Experimental tests of the full spin torque conductivity tensor in epitaxial IrO2 thin films

Posted by dbos Cornell

Kavli Affiliate: Daniel C. Ralph | First 5 Authors: Michael Patton, Daniel A. Pharis, Gautam Gurung, Xiaoxi Huang, Gahee Noh | Summary: Unconventional spin-orbit torques arising from electric-field-generated spin currents in anisotropic materials have promising potential for spintronic applications, including for perpendicular magnetic switching in high-density memory applications. Here we determine all the independent elements […]


Continue.. Experimental tests of the full spin torque conductivity tensor in epitaxial IrO2 thin films

Insights, opportunities and challenges provided by large cell atlases

Posted by dbos Cornell

Kavli Affiliate: Iwijn De Vlaminck | First 5 Authors: Martin Hemberg, Federico Marini, Shila Ghazanfar, Ahmad Al Ajami, Najla Abassi | Summary: The field of single-cell biology is growing rapidly and is generating large amounts of data from a variety of species, disease conditions, tissues, and organs. Coordinated efforts such as CZI CELLxGENE, HuBMAP, Broad […]


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Doping Dependence of Spin-Momentum Locking in Bismuth-Based High-Temperature Cuprate Superconductors

Posted by dbos Berkeley

Kavli Affiliate: Alessandra Lanzara | First 5 Authors: Hailan Luo, Kayla Currier, Chiu-Yun Lin, Kenneth Gotlieb, Ryo Mori | Summary: Non-zero spin orbit coupling has been reported in several unconventional superconductors due to the absence of inversion symmetry breaking. This contrasts with cuprate superconductors, where such interaction has been neglected for a long time. The […]


Continue.. Doping Dependence of Spin-Momentum Locking in Bismuth-Based High-Temperature Cuprate Superconductors

Respiratory Subtraction for Pulmonary Microwave Ablation Evaluation

Posted by dbos Berkeley

Kavli Affiliate: Feng Wang | First 5 Authors: Wan Li, Xinyun Zhong, Wei Li, Song Zhang, Moheng Rong | Summary: Currently, lung cancer is a leading cause of global cancer mortality, often necessitating minimally invasive interventions. Microwave ablation (MWA) is extensively utilized for both primary and secondary lung tumors. Although numerous clinical guidelines and standards […]


Continue.. Respiratory Subtraction for Pulmonary Microwave Ablation Evaluation

Respiratory Subtraction for Pulmonary Microwave Ablation Evaluation

Posted by dbos Berkeley

Kavli Affiliate: Feng Wang | First 5 Authors: Wan Li, Xinyun Zhong, Wei Li, Song Zhang, Moheng Rong | Summary: Currently, lung cancer is a leading cause of global cancer mortality, often necessitating minimally invasive interventions. Microwave ablation (MWA) is extensively utilized for both primary and secondary lung tumors. Although numerous clinical guidelines and standards […]


Continue.. Respiratory Subtraction for Pulmonary Microwave Ablation Evaluation

Electronic structure and optical properties of halide double perovskites from a Wannier-localized optimally-tuned screened range-separated hybrid functional

Posted by dbos Berkeley

Kavli Affiliate: Jeffrey B. Neaton | First 5 Authors: Francisca Sagredo, Stephen E. Gant, Guy Ohad, Jonah B. Haber, Marina R. Filip | Summary: Halide double perovskites are a chemically-diverse and growing class of compound semiconductors that are promising for optoelectronic applications. However, the prediction of their fundamental gaps and optical properties with density functional […]


Continue.. Electronic structure and optical properties of halide double perovskites from a Wannier-localized optimally-tuned screened range-separated hybrid functional

Mutual information fluctuations and non-stabilizerness in random circuits

Posted by dbos Delft

Kavli Affiliate: Eliska Greplova | First 5 Authors: Arash Ahmadi, Jonas Helsen, Cagan Karaca, Eliska Greplova, | Summary: The emergence of quantum technologies has brought much attention to the characterization of quantum resources as well as the classical simulatability of quantum processes. Quantum resources, as quantified by non-stabilizerness, have in one theoretical approach been linked […]


Continue.. Mutual information fluctuations and non-stabilizerness in random circuits

Mutual information fluctuations and non-stabilizerness in random circuits

Posted by dbos Delft

Kavli Affiliate: Eliska Greplova | First 5 Authors: Arash Ahmadi, Jonas Helsen, Cagan Karaca, Eliska Greplova, | Summary: The emergence of quantum technologies has brought much attention to the characterization of quantum resources as well as the classical simulatability of quantum processes. Quantum resources, as quantified by non-stabilizerness, have in one theoretical approach been linked […]


Continue.. Mutual information fluctuations and non-stabilizerness in random circuits

Microwave-optics entanglement via coupled opto- and magnomechanical microspheres

Posted by dbos Delft

Kavli Affiliate: Simon Groblacher | First 5 Authors: Hao-Tian Li, Zhi-Yuan Fan, Huai-Bing Zhu, Simon Gröblacher, Jie Li | Summary: Microwave-optics entanglement plays a crucial role in building hybrid quantum networks with quantum nodes working in the microwave and optical frequency bands. However, there are limited efficient ways to produce such entanglement due to the […]


Continue.. Microwave-optics entanglement via coupled opto- and magnomechanical microspheres

Microwave-optics entanglement via coupled opto- and magnomechanical microspheres

Posted by dbos Delft

Kavli Affiliate: Simon Groblacher | First 5 Authors: Hao-Tian Li, Zhi-Yuan Fan, Huai-Bing Zhu, Simon Gröblacher, Jie Li | Summary: Microwave-optics entanglement plays a crucial role in building hybrid quantum networks with quantum nodes working in the microwave and optical frequency bands. However, there are limited efficient ways to produce such entanglement due to the […]


Continue.. Microwave-optics entanglement via coupled opto- and magnomechanical microspheres