SAR-NeRF: Neural Radiance Fields for Synthetic Aperture Radar Multi-View Representation

Kavli Affiliate: Feng Wang | First 5 Authors: Zhengxin Lei, Feng Xu, Jiangtao Wei, Feng Cai, Feng Wang | Summary: SAR images are highly sensitive to observation configurations, and they exhibit significant variations across different viewing angles, making it challenging to represent and learn their anisotropic features. As a result, deep learning methods often generalize […]


Continue.. SAR-NeRF: Neural Radiance Fields for Synthetic Aperture Radar Multi-View Representation

SAR-NeRF: Neural Radiance Fields for Synthetic Aperture Radar Multi-View Representation

Kavli Affiliate: Feng Wang | First 5 Authors: Zhengxin Lei, Feng Xu, Jiangtao Wei, Feng Cai, Feng Wang | Summary: SAR images are highly sensitive to observation configurations, and they exhibit significant variations across different viewing angles, making it challenging to represent and learn their anisotropic features. As a result, deep learning methods often generalize […]


Continue.. SAR-NeRF: Neural Radiance Fields for Synthetic Aperture Radar Multi-View Representation

Neural mechanisms to incorporate visual counterevidence in self motion estimation

Kavli Affiliate: Damon Clark | Authors: Ryosuke Tanaka, Baohua Zhou, Margarida Agrochao, Bara A. Badwan, Braedyn Au, Natalia C. B. Matos and Damon A. Clark | Summary: In selecting appropriate behaviors, animals should weigh sensory evidence both for and against specific beliefs about the world. For instance, animals measure optic flow to estimate and control […]


Continue.. Neural mechanisms to incorporate visual counterevidence in self motion estimation

Double-Fourier engineering of Josephson energy-phase relationships applied to diodes

Kavli Affiliate: Anton R. Akhmerov | First 5 Authors: A. Mert Bozkurt, Jasper Brookman, Valla Fatemi, Anton R. Akhmerov, | Summary: We present a systematic method to design arbitrary energy-phase relations using parallel arms of two series Josephson tunnel junctions each. Our approach employs Fourier engineering in the energy-phase relation of each arm and the […]


Continue.. Double-Fourier engineering of Josephson energy-phase relationships applied to diodes

Double-Fourier engineering of Josephson energy-phase relationships applied to diodes

Kavli Affiliate: Anton R. Akhmerov | First 5 Authors: A. Mert Bozkurt, Jasper Brookman, Valla Fatemi, Anton R. Akhmerov, | Summary: We present a systematic method to design arbitrary energy-phase relations using parallel arms of two series Josephson tunnel junctions each. Our approach employs Fourier engineering in the energy-phase relation of each arm and the […]


Continue.. Double-Fourier engineering of Josephson energy-phase relationships applied to diodes

The Dragon-II simulations — III. Compact binary mergers in clusters with up to 1 million stars: mass, spin, eccentricity, merger rate and pair instability supernovae rate

Kavli Affiliate: Rainer Spurzem | First 5 Authors: Manuel Arca Sedda, Albrecht W. H. Kamlah, Rainer Spurzem, Francesco Paolo Rizzuto, Mirek Giersz | Summary: Compact binary mergers forming in star clusters may exhibit distinctive features that can be used to identify them among observed gravitational-wave (GW) sources. Such features likely depend on the host cluster […]


Continue.. The Dragon-II simulations — III. Compact binary mergers in clusters with up to 1 million stars: mass, spin, eccentricity, merger rate and pair instability supernovae rate

The Dragon-II simulations — II. Formation mechanisms, mass, and spin of intermediate-mass black holes in star clusters with up to 1 million stars

Kavli Affiliate: Rainer Spurzem | First 5 Authors: Manuel Arca Sedda, Albrecht W. H. Kamlah, Rainer Spurzem, Francesco Paolo Rizzuto, Mirek Giersz | Summary: The processes that govern the formation of intermediate-mass black holes (IMBHs) in dense stellar clusters are still unclear. Here, we discuss the role of stellar mergers, star-BH interactions and accretion, as […]


Continue.. The Dragon-II simulations — II. Formation mechanisms, mass, and spin of intermediate-mass black holes in star clusters with up to 1 million stars

Endotaxial Stabilization of 2D Charge Density Waves with Long-range Order

Kavli Affiliate: Lena F. Kourkoutis | First 5 Authors: , , , , | Summary: Charge density waves are emergent quantum states that spontaneously reduce crystal symmetry, drive metal-insulator transitions, and precede superconductivity. In low-dimensions, distinct quantum states arise, however, thermal fluctuations and external disorder destroy long-range order. Here we stabilize ordered two-dimensional (2D) charge […]


Continue.. Endotaxial Stabilization of 2D Charge Density Waves with Long-range Order

Endotaxial Stabilization of 2D Charge Density Waves with Long-range Order

Kavli Affiliate: Lena F. Kourkoutis | First 5 Authors: Suk Hyun Sung, Nishkarsh Agarwal, Ismail El Baggari, Yin Min Goh, Patrick Kezer | Summary: Charge density waves are emergent quantum states that spontaneously reduce crystal symmetry, drive metal-insulator transitions, and precede superconductivity. In low-dimensions, distinct quantum states arise, however, thermal fluctuations and external disorder destroy […]


Continue.. Endotaxial Stabilization of 2D Charge Density Waves with Long-range Order

On the Bipartite Entanglement Capacity of Quantum Networks

Kavli Affiliate: Stephanie Wehner | First 5 Authors: Gayane Vardoyan, Emily van Milligen, Saikat Guha, Stephanie Wehner, Don Towsley | Summary: We consider the problem of multi-path entanglement distribution to a pair of nodes in a quantum network consisting of devices with non-deterministic entanglement swapping capabilities. Multi-path entanglement distribution enables a network to establish end-to-end […]


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