Your search keyword '"SOT"' showing total 15,777 results

1. SOT-MRAM Elements Based on Spin Hall Effect: Macrospin Model of Two-Step Switching Control.

Author

Ostrovskaya, N. V., Skidanov, V. A., and Iusipova, Yu. A.

Subjects

*SPIN Hall effect, *MAGNETIZATION transfer, *MAGNETIC fields, *BIFURCATION diagrams, *DIFFERENTIAL equations

Abstract

The article presents the results of a qualitative study of the model of a modern magnetic memory cell, in which the spin Hall effect is used for recording. Cells of square cross-section with longitudinal anisotropy of the active layer are considered. Based on the Landau-Lifshitz-Gilbert vector equation, a mathematical model for controlling the process of writing zero and one into a cell is constructed. In the approximation of a uniform distribution of magnetization, a system of equations is derived that describes the dynamics of magnetization under the action of a magnetic field and spin current. The parameters of the qualitatively equivalent dynamics of the model are determined. It has been established that at zero currents and fields in both cases there are two main stable equilibrium positions. These equilibria, depending on the mutual orientation of the magnetization vector of the active and reference layers, correspond to zero and one, written in the cell. The transition from one cell state to another is described by solving a system of differential equations. A bifurcation diagram of a dynamical system in the variables "field–current" is constructed. It is shown that with a given configuration of the memory element, external influences transfer the magnetization to an intermediate state in the plane of the free layer, which, when the current and field are turned off, leads to writing zero or one to the memory cell. The critical switching current is estimated as a function of the applied external magnetic field. [ABSTRACT FROM AUTHOR]

Published

2024

2. Modified risk-stratified sequential treatment (subcutaneous rituximab with or without chemotherapy) in B-cell Post-transplant lymphoproliferative disorder (PTLD) after Solid organ transplantation (SOT): the prospective multicentre phase II PTLD-2 trial

Author

Zimmermann, Heiner, Könecke, Christian, Dreyling, Martin H., Pott, Christiane, Dührsen, Ulrich, Hahn, Dennis, Meidenbauer, Norbert, Hauser, Ingeborg A., Rummel, Mathias J., Wolf, Dominik, Heuser, Michael, Schmidt, Christian, Schlattmann, Peter, Ritgen, Matthias, Siebert, Reiner, Oschlies, Ilske, Anagnostopoulos, Ioannis, Trappe, Ralf U., Zimmermann, Heiner, Könecke, Christian, Dreyling, Martin H., Pott, Christiane, Dührsen, Ulrich, Hahn, Dennis, Meidenbauer, Norbert, Hauser, Ingeborg A., Rummel, Mathias J., Wolf, Dominik, Heuser, Michael, Schmidt, Christian, Schlattmann, Peter, Ritgen, Matthias, Siebert, Reiner, Oschlies, Ilske, Anagnostopoulos, Ioannis, and Trappe, Ralf U.

Published

2022

3. TiCoSb Heusler alloy-based magnetic tunnel junction for efficient computing in memory architecture.

Author

Alisha, P. B. and Warrier, Tripti S.

Abstract

Computing in memory (CiM) architecture enables computation within the memory array, reducing power-intensive data transmission between the processor and memory. The primary goal of this work is to enhance the energy efficiency of CiM architectures that use spintronic devices. Experiments show that the thermal stability (Δ ) in magnetic tunnel junctions (MTJs) can be optimized to reduce write energy by adjusting the oxide layer thickness. Based on this finding, this work explores a novel spin-orbit torque random-access memory (SOT) cell that yields a 30% increase in energy efficiency compared to conventional SOT. However, reducing the oxide layer thickness below 1.5 nm to tune Δ leads to a decrease in the tunnel magnetoresistance (TMR) ratio leading to reliability concerns. The second part of the work proposes to improve TMR by replacing the conventional MgO oxide layer with a TiCoSb Heusler alloy-based layer and utilizing Co 2 MnSb as the electrode in the modified cell called Δ M-SOT. Theoretical and experimental studies demonstrate that this alternative MTJ design exhibits TMR ratios comparable to values reported in the literature. The performance of magnetic full adder CiM design using the proposed Δ M-SOT is compared with designs implemented using CMOS, spin-transfer torque random-access RAM (STT), and conventional SOT. Evaluations show that the Δ M-SOT-CiM has a reduction of 66% and 30% in logic and data transfer energy, respectively, compared to conventional SOT-CiM design. Furthermore, the data storage and computation operations in Δ M-SOT-CiM are found to be significantly faster compared to both STT- and SOT-CiM design. Overall, this work presents a promising SOT design that effectively bridges the gap between the processor and memory by enabling logical functions within memory, eliminating the need for additional circuits. [ABSTRACT FROM AUTHOR]

Published

2024

4. Identification and characterization of sulphotransferase (SOT) genes for tolerance against drought and heat in wheat and six related species.

Author

Chaudhary, Jyoti, Gangwar, Himanshi, Jaiswal, Vandana, and Gupta, Pushpendra Kumar

Abstract

Background: Sulphotransferase (SOT) enzyme (encoded by a conserved family of SOT genes) is involved in sulphonation of a variety of compounds, through transfer of a sulphuryl moiety from 3'phosphoadenosine- 5'phosphosulphate (PAPS) to a variety of secondary metabolites. The PAPS itself is derived from 3'adenosine-5'phosphosulphate (APS) that is formed after uptake of sulphate ions from the soil. The process provides tolerance against abiotic stresses like drought and heat in plants. Therefore, a knowledge of SOT genes in any crop may help in designing molecular breeding methods for improvement of tolerance for drought and heat. Methods: Sequences of rice SOT genes and SOT domain (PF00685) of corresponding proteins were both used for identification of SOT genes in wheat and six related species (T. urartu, Ae. tauschii, T. turgidum, Z. mays, B. distachyon and Hordeum vulgare), although detailed analysis was conducted only in wheat. The wheat genes were mapped on individual chromosomes and also subjected to synteny and collinearity analysis. The proteins encoded by these genes were examined for the presence of a complete SOT domain using 'Conserved Domain Database' (CDD) search tool at NCBI. Results: In wheat, 107 TaSOT genes, ranging in length from 969 bp to 7636 bp, were identified and mapped onto individual chromosomes. SSRs (simple sequence repeats), microRNAs, long non-coding RNAs (lncRNAs) and their target sites were also identified in wheat SOT genes. SOT proteins were also studied in detail. An expression assay of TaSOT genes via wheat RNA-seq data suggested engagement of these genes in growth, development and responses to various hormones and biotic/abiotic stresses. Conclusions: The results of the present study should help in further functional characterization of SOT genes in wheat and other related crops. [ABSTRACT FROM AUTHOR]

Published

2024

5. Operation Status of Teleoperator Based Shared Control Telerobotic System.

Author

Liu, Shuang, Yao, Shulei, Zhu, Guodong, Zhang, Xiancheng, and Yang, Runhuai

Abstract

Telerobotic system is a typical human-machine system. The operation results not only depend on the performance of machine, but also the status of teleoperators (SoT). However, existing telerobotic systems scarcely consider the impact of teleoperators. This paper proposes a method for the online identification of the SoT and incorporates it to a shared control telerobotic system. First, some mental indicators are obtained based on Electroencephalogram during teleoperations. The relationship between the SoT and mental indicators is then established by a neural network. The online SoT identification is further implemented on a mobile telerobotic system. Second, a SoT based shared control framework is proposed in telerobotic system. The SoT is designed to dynamically adjust the control weight of the shared controller. Finally, comparative experiments are performed between a sensor based shared control method and the SoT based shared control method. The result validates the effectiveness of the proposed SoT based shared control method in telerobotic system. [ABSTRACT FROM AUTHOR]

Published

2021

6. Modeling streamflow in Sot river catchment of Uttar Pradesh, India.

Author

Singh, Surjeet, Sharma, Priyanka, and Sharma, Survey D.

Subjects

STREAMFLOW, STREAM measurements, HYDROLOGIC models, SOIL moisture, TIME series analysis, WATERSHEDS

Abstract

Streamflow simulation encounters significant uncertainties due to the intricate and unpredictable nature of the data. It is highly challenging to accurately simulate and predict streamflow time series in catchments using physical-based models. To address this, the Soil and Water Assessment Tool (SWAT) proves to be an effective tool for quantifying streamflow variations based on meteorological inputs. In the present study, the Soil and Water Assessment Tool (ArcSWAT) was employed to simulate streamflow in Sot river catchment located in the Uttar Pradesh, India. The model's calibrated and validated were conducted using daily streamflow data from 2009 to 2016. The SWATCUP 2012 calibration uncertainty program was utilized for this purpose. The SWAT-CUP's algorithm called sequential uncertainty fitting method (SUFI-2) is utilized for the sensitivity analysis, calibration, and validation of the streamflow for daily time steps. The calibration and validation phases of the study yielded promising results, indicating a strong agreement between the observed and simulated streamflow data. This was evident through the correlation coefficient (R) values of 0.73 and 0.84, as well as the Nash-Sutcliffe efficiency (NSE) values of 0.49 and 0.63, respectively. These metrics serve as indicators of model performance and highlight the SWAT model's capability to accurately predict streamflow. The model's satisfactory performance, as indicated by the high values of correlation coefficient (R) and Nash-Sutcliffe efficiency (NSE), reinforces its credibility and suitability for hydrological modeling in the context of this study. The obtained results provide evidence of the SWAT model's proficiency in capturing the non-linear behavior of hydrological time series data and producing precise predictions of streamflow. These findings highlight the model's robustness and validate its effectiveness in simulating hydrological processes, reinforcing its value as a tool for decision-making and resource management in similar hydrological studies. [ABSTRACT FROM AUTHOR]

Published

2023

7. Intrapartum exposure to synthetic oxytocin, maternal BMI, and neurodevelopmental outcomes in children within the ECHO consortium.

