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1. Anisotropic thermoelectric effect and field-effect devices in epitaxial bismuthene on Si (111)

   https://doi.org/10.1088/1361-6528/abaf1f  

   Zhong, Wen; Zhao, Yu; Zhu, Beibei; Sha, Jingjie; Walker, Emily S; Bank, Seth; Chen, Yunfei; Akinwande, Deji; Tao, Li (November 2020, Nanotechnology)
2. Coexistence of unconventional spin Hall effect and antisymmetric planar Hall effect in IrO2

   https://doi.org/10.1063/5.0240538  

   Yang, Yifei; Nair, Sreejith; Fan, Yihong; Chen, Yu-Chia; Jia, Qi; Benally, Onri Jay; Lee, Seungjun; Jeong, Seung Gyo; Yang, Zhifei; Low, Tony; et al (March 2025, Applied Physics Letters)

   Crystal symmetry plays an important role in the Hall effects. Unconventional spin Hall effect (USHE), characterized by Dresselhaus and out-of-plane spins, has been observed in materials with low crystal symmetry. Recently, antisymmetric planar Hall effect (APHE) was discovered in rutile RuO2 and IrO2 (101) thin films, which also exhibit low crystal symmetry. In this study, we report the observation of both USHE and APHE in IrO2 (111) films, using spin-torque ferromagnetic resonance and harmonic Hall measurements, respectively. Notably, the unconventional spin-torque efficiency from Dresselhaus spin was more than double that of a previous report. Additionally, the temperature dependence of APHE suggests that it arises from the Lorentz force, constrained by crystal symmetry. Symmetry analysis supports the coexistence of USHE and APHE and demonstrates that both originate from the crystal symmetry of IrO2 (111), paving the way for a deeper understanding of Hall effects and related physical phenomena. 

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3. Shower curtain effect and source imaging

   https://doi.org/10.3934/ipi.2024004  

   Garnier, Josselin; Sølna, Knut (January 2024, Inverse Problems and Imaging)

   The shower curtain effect is commonly described as being able to see a person behind a shower curtain better than that person can see us. This asymmetric phenomenon has been observed in numerical simulations in various propagation models and in optics experiments. Here we present an analysis in the paraxial regime to give a novel characterization of the mechanism behind this effect and we discuss applications to imaging. The paraxial regime is for instance appropriate to model the propagation of a laser beam in a turbulent atmosphere. The theory that we present has also applications to tissue imaging. We consider two different measurement and imaging setups (matched field imaging and optical imaging) to clarify the shower curtain mechanism. We give a quantitative description of how the placement of the shower curtain, modeled as a randomly heterogeneous section, affects the optical imaging resolution. We moreover analyze the signal-to-noise ratio of the image. The analysis involves the study of multifrequency fourth-order moments associated with the Itˆo-Schr¨odinger equation and reveals that broadband sources are necessary to ensure statistical stability and high signal-to-noise ratio. 

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4. Treatment Effect Risk: Bounds and Inference

   https://doi.org/10.1287/mnsc.2023.4819  

   Kallus, Nathan (August 2023, Management Science)

   Because the average treatment effect (ATE) measures the change in social welfare, even if positive, there is a risk of negative effect on, say, some 10% of the population. Assessing such risk is difficult, however, because any one individual treatment effect (ITE) is never observed, so the 10% worst-affected cannot be identified, whereas distributional treatment effects only compare the first deciles within each treatment group, which does not correspond to any 10% subpopulation. In this paper, we consider how to nonetheless assess this important risk measure, formalized as the conditional value at risk (CVaR) of the ITE distribution. We leverage the availability of pretreatment covariates and characterize the tightest possible upper and lower bounds on ITE-CVaR given by the covariate-conditional average treatment effect (CATE) function. We then proceed to study how to estimate these bounds efficiently from data and construct confidence intervals. This is challenging even in randomized experiments as it requires understanding the distribution of the unknown CATE function, which can be very complex if we use rich covariates to best control for heterogeneity. We develop a debiasing method that overcomes this and prove it enjoys favorable statistical properties even when CATE and other nuisances are estimated by black box machine learning or even inconsistently. Studying a hypothetical change to French job search counseling services, our bounds and inference demonstrate a small social benefit entails a negative impact on a substantial subpopulation. This paper was accepted by J. George Shanthikumar, data science. Funding: This work was supported by the Division of Information and Intelligent Systems [Grant 1939704]. Supplemental Material: The data files and online appendices are available at https://doi.org/10.1287/mnsc.2023.4819 . 

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5. Treatment Effect Risk: Bounds and Inference

   Kallus, Nathan (January 2022, ACM Conference on Fairness, Accountability, and Transparency)