo. ModPoKI's modularity allowed us to generate an ∼10,000-member library of TF combinations. Non-viral KI of a combined BATF-TFAP4 polycistronic construct enhanced fitness. Overexpressed BATF and TFAP4 co-occupy and regulate key gene targets to reprogram T cell function. ModPoKI facilitates the discovery of complex gene constructs to program cellular functions.

Published
2023

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