Author

Kurth, Lisa, O'Shea, T. Michael, Burd, Irina, Dunlop, Anne L., Croen, Lisa, Wilkening, Greta, Hsu, Ting-ju, Ehrhardt, Stephan, Palanisamy, Arvind, McGrath, Monica, Churchill, Marie L., Weinberger, Daniel, Grados, Marco, and Dabelea, Dana

Subjects

OXYTOCIN, ATTENTION-deficit hyperactivity disorder, AUTISM spectrum disorders, LOGISTIC regression analysis, NEURAL development

Abstract

Background: Synthetic oxytocin (sOT) is frequently administered during parturition. Studies have raised concerns that fetal exposure to sOT may be associated with altered brain development and risk of neurodevelopmental disorders. In a large and diverse sample of children with data about intrapartum sOT exposure and subsequent diagnoses of two prevalent neurodevelopmental disorders, i.e., attention deficit hyperactivity disorder (ADHD) and autism spectrum disorder (ASD), we tested the following hypotheses: (1) Intrapartum sOT exposure is associated with increased odds of child ADHD or ASD; (2) associations differ across sex; (3) associations between intrapartum sOT exposure and ADHD or ASD are accentuated in offspring of mothers with pre-pregnancy obesity. Methods: The study sample comprised 12,503 participants from 44 cohort sites included in the Environmental Influences on Child Health Outcomes (ECHO) consortium. Mixed-effects logistic regression analyses were used to estimate the association between intrapartum sOT exposure and offspring ADHD or ASD (in separate models). Maternal obesity (pre-pregnancy BMI ≥ 30 kg/m2) and child sex were evaluated for effect modification. Results: Intrapartum sOT exposure was present in 48% of participants. sOT exposure was not associated with increased odds of ASD (adjusted odds ratio [aOR] 0.86; 95% confidence interval [CI], 0.71–1.03) or ADHD (aOR 0.89; 95% CI, 0.76–1.04). Associations did not differ by child sex. Among mothers with pre-pregnancy obesity, sOT exposure was associated with lower odds of offspring ADHD (aOR 0.72; 95% CI, 0.55–0.96). No association was found among mothers without obesity (aOR 0.97; 95% CI, 0.80–1.18). Conclusions: In a large, diverse sample, we found no evidence of an association between intrapartum exposure to sOT and odds of ADHD or ASD in either male or female offspring. Contrary to our hypothesis, among mothers with pre-pregnancy obesity, sOT exposure was associated with lower odds of child ADHD diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

8. Intertrochanteric fracture fixation in solid organ transplant patients: outcomes and survivorship.

Author

VanWagner, Michael J., Porter, Steven B., Spaulding, Aaron C., Shi, Glenn G., Wilke, Benjamin K., and Ledford, Cameron K.

Subjects

HIP fractures, FRACTURE mechanics, FRACTURE fixation, TRANSPLANTATION of organs, tissues, etc., TREATMENT effectiveness, INTRAMEDULLARY fracture fixation, INTRAMEDULLARY rods

Abstract

Background: Solid organ transplantation (SOT) recipients have complex medical and surgical risk factors; however, the outcomes of these patients undergoing surgical fixation of hip fractures are unknown. This study sought to evaluate SOT patients' outcomes and survivorship after intertrochanteric (IT) fracture fixation. Methods: A retrospective review identified 12 SOT patients who underwent cephalomedullary (CMN) nail fixation for IT fractures and were matched (1:2) to a cohort of 24 non-SOT IT fracture patients. Perioperative results and complications, mortality/patient survivorship, and clinical outcomes were compared between the cohorts. Results: The time from presentation to surgical fixation was within 48 h of presentation for the non-SOT patients, while only 75% of SOT patients underwent surgery within 48 h of presentation (p = 0.034). The 90-day readmission rate for SOT patients was 25% versus 13% in the non-SOT group (p = 0.38). Similarly, the SOT cohort experienced a higher rate of major medical complication (25% vs. 13%, p = 0.38). There were two (16%) reoperations in the SOT group and three (13%) in the non-SOT matched group (p = 0.99). Respectively, the 90-day and 1-year estimated patient survivorship was similar between the two cohorts: SOT patients with 92% (95% CI 54–99%) and 73% (95% CI 24–93%) versus 86% (95% CI 62–95%) and 72% (95% CI 47–86%, HR 0.92, 95% CI 0.18–4.62, p = 0.92) in non-SOT patients. Conclusion: SOT patients who underwent CMN fixation for IT fractures required more time from hospital presentation to surgical management than non-SOT patients. Although not statistically significant, SOT patients demonstrated more acute complications and readmissions, but similar mortality compared to those without transplant. [ABSTRACT FROM AUTHOR]

Published

2022

9. Syndrome of the trephined: clinical spectrum, risk factors, and impact of cranioplasty on neurologic recovery in a prospective cohort.

Author

Sveikata, Lukas, Vasung, Lana, El Rahal, Amir, Bartoli, Andrea, Bretzner, Martin, Schaller, Karl, Schnider, Armin, and Leemann, Béatrice

Subjects

DECOMPRESSIVE craniectomy, BRAIN anatomy, BRAIN injuries, EXECUTIVE function, SYNDROMES

Abstract

Syndrome of the trephined (SoT) is an underrecognized complication after decompressive craniectomy. We aimed to investigate SoT incidence, clinical spectrum, risk factors, and the impact of the cranioplasty on neurologic recovery. Patients undergoing a large craniectomy (> 80 cm2) and cranioplasty were prospectively evaluated using modified Rankin score (mRS), cognitive (attention/processing speed, executive function, language, visuospatial), motor (Motricity Index, Jamar dynamometer, postural score, gait assessment), and radiologic evaluation within four days before and after a cranioplasty. The primary outcome was SoT, diagnosed when a neurologic improvement was observed after the cranioplasty. The secondary outcome was a good neurologic outcome (mRS 0–3) 4 days and 90 days after the cranioplasty. Logistic regression models were used to evaluate the risk factors for SoT and the impact of cranioplasty timing on neurologic recovery. We enrolled 40 patients with a large craniectomy; 26 (65%) developed SoT and improved after the cranioplasty. Brain trauma, hemorrhagic lesions, and shifting of brain structures were associated with SoT. After cranioplasty, a shift towards a good outcome was observed within 4 days (p = 0.025) and persisted at 90 days (p = 0.005). Increasing delay to cranioplasty was associated with decreased odds of improvement when adjusting for age and baseline disability (odds ratio 0.96; 95% CI, 0.93–0.99, p = 0.012). In conclusion, SoT is frequent after craniectomy and interferes with neurologic recovery. High suspicion of SoT should be exercised in patients who fail to progress or have a previous trauma, hemorrhage, or shifting of brain structures. Performing the cranioplasty earlier was associated with improved and quantifiable neurologic recovery. [ABSTRACT FROM AUTHOR]

Published

2022

10. n-SOT Hypercyclic Linear Maps on Banach Algebra of Operators.

Author

Avizeh, Narjes and Rezaei, Hamid

Subjects

*LINEAR operators, *OPERATOR algebras, *LINEAR algebra, *BANACH spaces, *BANACH algebras

Abstract

Let B(X) be the algebra of bounded linear operators on a Banach space X. A subset E of B(X) is said to be n-SOT dense in B(X) if for every continuous linear operator Λ from B(X) onto X (n) , the direct sum of n copies of X, Λ (E) is dense in X (n) . We consider the n-SOT hypercyclic continuous linear maps on B(X), namely, those that have orbits that are n-SOT dense in B(X). Some nontrivial examples of such operators are provided and many of their basic properties are investigated. In particular, we show that the left multiplication operator L T is 1-SOT hypercyclic if and only if T is hypercyclic on X. [ABSTRACT FROM AUTHOR]

Published

2019

11. Diagnostics for Fungal Infections in Solid Organ Transplants (SOT).

Author

Stack, Colin M. and Morton, C. Oliver

Abstract

Purpose of Review: This review examined the literature on the diagnosis of invasive fungal disease (IFD) in patients undergoing solid organ transplants (SOT) to describe the diagnostic options available for this cohort. Recent Findings: The tools available for the diagnosis of IFD in SOT patients are similar to those for patients undergoing stem cell transplants. These include (1) direct visualisation by radiography or histopathology, (2) antigenic tests using ELISA or lateral flow devices for fungal antigens, and (3) PCR-based assays that are commercially available for the two primary IFD affecting SOT patients, aspergillosis and candidiasis. Testing recipients and donors for IFD susceptibility may lead to improved prediction of IFD in SOT. Summary: The organ being transplanted has a strong bearing on the risk of IFD and the fungi that will cause disease. No single methodology can yield a definitive diagnosis so combinations of diagnostic tests targeted to the specific patient can indicate the probability of IFD. [ABSTRACT FROM AUTHOR]

Published

2021

12. Magnetic memory driven by topological insulators.

Author

Wu, Hao, Chen, Aitian, Zhang, Peng, He, Haoran, Nance, John, Guo, Chenyang, Sasaki, Julian, Shirokura, Takanori, Hai, Pham Nam, Fang, Bin, Razavi, Seyed Armin, Wong, Kin, Wen, Yan, Ma, Yinchang, Yu, Guoqiang, Carman, Gregory P., Han, Xiufeng, Zhang, Xixiang, and Wang, Kang L.

Subjects

TOPOLOGICAL insulators, MAGNETIC tunnelling, TUNNEL magnetoresistance, MAGNETIC control, FERROMAGNETIC resonance

Abstract

Giant spin-orbit torque (SOT) from topological insulators (TIs) provides an energy efficient writing method for magnetic memory, which, however, is still premature for practical applications due to the challenge of the integration with magnetic tunnel junctions (MTJs). Here, we demonstrate a functional TI-MTJ device that could become the core element of the future energy-efficient spintronic devices, such as SOT-based magnetic random-access memory (SOT-MRAM). The state-of-the-art tunneling magnetoresistance (TMR) ratio of 102% and the ultralow switching current density of 1.2 × 105 A cm−2 have been simultaneously achieved in the TI-MTJ device at room temperature, laying down the foundation for TI-driven SOT-MRAM. The charge-spin conversion efficiency θSH in TIs is quantified by both the SOT-induced shift of the magnetic switching field (θSH = 1.59) and the SOT-induced ferromagnetic resonance (ST-FMR) (θSH = 1.02), which is one order of magnitude larger than that in conventional heavy metals. These results inspire a revolution of SOT-MRAM from classical to quantum materials, with great potential to further reduce the energy consumption. It remains challenging to integrate topological insulators (TI) with magnetic tunnel junctions (MTJ) for spintronics applications. Here, the authors achieve a large tunneling magnetoresistance ratio and a low switching current density in a TI-MTJ device at room temperature, very promising for TI-driven magnetic memory. [ABSTRACT FROM AUTHOR]

Published

2021

13. Harnessing synergy of spin and orbital currents in heavy metal/ferromagnet multilayers.

Author

Yang, Yumin, Xie, Zhicheng, Zhao, Zhiyuan, Lei, Na, Zhao, Jianhua, and Wei, Dahai

Subjects

LIGHT metals, TORQUE control, ELECTRON spin, NUCLEAR spin, HEAVY metals

Abstract

Spin-orbitronics, exploiting electron spin and/or orbital angular momentum, offers a powerful route to energy-efficient spintronic applications. Recent research on orbital currents in light metals broadens the scope of spin-orbit torque (SOT). However, distinguishing and manipulating orbital torque in heavy metal/ferromagnet (HM/FM) remains a challenge, limiting the promising synergy of spin and orbital currents. Here, we design a HM/FM/FMSOC heterostructure and experimentally separate orbital torque contribution from spin torque by utilizing the distinct diffusion length of spin and orbital currents. Furthermore, we achieve the synergy of spin and orbital torques by controlling their relative strength, and obtain a 110% improvement in torque efficiency compared to the representative Pt/Co bilayer. Our findings not only contribute to a deeper understanding of SOT mechanisms and orbital current transport in HM/FM multilayers, but also highlight the promising prospect of orbital and spin torque synergy for optimizing the efficiency of next-generation spintronic devices. Eliminating the interference of spin current to distinguish and manipulate orbital torque in heavy metal/ferromagnet (HM/FM) heterojunction remains a challenge. Here, the authors design a HM/FM/FMSOC multilayer to separate orbital torque contribution and harness the synergy of spin and orbital currents for enhanced spin-orbit torque. [ABSTRACT FROM AUTHOR]

Published

2024

14. Field-free spin–orbit torque switching in ferromagnetic trilayers at sub-ns timescales.

Author

Yang, Qu, Han, Donghyeon, Zhao, Shishun, Kang, Jaimin, Wang, Fei, Lee, Sung-Chul, Lei, Jiayu, Lee, Kyung-Jin, Park, Byong-Guk, and Yang, Hyunsoo

Abstract

Current-induced spin torques enable the electrical control of the magnetization with low energy consumption. Conventional magnetic random access memory (MRAM) devices rely on spin-transfer torque (STT), this however limits MRAM applications because of the nanoseconds incubation delay and associated endurance issues. A potential alternative to STT is spin-orbit torque (SOT). However, for practical, high-speed SOT devices, it must satisfy three conditions simultaneously, i.e., field-free switching at short current pulses, short incubation delay, and low switching current. Here, we demonstrate field-free SOT switching at sub-ns timescales in a CoFeB/Ti/CoFeB ferromagnetic trilayer, which satisfies all three conditions. In this trilayer, the bottom magnetic layer or its interface generates spin currents with polarizations in both in-plane and out-of-plane components. The in-plane component reduces the incubation time, while the out-of-plane component realizes field-free switching at a low current. Our results offer a field-free SOT solution for energy-efficient scalable MRAM applications.Magnetic random access memory current uses spin transfer torque for switching, which limits the speed of switching operation, and the number of times the device can be switched before failure. Here, Yang et al. demonstrate field free switching using spin-orbit torque offering a pathway to overcome these limitations. [ABSTRACT FROM AUTHOR]

Published

2024

15. Non-volatile electric control of spin-orbit torques in an oxide two-dimensional electron gas.

Author

Grezes, Cécile, Kandazoglou, Aurélie, Cosset-Cheneau, Maxen, Arche, Luis M. Vicente, Noël, Paul, Sgarro, Paolo, Auffret, Stephane, Garello, Kevin, Bibes, Manuel, Vila, Laurent, and Attané, Jean-Philippe

Subjects

TWO-dimensional electron gas, TORQUE control, SPIN-orbit interactions, SPIN Hall effect, MAGNETIC tunnelling, ELECTRON gas, ELECTRIC currents, MAGNONS

Abstract

Spin-orbit torques (SOTs) have opened a novel way to manipulate the magnetization using in-plane current, with a great potential for the development of fast and low power information technologies. It has been recently shown that two-dimensional electron gases (2DEGs) appearing at oxide interfaces provide a highly efficient spin-to-charge current interconversion. The ability to manipulate 2DEGs using gate voltages could offer a degree of freedom lacking in the classical ferromagnetic/spin Hall effect bilayers for spin-orbitronics, in which the sign and amplitude of SOTs at a given current are fixed by the stack structure. Here, we report the non-volatile electric-field control of SOTs in an oxide-based Rashba-Edelstein 2DEG. We demonstrate that the 2DEG is controlled using a back-gate electric-field, providing two remanent and switchable states, with a large resistance contrast of 1064%. The SOTs can then be controlled electrically in a non-volatile way, both in amplitude and in sign. This achievement in a 2DEG-CoFeB/MgO heterostructures with large perpendicular magnetization further validates the compatibility of oxide 2DEGs for magnetic tunnel junction integration, paving the way to the advent of electrically reconfigurable SOT MRAMS circuits, SOT oscillators, skyrmion and domain-wall-based devices, and magnonic circuits. A central goal of spintronics is electric control of magnetism. One particularly promising method makes use of spin-orbit torques which arise due to the combination of electric current, and the intrinsic spin-orbit effect in a material. Here, Grezes et al demonstrate non-volatile electrical control of the spin-orbit torque generated at the interface between an oxide and a metal. [ABSTRACT FROM AUTHOR]

Published

2023

16. Room temperature energy-efficient spin-orbit torque switching in two-dimensional van der Waals Fe3GeTe2 induced by topological insulators.

Author

Wang, Haiyu, Wu, Hao, Zhang, Jie, Liu, Yingjie, Chen, Dongdong, Pandey, Chandan, Yin, Jialiang, Wei, Dahai, Lei, Na, Shi, Shuyuan, Lu, Haichang, Li, Peng, Fert, Albert, Wang, Kang L., Nie, Tianxiao, and Zhao, Weisheng

Subjects

TOPOLOGICAL insulators, RANDOM access memory, MAGNETIC control, TORQUE, FERROMAGNETIC materials

Abstract

Two-dimensional (2D) ferromagnetic materials with unique magnetic properties have great potential for next-generation spintronic devices with high flexibility, easy controllability, and high heretointegrability. However, realizing magnetic switching with low power consumption at room temperature is challenging. Here, we demonstrate the room-temperature spin-orbit torque (SOT) driven magnetization switching in an all-van der Waals (vdW) heterostructure using an optimized epitaxial growth approach. The topological insulator Bi2Te3 not only raises the Curie temperature of Fe3GeTe2 (FGT) through interfacial exchange coupling but also works as a spin current source allowing the FGT to switch at a low current density of ~2.2×106 A/cm2. The SOT efficiency is ~2.69, measured at room temperature. The temperature and thickness-dependent SOT efficiency prove that the larger SOT in our system mainly originates from the nontrivial topological origin of the heterostructure. Our experiments enable an all-vdW SOT structure and provides a solid foundation for the implementation of room-temperature all-vdW spintronic devices in the future. Magnetic random access memory (MRAM) exhibits remarkable device endurance, while also offering potential operation speed and energy efficiency improvements compared to conventional random access memory. However, challenges remain, both in terms of efficiency, and miniaturization. Here, Wang et al demonstrate a van der Waals (vdW) based spin-orbit torque switching, in a Fe3GeTe2/Bi2Te3 heterostructure, paving the way for thinner and higher efficiency spin-orbit torque based vdW MRAM. [ABSTRACT FROM AUTHOR]

Published

2023

17. A generic MOT boosting framework by combining cues from SOT, tracklet and re-identification.

Author

Liang, Tianyi, Lan, Long, Zhang, Xiang, and Luo, Zhigang

Subjects

HIERARCHICAL clustering (Cluster analysis), GOAL (Psychology), ALGORITHMS, MOTIVATION (Psychology), OBJECT tracking (Computer vision)

Abstract

In this paper, we propose a generic boosting framework for multiple object tracking (MOT). Unlike other works tracking objects from zero, our framework uses their results (tracklets) and makes further optimizations. The motivation of us derives from the observation that most modern MOT trackers have been acceptable performance and can yield relatively reliable tracklets; accordingly, we straight focus on the tracklet-level re-identification, which is the most challenging issue in this case. To achieve that goal, we simultaneously utilize the techniques of single object tracking, tracking fragment (tracklets) and re-identification mechanism through casting them into a multi-label energy optimization and then innovatively solving it using the α - expansion with label costs algorithm. All these techniques inspire recent MOT a lot to mitigate the occlusion problem, but to our knowledge, by far few works explore to reasonably combine them all like us. Furthermore, we introduce a spatial attention to improve the appearance model and a hierarchical clustering as post-process to progressively improve the tracking consistency. Finally, testing results on the most used benchmarks demonstrate the significant effectiveness and generality of our framework, and the importance of each contribution is also verified through ablative studies. [ABSTRACT FROM AUTHOR]

Published

2021

18. Spin-orbit torque efficiency enhancement to tungsten-based SOT-MTJs by interface modification with an ultrathin MgO.

Author

Lu, Shiyang, Ning, Xiaobai, Zhang, Hongchao, Zhen, Sixi, Fan, Xiaofei, Xiong, Danrong, Zhu, Dapeng, Wang, Gefei, Liu, Hong-Xi, Cao, Kaihua, and Zhao, Weisheng

Abstract

Conclusion: The effect of the MgO interlayer in the W/CoFeB interface on the charge-to-spin current conversion efficiency was experimentally investigated by changing the MgO interlayer thicknesses. Experimental results show high |ξdl| up to 0.58 by introducing a 0.22-nm-thick MgO interlayer, which is 45% enhanced as compared to the one without the MgO interlayer. The switching current density in the corresponding MTJs was also reduced by nearly 48% under 1-ns-width pulse tests. The improved switching efficiency can be explained by the enhanced Rashba effect at the W/MgO interface theoretically. In summary, these findings give potential solutions to the high-power dissipation issue for the tungsten-based SOT-MTJs. [ABSTRACT FROM AUTHOR]

Published

2024

19. Large out-of-plane spin–orbit torque in topological Weyl semimetal TaIrTe4.

Author

Bainsla, Lakhan, Zhao, Bing, Behera, Nilamani, Hoque, Anamul Md., Sjöström, Lars, Martinelli, Anna, Abdel-Hafiez, Mahmoud, Åkerman, Johan, and Dash, Saroj P.

Subjects

SPIN-polarized currents, PERPENDICULAR magnetic anisotropy, CRYSTAL symmetry, TORQUE, FERROMAGNETIC resonance

Abstract

The unique electronic properties of topological quantum materials, such as protected surface states and exotic quasiparticles, can provide an out-of-plane spin-polarized current needed for external field-free magnetization switching of magnets with perpendicular magnetic anisotropy. Conventional spin–orbit torque (SOT) materials provide only an in-plane spin-polarized current, and recently explored materials with lower crystal symmetries provide very low out-of-plane spin-polarized current components, which are not suitable for energy-efficient SOT applications. Here, we demonstrate a large out-of-plane damping-like SOT at room temperature using the topological Weyl semimetal candidate TaIrTe4 with a lower crystal symmetry. We performed spin–torque ferromagnetic resonance (STFMR) and second harmonic Hall measurements on devices based on TaIrTe4/Ni80Fe20 heterostructures and observed a large out-of-plane damping-like SOT efficiency. The out-of-plane spin Hall conductivity is estimated to be (4.05 ± 0.23)×104 (ℏ ⁄ 2e) (Ωm)−1, which is an order of magnitude higher than the reported values in other materials. Topological semimetals offer the potential for new-generation spintronic devices. Here, the authors demonstrate a large out-of-plane damping-like spin–orbit torque efficiency in a heterostructure based on the Weyl semimetal TaIrTe4. [ABSTRACT FROM AUTHOR]

Published

2024

20. Continuous and pulsed ultrasound-assisted extraction of pectin from pomelo fruit peel using citric acid.

Author

Wani, Khalid Mehmood and Uppaluri, Ramagopal V. S.

Abstract

Pectin extraction from pomelo peel was carried out using normal and pulsed mode of ultrasound-assisted extraction (UAE) and acidic hot water extraction (ACHWE) processes. The influence of sonication time (SOT) and pH on the pectin yield (PY) and degree of esterification (DE) were evaluated using a face-centered design (FCD)-based response surface methodology (RSM). The extraction was performed with fixed choice of dried pomelo peel powder to water ratio (1:15 g/mL) and extraction temperature (65 °C). The findings showed that the normal ultrasound-assisted aqueous extract possessed 3–35.3% pectin yield with 40.73–84.9% DE for an alternation in the degrees of freedom as 1.5–3.5 pH and 5–30 min SOT. For pulsed mode, the corresponding aqueous extract constituted 5.5–40.41% pectin yield with 47.6–88.6% DE. These findings revealed that the pectin extraction with the ACHWE (using citric acid) process inferred lower yield and DE (14. 8 ± 0.11% and 51.5 ± 0.16%, respectively) in comparison to the optimal findings obtained with the UAE. As a result, the application of ultrasound affirmed a better PY and DE characteristics in comparison with the conventional ACHWE. [ABSTRACT FROM AUTHOR]

Published

2024

21. COVID-19 Vaccination Recommendations for Immunocompromised Patient Populations: Delphi Panel and Consensus Statement Generation in the United States.

Author

Lai, Kira Zhi Hua, Greenstein, Stuart, Govindasamy, Rajesh, Paranilam, Jaya, Brown, Joseph, and Kimball-Carroll, Samantha

Subjects

SARS-CoV-2, BOOSTER vaccines, COVID-19, MESSENGER RNA, PHYSICIANS

Abstract

Introduction: The United States Advisory Committee on Immunization Practices (ACIP) and the Centers for Disease Control (CDC) recommend COVID-19 vaccines for all immunocompromised individuals. Certain disease groups are at increased risk of comorbidity and death for which disease-specific recommendations should be considered. The objective of the Delphi panel of experts was to summarize expert consensus on COVID-19 vaccinations for patients with rheumatologic disease, renal disease, hematologic malignancy and solid organ transplant (SOT) in the US. Methods: A two-stage Delphi panel method was employed, starting with qualitative interviews with key opinion leaders (KOLs) in the four disease areas (n = 4 KOLs, n = 16 total) followed by three rounds of iterative revision of disease-specific COVID-19 vaccine recommendations. Final consensus was rated after the third round. Statements addressed primary and booster dosing (e.g., number and frequency) and other considerations such as vaccine type or heterologous messenger ribonucleic acid (mRNA) vaccination. Following the Delphi Panel, an online survey was conducted to assess physician agreement within the disease areas (n = 50 each, n = 200 total) with the consensus statements. Results: Moderate to strong consensus was achieved for all primary series vaccination statements across disease groups, except one in hematology. Similarly, moderate to strong consensus was achieved for all booster series statements in all disease areas. However, statements on antibody titer measurements for re-vaccination considerations and higher dosages for immunocompromised patients did not reach agreement. Overall, approximately 62%–96% of physicians strongly agreed with the primary and booster vaccine recommendations. However, low agreement (29%–69%) was found among physicians for time interval between disease-specific treatment and vaccination, recommendations for mRNA vaccines, heterologous mRNA vaccination, antibody titer measurement and higher vaccine dosage for immunocompromised groups. Conclusion: Consensus was achieved for disease-specific COVID-19 vaccine recommendations concerning primary and booster series vaccines and was generally well accepted by practicing physicians. [ABSTRACT FROM AUTHOR]

Published

2024

22. Variations of Magnetic Bright Point Properties with Longitude and Latitude as Observed by Hinode/SOT G-band Data.

Author

Utz, D., Hanslmeier, A., Veronig, A., Kühner, O., Muller, R., Jurčák, J., and Lemmerer, B.

Subjects

*SOLAR optical telescopes, *COSMIC magnetic fields, *PARTICLE size distribution, *POLYNOMIALS, *PARAMETER estimation, *HELIOSEISMOLOGY, *GENERALIZATION

Abstract

Small-scale magnetic fields can be observed on the Sun in high-resolution G-band filtergrams as magnetic bright points (MBPs). We study Hinode/ Solar Optical Telescope (SOT) longitude and latitude scans of the quiet solar surface taken in the G-band in order to characterise the centre-to-limb dependence of MBP properties (size and intensity). We find that the MBP's sizes increase and their intensities decrease from the solar centre towards the limb. The size distribution can be fitted using a log-normal function. The natural logarithm of the mean ( μ parameter) of this function follows a second-order polynomial and the generalised standard deviation ( σ parameter) follows a fourth-order polynomial or equally well (within statistical errors) a sine function. The brightness decrease of the features is smaller than one would expect from the normal solar centre-to-limb variation; that is to say, the ratio of a MBP's brightness to the mean intensity of the image increases towards the limb. The centre-to-limb variations of the intensities of the MBPs and the quiet-Sun field can be fitted by a second-order polynomial. The detailed physical process that results in an increase of a MBP's brightness and size from Sun centre to the limb is not yet understood and has to be studied in more detail in the future. [ABSTRACT FROM AUTHOR]

Published

2013

23. Mechanism of field-like torque in spin-orbit torque switching of perpendicular magnetic tunnel junction.

Author

Zhuo, Yudong, Cai, Wenlong, Zhu, Daoqian, Zhang, Hongchao, Du, Ao, Cao, Kaihua, Yin, Jialiang, Huang, Yan, Shi, Kewen, and Zhao, Weisheng

Abstract

The current-induced spin-orbit torque (SOT) is one of the most promising ways for high speed and low power spintronics devices. However, the mechanism of SOT driven magnetization reversal, especially the role of the field-like torque (FLT), is still unclear. Here, we report the observed promotion and suppression of switching by FLT, which depends on the relative direction of FLT and spin polarization. Our results reveal that the FLT could modulate the switching speed and power consumption by affecting the work done by the damping-like torque, and leads two different reversal dynamical paths during the switching. Furthermore, the origin of incubation time in SOT induced switching is clarified simultaneously. [ABSTRACT FROM AUTHOR]

Published

2022

24. Spicules Intensity Oscillations in SOT/HINODE Observations.

Author

Tavabi, E., Ajabshirizadeh, A., Maralani, A. R. Ahangarzadeh, and Zeighami, S.

Subjects

*SPICULE (Anatomy), *OSCILLATIONS, *ASTRONOMICAL observations, *EXISTENCE theorems, *SOLAR wind, *TRANSPORT theory

Abstract

Aims. We study the coherency of solar spicules intensity oscillations with increasing height above the solar limb in quiet Sun, active Sun and active region using observations from HINODE/SOT. Existence of coherency up to transition region strengthens the theory of the coronal heating and solar wind, through energy transport and photospheric oscillations. Methods. Using time sequences from the HINODE/SOT in Ca II H line, we investigate oscillations found in intensity profiles at different heights above the solar limb. We use the Fourier and wavelet analysis to measure dominant frequency peaks of intensity at the heights, and phase difference between oscillations at two certain heights, to find evidence for the coherency of the oscillations. Results. The results of fast Fourier transform (FFT) for the quiet Sun, active Sun and active region show frequency peaks of order 3.6 mHz, 5.5 mHz and 7.3 mHz at four separate heights. The fluctuations of powers are random for the three datasets, i.e., independent from height and solar activity. The wavelet results for quiet Sun, active Sun and active region indicate dominant frequencies similar to FFT results. Results of coherency represent frequencies at about 3.5 mHz and 5.5 mHz for all three datasets. Histograms of frequencies corresponding to maximum coherency for quiet Sun, active region and active sun display frequencies of about 3.5 mHz, 4.2 mHz, 4.6 mHz, 5.3 mHz and 5.8 mHz. The phase speeds of 50- 450 km s-1 are measured for quiet Sun, 50-560 km s-1 for active region and 50-550 km s-1 for active Sun. The majority of the measured phase speeds in locations where there is known to be considerable dynamic activity are more than quiet Sun, and the phase speeds obtained from three datasets increase with height. We also find strong evidence for upwardly propagating waves with high coherency in three datasets. Intensity oscillations may result from the presence of the coherent waves, which could provide significant energy to heat the solar atmosphere. Finally, we can calculate the energy and the mass transported by spicules providing energy equilibrium, according to density values of spicules at different heights. To extend this work, we can also consider coherent oscillations at different latitudes and suggest the study of oscillations, which may be obtained from observations of other satellites. [ABSTRACT FROM AUTHOR]

Published

2015

25. Hinode SOT Plate Scale Reinvestigated by G-Band Images on the 2012 Transit of Venus.

Author

Kanao, M., Shimizu, T., Imamura, T., and Nakamura, M.

Subjects

*SOLAR optical telescopes, *IMAGE processing, *THICKNESS measurement, *TRANSIT of Venus (Planet), *PIXELS, *SOLAR surface

Abstract

The Hinode Solar Optical Telescope (SOT) successfully observed the transit of Venus with an unprecedented high spatial resolution on 5 - 6 June 2012, providing images of the aureole refracted by the atmosphere of Venus and the dark Venus disk against the bright solar surface. The transit of Venus provided a unique opportunity for calibrating the plate scale of SOT images. With the examination of the radius of the dark Venus disk, we determined the plate scale of G-band 430.5 nm images with high accuracy: 0.05369±0.00005 arcsec pixel. The radius was defined at the intensity level of the 0.5 transmittance and compared with the angular radius of Venus including the thickness of the atmosphere determined with the measurements of SPICAV onboard Venus Express. Thanks to the high spatial resolution, SOT images show that the dark Venus can be well represented by an ellipse. We observed 7.6 km difference in altitude between the equator and the polar regions. [ABSTRACT FROM AUTHOR]

Published

2015

26. Elemental Compositions of Clinopyroxenes from Southern Okinawa Trough Basalt: Implications for Magmatism and Structural Environment in an Initial Back-Arc Basin.

Author

Guo, Kun, Zhai, Shikui, Fan, Di, Zhang, Xia, Zhang, Yu, and Zhu, Zhimin

Abstract

The major and trace elemental compositions of clinopyroxene from basalt were used to characterize the nature of the primitive magma and structural environment beneath the southern Okinawa Trough (SOT), which is an initial back-arc basin at a continental margin. The clinopyroxenes in the basalt were augite with variable Mg# contents (73.37–78.22). The regular variations in major oxide contents (i.e., CaO, FeO, TiO2, and Cr) with decreasing Mg# implied that the clinopyroxenes evolved from being enriched in Mg, Ca, and Cr to being enriched in Fe and Ti. The clinopyroxenes had relatively low rare earth element concentrations (7.51 × 10−6 to 12.68 × 10−6) and negative Eu anomalies (δEu = 0.67–0.95). The Kdcpx values of clinopyroxenes (0.2–0.26), which were used to examine whether the clinopyroxene was equilibrated with its host basalt, demonstrate that these clinopyroxene phenocrysts were not captured crystals but were instead produced by crystallization differentiation of the magma. The calculated clinopyroxene crystallization temperatures showed a narrow range of 990–1061°C, and their crystallization pressures ranged from 2.0 to 3.2 kbar. The geochemistry features of these clinopyroxenes indicated that the parent magma belonged to the subalkaline tholeiitic magma series and suggested that the magma experienced crystallization differentiation of olivine, plagioclase, and clinopyroxene, where the crystallization of plagioclase occurred earlier than that of clinopyroxene. Combined with geophysical data, this research on primitive magma and its crystallization differentiation from clinopyroxene indicates that the SOT is in the stage of 'seafloor spreading' and that basaltic rocks produced from tholeiitic magma represent the generation of oceanic crust. [ABSTRACT FROM AUTHOR]

Published

2024

27. Improved SOT (Hinode mission) high resolution solar imaging observations.

Author

Goodarzi, H., Koutchmy, S., and Adjabshirizadeh, A.

Subjects

*SPACE vehicles, *OPTICAL telescopes, *FILTERS (Mathematics), *LORENTZIAN function, *GAUSSIAN function, *SOLAR atmosphere

Abstract

We consider the best today available observations of the Sun free of turbulent Earth atmospheric effects, taken with the Solar Optical Telescope (SOT) onboard the Hinode spacecraft. Both the instrumental smearing and the observed stray light are analyzed in order to improve the resolution. The Point Spread Function (PSF) corresponding to the blue continuum Broadband Filter Imager (BFI) near 450 nm is deduced by analyzing (i) the limb of the Sun and (ii) images taken during the transit of the planet Venus in 2012. A combination of Gaussian and Lorentzian functions is selected to construct a PSF in order to remove both smearing due to the instrumental diffraction effects (PSF core) and the large-angle stray light due to the spiders and central obscuration (wings of the PSF) that are responsible for the parasitic stray light. A Max-likelihood deconvolution procedure based on an optimum number of iterations is discussed. It is applied to several solar field images, including the granulation near the limb. The normal non-magnetic granulation is compared to the abnormal granulation which we call magnetic. A new feature appearing for the first time at the extreme- limb of the disk (the last 100 km) is discussed in the context of the definition of the solar edge and of the solar diameter. A single sunspot is considered in order to illustrate how effectively the restoration works on the sunspot core. A set of 125 consecutive deconvolved images is assembled in a 45 min long movie illustrating the complexity of the dynamical behavior inside and around the sunspot. [ABSTRACT FROM AUTHOR]

Published

2015

28. Magnetisation switching dynamics induced by combination of spin transfer torque and spin orbit torque.

Author

Meo, Andrea, Chureemart, Jessada, Chantrell, Roy W., and Chureemart, Phanwadee

Subjects

SPIN transfer torque, MAGNETIZATION, MAGNETIC tunnelling, MAGNETIZATION reversal, TORQUE

Abstract

We present a theoretical investigation of the magnetisation reversal process in CoFeB-based magnetic tunnel junctions (MTJs). We perform atomistic spin simulations of magnetisation dynamics induced by combination of spin orbit torque (SOT) and spin transfer torque (STT). Within the model the effect of SOT is introduced as a Slonczewski formalism, whereas the effect of STT is included via a spin accumulation model. We investigate a system of CoFeB/MgO/CoFeB coupled with a heavy metal layer where the charge current is injected into the plane of the heavy metal meanwhile the other charge current flows perpendicular into the MTJ structure. Our results reveal that SOT can assist the precessional switching induced by spin polarised current within a certain range of injected current densities yielding an efficient and fast reversal on the sub-nanosecond timescale. The combination of STT and SOT gives a promising pathway to improve high performance CoFeB-based devices with high speed and low power consumption. [ABSTRACT FROM AUTHOR]

Published

2022

29. Oscillations in solar jets observed with the SOT of Hinode: viscous effects during reconnection.

Author

Tavabi, E. and Koutchmy, S.

Subjects

*SOLAR chromosphere, *COSMIC magnetic fields, *SOLAR oscillations, *MAGNETIC reconnection, *JETS (Nuclear physics), *TOPOLOGY, *MAGNETOHYDRODYNAMICS

Abstract

Transverse oscillatory motions and recurrence behavior in the chromospheric jets observed by Hinode/SOT are studied. A comparison is considered with the behavior that was noticed in coronal X-ray jets observed by Hinode/XRT. A jet like bundle observed at the limb in Ca II H line appears to show a magnetic topology that is similar to X-ray jets (i.e., the Eiffel tower shape). The appearance of such magnetic topology is usually assumed to be caused by magnetic reconnection near a null point. Transverse motions of the jet axis are recorded but no clear evidence of twist is appearing from the highly processed movie. The aim is to investigate the dynamical behavior of an incompressible magnetic X-point occurring during the magnetic reconnection in the jet formation region. The viscous effect is specially considered in the closed line-tied magnetic X-shape nulls. We perform the MHD numerical simulation in 2-D by solving the visco-resistive MHD equations with the tracing of velocity and magnetic field. A qualitative agreement with Hinode observations is found for the oscillatory and non-oscillatory behaviors of the observed solar jets in both the chromosphere and the corona. Our results suggest that the viscous effect contributes to the excitation of the magnetic reconnection by generating oscillations that we observed at least inside this Ca II H line cool solar jet bundle. [ABSTRACT FROM AUTHOR]

Published

2014

30. English fronting constructions as a window to the semantics of tense: the case of belief reports.

Author

Kusliy, Petr

Subjects

ENGLISH language, JAPANESE language, RUSSIAN language, GERMAN language, SEMANTICS, PROPOSITIONAL attitudes

Abstract

This paper delves into the temporal interpretation of fronting constructions in English, a topic that has received limited attention in the literature on tense semantics. It presents new empirical findings revealing that specific fronting configurations, involving present tense morphology in a complement CP under a matrix past tense, can yield a theoretically unexpected simultaneous interpretation. A novel theoretical framework for understanding English tense is proposed, which accounts for the temporal interpretation of both fronting and non-fronting versions of attitude reports. The framework introduces a null simultaneous tense as a replacement for the conventional indexical present and the Sequence-of-Tense (SOT) de se tense. It is argued that in complement CPs the null simultaneous tense, as well as past tense, can be anchored either to the attitude time or to the utterance time. In either case, each tense receives a de re interpretation. Moreover, the paper contends that evidence from fronting constructions supports Kratzer's (Proceedings of semantics and linguistic theory 8, pp. 92–110, 1998) proposal that the transmission of temporal features (as part of the mechanism of SOT) occurs at PF. Finally, the proposed revision of the English tense system contributes to a more unified cross-linguistic perspective on tense. It is demonstrated how the temporal readings of attitude reports arising in such non-SOT languages as Russian, Japanese, and Hebrew can be captured within the system developed for English, with known contrasts attributed to the absence of Feature Transmission in those languages. Further known and new data from English, Modern Greek, and German are examined, revealing variations in SOT effects across SOT languages. These data are used as additional evidence supporting the claim that cross-linguistic variation in the interpretation of complement tense stems solely from differences in Feature Transmission. Regarding the semantic profile of tenses, it can be considered largely invariant. [ABSTRACT FROM AUTHOR]

Published

2024

31. Large unidirectional spin Hall magnetoresistance in FeNi/Pt/Bi2Se3 trilayers by Pt interfacial engineering.

Author

Zhang, Qi, Tao, Kun, Jia, Chenglong, Xu, Guofu, Chai, Guozhi, Zuo, Yalu, Cui, Baoshan, Yang, Dezheng, Xue, Desheng, and Xi, Li

Subjects

SURFACE states, MAGNETORESISTANCE, HIGH temperatures, TEMPERATURE effect, SIGNALS & signaling

Abstract

Unidirectional spin Hall magnetoresistance (USMR) has emerged as a promising candidate for magnetoresistive random-access memory (MRAM) technology. However, the realization of high signal-to-noise output signal in USMR devices has remained a challenge, primarily due to the limited USMR effect at room temperature. In this study, we report a large USMR effect in FeNi/Pt/Bi₂Se₃ trilayers through interfacial engineering with Pt to optimize the spin current transmission efficiency and electron-magnon scattering. Our devices exhibit a USMR value that is an order of magnitude higher than previously reported systems, reaching 30.6 ppm/MA/cm² at room temperature. First-principles calculations and experimental observations suggest that the Pt layer not only preserves the spin-momentum locked topological surface states in Bi₂Se₃ at the Fermi-level but also generates additional Rashba surface states within the Pt itself to enhance the effective SOT efficiency. Furthermore, we demonstrate that the two-terminal USMR-MRAM devices show robust output performance with 2nd harmonic resistance variation around 0.11 Ω/mA. Remarkably, the performance of these devices further improves at elevated temperatures, highlighting their potential for reliable operation in a wide range of environmental conditions. Our findings pave the way for future advancements in high-performance, energy-efficient spintronic memory devices. Unidirectional spin Hall magnetoresistance refers to an asymmetric resistance response, which allows for the readout of the magnetic state from two terminal devices. Here, Zhang et al demonstrate a large unidirectional spin hall magnetoresistance FeNi/Pt/Bi₂Se₃ trilayers and present a robust random-access magnetoresistance device. [ABSTRACT FROM AUTHOR]

Published

2024

32. Ultrafast antiferromagnetic switching of Mn2Au with laser-induced optical torques.

Author

Ross, Jackson L., Gavriloaea, Paul-Iulian, Freimuth, Frank, Adamantopoulos, Theodoros, Mokrousov, Yuriy, Evans, Richard F. L., Chantrell, Roy, Otxoa, Rubén M., and Chubykalo-Fesenko, Oksana

Subjects

OPTICAL switching, MAGNETIC control, LASER heating, ACTIVATION energy, TORQUE

Abstract

Ultrafast manipulation of the Néel vector in metallic antiferromagnets most commonly occurs by generation of spin-orbit (SOT) or spin-transfer (STT) torques. Here, we predict another possibility for antiferromagnetic domain switching by using novel laser optical torques (LOTs). We present results of atomistic spin dynamics simulations from the application of LOTs for all-optical switching of the Néel vector in the antiferromagnet Mn2Au. The driving mechanism takes advantage of the sizeable exchange enhancement, characteristic of antiferromagnetic dynamics, allowing for picosecond 90 and 180-degree precessional toggle switching of the Néel vector with laser fluences on the order of mJ/cm2. A special symmetry of these novel torques greatly minimises the over-shooting effect common to precessional spin switching by SOT and STT methods. We demonstrate the opportunity for LOTs to produce deterministic, non-toggle switching of single antiferromagnetic domains. Lastly, we show that even with sizeable ultrafast heating by laser in metallic systems, there exist a large interval of laser parameters where the LOT-assisted toggle and preferential switchings in magnetic grains have probabilities close to one. The proposed protocol could be used on its own for all-optical control of antiferromagnets for computing or memory storage, or in combination with other switching methods to lower energy barriers and/or to prevent over-shooting of the Néel vector. [ABSTRACT FROM AUTHOR]

Published

2024

33. Stochastic spin-orbit-torque device as the STDP synapse for spiking neural networks.

Author

Li, Haotian, Li, Liyuan, Zhou, Kaiyuan, Yan, Chunjie, Gao, Zhenyu, Li, Zishuang, and Liu, Ronghua

Abstract

Neuromorphic hardware, as a non-Von Neumann architecture, has better energy efficiency and parallelism than the conventional computer. Here, with the numerical modeling spin-orbit torque (SOT) device using current-induced SOT and Joule heating effects, we acquire its magnetization stochastic switching probability as a function of the interval time of input current pulses and use it to mimic the spike-timing-dependent plasticity learning behavior like actual brain working. We further demonstrate that the artificial spiking neural network (SNN) built by this SOT device can perform unsupervised handwritten digit recognition with an accuracy of 80% and logic operation learning. Our work provides a new clue to achieving SNN-based neuromorphic hardware using high-energy efficiency and nonvolatile spintronics nanodevices. [ABSTRACT FROM AUTHOR]

Published

2023

34. Age- and gender-specific normative data on computerized dynamic posturography in a cohort of Danish adults.

Author

Eriksen, Niklas D. and Hougaard, Dan D.

Subjects

REFERENCE values, EQUILIBRIUM testing, AGE groups, BODY composition, ADULTS

Abstract

Purpose: Balance performance can be measured with a computerized dynamic posturography (CDP). Frequently used CDP protocols include the sensory organization test (SOT), motor control test (MCT) and adaptation test (ADT). The primary aim of this study was to produce normative data using the Bertec® Balance Advantage CDP on a cohort of healthy adults aged 20–79 years for the SOT, MCT and ADT. The secondary aim was to determine age- and gender-related differences. Methods: The study population of 120 participants were divided into age groups of 20–29, 30–39 years, etc., with an equal number of men and women in each group. Using the Bertec® CDP, the SOT, MCT and ADT protocols were performed. Results: SOT found that the 70–79 age group and men scored lower equilibrium scores (ES) on SOT4, and SOT6. Women had higher ES on SOT1. For the MCT, backward translation. latencies were higher for the 60 s and 70 s age groups. The 60 s age group had higher forward translation latencies. Women had lower latencies on all MCTs. For the ADT toes up test, the 70–79 age group scored higher sway energy. On the toes down test, higher sway energy was registered for the 50–79 age groups. Women had lower sway energy for both ADT's. Conclusion: We have produced normative data for healthy adults aged 20–79 years for the SOT, MCT and ADT protocols using the Bertec® Balance Advantage CDP. Balance performance differences might be due to decline in visual acuity, presbyvestibulopathy and differences in body composition. [ABSTRACT FROM AUTHOR]

Published

2023

35. Cytomegalovirus infection and rehospitalization rates after allogeneic hematopoietic stem cell and solid organ transplantation: a retrospective cohort study using German claims data.

Author

Teschner, Daniel, Knop, Jana, Piehl, Christian, Junker, Sophia, and Witzke, Oliver

Subjects

COMORBIDITY, SURGICAL complication risk factors, CYTOMEGALOVIRUS diseases, PATIENT readmissions, PATIENTS, RETROSPECTIVE studies, RISK assessment, DESCRIPTIVE statistics, HEMATOPOIETIC stem cell transplantation, TRANSPLANTATION of organs, tissues, etc., DISEASE risk factors

Abstract

Purpose: This study aimed to describe the cytomegalovirus (CMV) infection rate, rehospitalizations, and comorbidities following allogeneic hematopoietic stem cell transplantation (allo-HSCT) and solid organ transplantation (SOT). Methods: Patients who received allo-HSCT or SOT in 01/07/2015–30/06/2018 were identified using anonymized German claims data. The transplantation-related hospital admission date was defined as the index date, and patients were followed for up to 12 months (or death, first event relevant). The frequency of CMV infections (confirmed outpatient/inpatient diagnoses, ICD-10-GM codes: B25.-/B27.1) and the rate, number, and duration of all-cause rehospitalizations in the follow-up period were evaluated. Results: A total of 226 allo-HSCT and 250 SOT patients were identified (mean age 52.8 years, 38.9% female). During the 12 months after transplantation, 29.2% of allo-HSCT patients and 16.8% of SOT patients received a CMV diagnosis. The majority of these diagnoses were given during the initial hospitalization or within the following 3 months. Across transplantation types, CMV patients had more hospital readmission days per patient-year (allo-HSCT 93.3 vs. 49.4, p = 0.001; SOT 42.0 vs. 20.7, p = 0.005), with a longer mean duration of readmissions (allo-HSCT 22.4 vs. 15.4 days, p < 0.001; SOT 11.6 vs. 7.5 days, p = 0.003). Comorbidity burden in transplantation patients was substantial, with several diagnoses being significantly more common among patients with CMV vs. non-CMV. One-year mortality did not differ significantly between patients with/without CMV. Conclusion: Burden of transplant recipients with CMV in terms of rehospitalizations and comorbidities is substantial, highlighting the need for improved CMV prevention and treatment. [ABSTRACT FROM AUTHOR]

Published

2022

36. Total joint arthroplasty following solid organ transplants: complications and mid-term outcomes.

Author

Wu, Christine J., Brekke, Adam C., Hinton, Zoe W., Kim, Billy I., Ryan, Sean P., Bolognesi, Michael P., and Seyler, Thorsten M.

Subjects

ARTHROPLASTY, TRANSPLANTATION of organs, tissues, etc., KIDNEY transplantation, JOINT infections, LUNG transplantation, TOTAL hip replacement

Abstract

Purpose: Survival after solid organ transplant (SOT) is improving, and demand for total joint arthroplasty (TJA) among SOT recipients is rising. Outcomes including revision, periprosthetic joint infection, and survivorship based on SOT type are variable. We sought to compare peri-operative complications, implant survivorship, and mortality for patients undergoing TJA following SOT. Methods: A retrospective review of the institutional database for primary TJA among SOT recipients from 2000 to 2020 was performed. Revisions, conversion TJA, and patients with multiple organ transplants were excluded. Patients were stratified by transplant organ. Transfusions, 90-day readmissions and emergency department (ED) visits, revisions, and mortality were compared using descriptive statistics and Cox proportional hazard ratios. Results: A total of 119 total hip arthroplasties (THA) and 63 total knee arthroplasties (TKA) in SOT recipients were studied. Most common SOT was renal (39%), then lung (27%), liver (24%), and heart (10%). TKA postoperative transfusion rates varied by organ (p = 0.037; [heart 0%, liver 9.5%, renal 24.0%, lung 50.0%]). Implant survivorship was 95.6% at one year (95% CI 90.3–98.1) and 92.1% at four years (83.9–96.3). Mortality was 2.9% at one year (95% CI 1.1–7.4) and 23.2% at four years (95% CI 16.1–32.3). After adjusting for procedure, duration from transplant to TJA, age, and Elixhauser Index, lung recipients had higher mortality versus heart (RR 4.39 [95% CI 1.64–15.38]; p = 0.002), kidney (7.98 [3.04–24.61]; p < 0.001), and liver (7.98 [3.04–24.61; p < 0.001) patients. Conclusion: TJA after SOT yields acceptable peri-operative outcomes and implant survivorship, but mortality risk is substantial, especially among lung transplant recipients. [ABSTRACT FROM AUTHOR]

Published

2022

37. Evidences to the pulse like origin of double spicules based on Hinode/SOT observations.

Author

Ebadi, H.

Subjects

*SPICULE (Anatomy), *ASTRONOMICAL observations, *TIME series analysis, *DYNAMICAL systems, *SOLAR chromosphere, *PLASMA gases, *SOLAR corona

Abstract

We analyze the time series of H α line obtained from Hinode/SOT on the solar limb. The wavelet analysis shows that there are nice correlations between dynamical properties of the two parts of a double spicule. The dominant periods for height variations are estimated ∼90 and ∼180 s. The length of two parts of the spicule oscillates with the period of around ∼180 s. The mean distance between two parts of the spicule has a periodical treatment with the period of ∼90 s. Our results show that the strong pulses may lead to the quasi periodic rising of chromospheric plasma into the lower corona in the form of spicules. The periodicity may result from the nonlinear wake behind the pulse in the stratified atmosphere. [ABSTRACT FROM AUTHOR]

Published

2013

38. Increasing the Fine Structure Visibility of the Hinode SOT Ca ii H Filtergrams.

Author

Tavabi, E., Koutchmy, S., and Ajabshirizadeh, A.

Subjects

*FINE-structure constant, *CALCIUM ions, *IMAGE processing, *PATTERN recognition systems, *PIXELS, *ANISOTROPY, *NUMERICAL calculations

Abstract

We present an image processing technique, the improved OMC filter (also called Madmax), which selects maxima of convexities of intensity modulations of an image. The filter computes second derivatives of the image in multiple directions around each pixel. It is shown to be efficient for pattern recognition, and bright hair-like or small anisotropic features can be enhanced. The filter is tested on artificially generated images, and the effect of a different number of directions in which the second derivatives are calculated is evaluated. Ca ii H line images of spicules and prominences obtained with Hinode/SOT are also used to illustrate its efficiency on real data. It is shown how to make the choice of the sensitive parameters to be used in improving the image visibility. [ABSTRACT FROM AUTHOR]

Published

2013

39. Acoustic Events in the Solar Atmosphere from Hinode/SOT NFI Observations.

Author

Malherbe, J.-M., Roudier, T., Rieutord, M., Berger, T., and Franck, Z.

Subjects

*SOLAR atmosphere, *SOUND waves, *TELESCOPES, *SOLAR granulation, *HILBERT transform, *OPTICAL resolution, *PHOTON correlation, *SOLAR surface, *SUN

Abstract

We investigate the properties of acoustic events (AEs), defined as spatially concentrated and short duration energy flux, in the quiet Sun, using observations of a 2D field of view (FOV) with high spatial and temporal resolution provided by the Solar Optical Telescope (SOT) onboard Hinode. Line profiles of Fe i 557.6 nm were recorded by the Narrow-band Filter Imager (NFI) on a 82″×82″ FOV during 75 min with a time step of 28.75 s and 0.08″ pixel size. Vertical velocities were computed at three atmospheric levels (80, 130, and 180 km) using the bisector technique, allowing the determination of energy flux to be made in the range 3 - 10 mHz using two complementary methods (Hilbert transform and Fourier power spectrum). Horizontal velocities were computed using local correlation tracking (LCT) of continuum intensities providing divergences. We found that the net energy flux is upward. In the range 3 - 10 mHz, a full FOV space and time averaged flux of 2700 W m (lower layer 80 - 130 km) and 2000 W m (upper layer 130 - 180 km) is concentrated in less than 1 % of the solar surface in the form of narrow (0.3″) AE. Their total duration (including rise and decay) is of the order of 10 s. Inside each AE, the mean flux is 1.6×10 W m (lower layer) and 1.2×10 W m (upper). Each event carries an average energy (flux integrated over space and time) of 2.5×10 J (lower layer) to 1.9×10 J (upper). More than 10 events could exist permanently on the Sun, with a birth and decay rate of 3500 s. Most events occur in intergranular lanes, downward velocity regions, and areas of converging motions. [ABSTRACT FROM AUTHOR]

Published

2012

40. Small-Scale Flux Emergence Observed Using Hinode/SOT.

Author

Thornton, L. and Parnell, C.

Subjects

*ASTRONOMICAL observations, *SOLAR magnetic fields, *DATA analysis, *SUNSPOTS, *SOLAR cycle, *SOLAR active regions, *SUN

Abstract

The aim of this paper is to determine the flux emergence rate due to small-scale magnetic features in the quiet Sun using high-resolution Hinode SOT NFI data. Small-scale magnetic features are identified in the data using two different feature identification methods (clumping and downhill); then three methods are applied to detect flux emergence events. The distribution of the intranetwork peak emerged fluxes is determined. When combined with previous emergence results, from ephemeral regions to sunspots, the distribution of all fluxes are found to follow a power-law distribution which spans nearly seven orders of magnitude in flux (10 - 10 Mx) and 18 orders of magnitude in frequency. The power-law fit to all these data is of the form where Ψ=10 Mx and is used to predict a global flux emergence rate of ≈ 450 Mx cm day from all features with fluxes of 10 Mx or more. Since the slope of all emerged fluxes is less than −2, this implies that most of the new flux that is fed into the solar atmosphere is from small-scale emerging events. This suggests that the rate of flux emergence is independent of the solar cycle and is equivalent to a global rate of flux emergence of more than a few times 10 Mx day. The single power-law distribution over all emerged fluxes implies a scale-free dynamo, therefore indicating that a turbulent dynamo may act throughout the convection zone. Moreover, from the slope of the emerging flux distribution the (turbulent?) dynamo producing small-scale features produces considerably more flux than the active-region dynamo at the tachocline. [ABSTRACT FROM AUTHOR]

Published

2011

41. Space – Time Distribution of G-band and Ca ii H-line Intensity Oscillations in Hinode/SOT – FG Observations.

Author

Lawrence, J. K. and Cadavid, A. C.

Subjects

*SUN, *OSCILLATIONS, *FLUCTUATIONS (Physics), *SOLAR magnetic fields, *MAGNETIC fields

Abstract

We study the space – time distributions of intensity fluctuations in 2 – 3 hour sequences of multi-spectral, high-resolution, high-cadence, broad-band filtergram images of the Sun made by the SOT – FG system aboard the Hinode spacecraft. In the frequency range 5.5< f<8.0 mHz both G-band and Ca ii H-line oscillations are suppressed in the presence of magnetic fields, but the suppression disappears for f>10 mHz. By looking at G-band frequencies above 10 mHz we find that the oscillatory power, both at these frequencies and at lower frequencies, lies in a mesh pattern with cell scale 2 – 3 Mm, clearly larger than normal granulation, and with correlation times on the order of hours. The mesh pattern lies in the dark lanes between stable cells found in time-integrated G-band intensity images. It also underlies part of the bright pattern in time-integrated H-line emission. This discovery may reflect dynamical constraints on the sizes of rising granular convection cells together with the turbulence created in strong intercellular downflows. [ABSTRACT FROM AUTHOR]

Published

2010

42. Reconfigurable spintronic logic gate utilizing precessional magnetization switching.

Author

Liu, Ting, Li, Xiaoguang, An, Hongyu, Chen, Shi, Zhao, Yuelei, Yang, Sheng, Xu, Xiaohong, Zhou, Cangtao, Zhang, Hua, and Zhou, Yan

Subjects

LOGIC circuits, MAGNETIC tunnelling, MAGNETIZATION, BOOLEAN functions, DATA transmission systems, RANDOM access memory

Abstract

In traditional von Neumann computing architecture, the efficiency of the system is often hindered by the data transmission bottleneck between the processor and memory. A prevalent approach to mitigate this limitation is the use of non-volatile memory for in-memory computing, with spin–orbit torque (SOT) magnetic random-access memory (MRAM) being a leading area of research. In this study, we numerically demonstrate that a precise combination of damping-like and field-like spin–orbit torques can facilitate precessional magnetization switching. This mechanism enables the binary memristivity of magnetic tunnel junctions (MTJs) through the modulation of the amplitude and width of input current pulses. Building on this foundation, we have developed a scheme for a reconfigurable spintronic logic gate capable of directly implementing Boolean functions such as AND, OR, and XOR. This work is anticipated to leverage the sub-nanosecond dynamics of SOT-MRAM cells, potentially catalyzing further experimental developments in spintronic devices for in-memory computing. [ABSTRACT FROM AUTHOR]

Published

2024

43. Influenza Vaccination in Solid Organ Transplant Recipients: Methods to Improve Immunogenicity and Future Directions.

Author

Peak, Erica, MD, and Thomas, Lora

Published

2024

44. Field-free spin-orbit torque switching assisted by in-plane unconventional spin torque in ultrathin [Pt/Co]N.

Author

Xue, Fen, Lin, Shy-Jay, Song, Mingyuan, Hwang, William, Klewe, Christoph, Lee, Chien-Min, Turgut, Emrah, Shafer, Padraic, Vailionis, Arturas, Huang, Yen-Lin, Tsai, Wilman, Bao, Xinyu, and Wang, Shan X.

Subjects

SPIN-orbit interactions, VOLTAGE control, MAGNETIC circular dichroism, TORQUE, SPIN polarization, MAGNETIC moments

Abstract

Electrical manipulation of magnetization without an external magnetic field is critical for the development of advanced non-volatile magnetic-memory technology that can achieve high memory density and low energy consumption. Several recent studies have revealed efficient out-of-plane spin-orbit torques (SOTs) in a variety of materials for field-free type-z SOT switching. Here, we report on the corresponding type-x configuration, showing significant in-plane unconventional spin polarizations from sputtered ultrathin [Pt/Co]N, which are either highly textured on single crystalline MgO substrates or randomly textured on SiO2 coated Si substrates. The unconventional spin currents generated in the low-dimensional Co films result from the strong orbital magnetic moment, which has been observed by X-ray magnetic circular dichroism (XMCD) measurement. The x-polarized spin torque efficiency reaches up to −0.083 and favors complete field-free switching of CoFeB magnetized along the in-plane charge current direction. Micromagnetic simulations additionally demonstrate its lower switching current than type-y switching, especially in narrow current pulses. Our work provides additional pathways for electrical manipulation of spintronic devices in the pursuit of high-speed, high-density, and low-energy non-volatile memory. Spin-orbit torques, arising in systems with strong spin-orbit interactions, have been a major avenue of research for the potential electric control of magnetization. Recently, unconventional spin-orbit torques, with spin polarizations aligned in atypical ways have garnered interest due to the numerous advantages offered compared to their conventional counterparts. Here, Xue et al investigate 'type-x' spin-orbit torque switching, demonstrating both unique spin polarizations, and field-free magnetization switching in Platinum/Cobalt multilayers. [ABSTRACT FROM AUTHOR]

Published

2023

45. Pancreatic cancer among solid organ transplant recipients in the United States.

Author

Tanaka, Tomohiro, Lynch, Charles F., Yu, Kelly J., Morawski, Bozena M., Hsieh, Mei-Chin, Alverson, Georgetta, Austin, April A., Zeng, Yun, and Engels, Eric A.

Subjects

TRANSPLANTATION of organs, tissues, etc., PANCREATIC cancer, LIVER transplantation, BLOOD groups, POISSON regression

Abstract

Introduction: Pancreatic cancer (PC) in solid organ transplant (SOT) recipients is not well studied. Some PC cases may be incidentally detected during hepatobiliary imaging. Methods: We evaluated PC among 374,106 SOT recipients during 1995–2017 in the United States using linked data from the national transplant registry and multiple state/regional cancer registries. Standardized incidence ratios (SIRs) were used to compare PC risk in recipients to the general population. We used multivariate Poisson regression to identify independent risk factors for PC. We assessed survival after PC diagnosis using Kaplan–Meier curves and log-rank tests. Results: SOT recipients had elevated incidence for PC compared with the general population (SIR 1.40, 95% CI 1.29–1.52), and this increase was strongest in liver recipients (1.65, 1.41–1.92). Among all recipients, PC incidence was especially increased for cases arising in the head of the pancreas (SIR 1.50, 95% CI 1.34–1.68) and for cases diagnosed at localized stage (1.85, 1.37–2.44). Among SOT recipients, factors independently associated with increased incidence were consistent with those in general population including male sex, older age, non-O blood type, and history of diabetes. Additionally, compared to other organ recipients, liver transplant recipients had higher PC incidence (adjusted incidence rate ratio 1.28; 95% CI 1.06–1.54). Overall survival after PC diagnosis was poor (median 4 months) and similar between liver and other organ transplant recipients (p = 0.08). Conclusions: PC incidence is elevated among SOT recipients, and more commonly diagnosed in liver transplant recipients perhaps related to incidental detection. However, survival is poor even in liver recipients, arguing against routine PC screening. [ABSTRACT FROM AUTHOR]

Published

2023

46. Genome-wide analysis and environmental response profiling of SOT family genes in rice ( Oryza sativa).

Author

Chen, Rongjun, Jiang, Yunyun, Dong, Jiali, Zhang, Xin, Xiao, Hongbo, Xu, Zhengjun, and Gao, Xiaoling

Abstract

Sulphotransferase (SOT) catalyses the transfer of a sulphonate group from 3′-phosphoadenosine 5′-phosphosulphate (PAPS) to an appropriate hydroxyl group of various substrates with the parallel formation of 3′-phosphoadenosine 5′-phosphate (PAP). Although several SOTs have been identified and characterized in mammalian, their role in plant is still unclear. In this study, we report genome-wide comprehensive expression analysis of 35 putative SOT genes in rice. The 35 OsSOTs were tandemly arranged into six clusters. The phylogenetic analysis showed that there were 7 subfamilies of OsSOTs and 11 putatively conserved motifs. Six OsSOTs might be pseudogenes, 25 have the two motifs which were involved in PAPS binding regions I and IV. Microarray data indicated that all the OsSOTs were expressed almost at the same level but with different patterns: most OsSOTs were expressed exclusively in stigma and ovary and induced by IAA and BAP, several genes were induced by tZ and DMSO and 11 OsSOTs were response to abiotic stress. Further analysis showed that these 11 genes contained cis-regulatory elements responding to abiotic stresses. [ABSTRACT FROM AUTHOR]

Published

2012

47. Electric-field control of field-free spin-orbit torque switching via laterally modulated Rashba effect in Pt/Co/AlOx structures.

Author

Kang, Min-Gu, Choi, Jong-Guk, Jeong, Jimin, Park, Jae Yeol, Park, Hyeon-Jong, Kim, Taehwan, Lee, Taekhyeon, Kim, Kab-Jin, Kim, Kyoung-Whan, Oh, Jung Hyun, Viet, Duc Duong, Jeong, Jong-Ryul, Yuk, Jong Min, Park, Jongsun, Lee, Kyung-Jin, and Park, Byong-Guk

Subjects

RASHBA effect, SPINTRONICS, SPIN Hall effect, TORQUE control, SPIN-orbit interactions, SEMICONDUCTOR junctions, MAGNETIC anisotropy

Abstract

Spin-orbit coupling effect in structures with broken inversion symmetry, known as the Rashba effect, facilitates spin-orbit torques (SOTs) in heavy metal/ferromagnet/oxide structures, along with the spin Hall effect. Electric-field control of the Rashba effect is established for semiconductor interfaces, but it is challenging in structures involving metals owing to the screening effect. Here, we report that the Rashba effect in Pt/Co/AlOx structures is laterally modulated by electric voltages, generating out-of-plane SOTs. This enables field-free switching of the perpendicular magnetization and electrical control of the switching polarity. Changing the gate oxide reverses the sign of out-of-plane SOT while maintaining the same sign of voltage-controlled magnetic anisotropy, which confirms the Rashba effect at the Co/oxide interface is a key ingredient of the electric-field modulation. The electrical control of SOT switching polarity in a reversible and non-volatile manner can be utilized for programmable logic operations in spintronic logic-in-memory devices. A major challenge for spin based electronics is the electrical control of magnetization. Here, Kang et al demonstrate how electric field control of the Rashba effect in a Pt/Co/AlOx can enable control of the spin-orbit torque and allow for field free switching of the magnetization. [ABSTRACT FROM AUTHOR]

Published

2021

48. Respiratory support strategy in adults with acute hypoxemic respiratory failure: a systematic review and network meta-analysis.

Author

Okano, Hiromu, Sakuraya, Masaaki, Masuyama, Tomoyuki, Kimata, Shunsuke, and Hokari, Satoshi

Subjects

NONINVASIVE ventilation, ARTIFICIAL respiration, ADULTS

Abstract

Introduction: Network meta-analyses (NMAs) of respiratory management strategies for acute hypoxemic respiratory failure (AHRF) have been reported, but no previous study has compared noninvasive ventilation (NIV), high-flow nasal oxygen (HFNO), standard oxygenation therapy (SOT), and invasive mechanical ventilation (IMV) for de novo AHRF. Therefore, we conducted an NMA to assess the effectiveness of these four respiratory strategies in patients with de novo AHRF. Methods: The Cochrane Central Register of Controlled Trials, MEDLINE, EMBASE, and Ichushi databases were searched. Studies including adults aged ≥18 years with AHRF and RCTs that compared two different oxygenation techniques (SOT, NIV, HFNO, or IMV) were selected. A frequentist-based approach with multivariate random-effects meta-analysis was used. The outcomes were mortality and intubation rates. Results: Among the 14,263 records initially identified, 25 studies (3302 patients) were included. In the analysis of mortality, compared to SOT, NIV (risk ratio [RR], 0.76; 95% confidence interval [CI], 0.61–0.95) reduced mortality; however, IMV (RR, 1.01; 95% CI, 0.57–1.78) and HFNO (RR, 0.89; 95% CI, 0.66–1.20) did not. For assessments of the intubation incidence, compared to SOT, NIV use (RR, 0.63; 95% CI, 0.51–0.79) was associated with a reduction in intubation, but HFNO (RR, 0.82; 95% CI, 0.61–1.11) was not significant. Conclusions: Our NMA demonstrated that only NIV showed clinical benefits compared with SOT as an initial respiratory strategy for de novo AHRF. Further investigation, especially comparison with HFNO, is warranted. Trial registration: PROSPERO (registration number: CRD42020213948, 11/11/2020). [ABSTRACT FROM AUTHOR]

Published

2022

49. SOT instrumentation.

Author

Dunn, Richard

Abstract

NASA has conducted numerous studies to define the concepts of a workable Solar Optical Telescope (SOT). We describe SOT as it is envisioned by the U.S. solar community. The final configuration is not entirely defined, as it is being proposed on the basis of performance specifications and the instrument configurations for the first flight are just now being evaluated. [ABSTRACT FROM AUTHOR]

Published

1981

50. The Solar Optical Telescope (SOT).

Author

Jordan, Stuart

Abstract

The Solar Optical Telescope (SOT), which NASA plans to operate on Spacelab, should provide resolution down to 0.1 arc sec, thus offering the capability for solving a number of fundamental problems in solar magnetism and in atmospheric heating and dynamics. [ABSTRACT FROM AUTHOR]

Published

1981