Barnard's Star is a small, dim star of the type that astronomers call red dwarfs. Consequently, even though it is one of the ...

We have this same problem with electric and magnetic fields. Depending on your reference ... Under the sea ice during the Arctic’s pitch-black polar night, cells power photosynthesis on the ...

After about 28 days on board the icebreaker Kapitan Dranitsyn, our Leg 3 team has arrived to the the Research Vessel Polarstern! We are currently at 88.3 degrees N and 31.3 degrees E, less than 120 ...

Uranus and Neptune, distant blue worlds 1.7 billion miles from Earth, harbor magnetic fields that behave nothing like those of their planetary siblings. While Earth’s magnetic field resembles a bar ...

By leveraging channel sparsity in the polar domain, the proposed method efficiently estimates near-field channels while incorporating both angular and distance information. Simulation results ...

We present a reconstruction of radiation belt electron fluxes using data assimilation with low-Earth-orbiting Polar Orbiting Environmental Satellites ... (2023) which incorporates the radial, angular ...

Experience governs neurogenesis from radial-glial neural stem cells (RGLs ... At each time point, we acquired a three-dimensional image stack of each field of view containing tdTomato-expressing cells ...

Subdistal appendages (sDAPs) are centriolar elements that are observed proximal to the distal appendages (DAPs) in vertebrates. Despite the obvious presence of sDAPs, structural and functional ...

The fluid flow is treated with strong magnetic field. The influence of magnetic field, Hall current, and couple stress are mainly focused in this work. The fluid flow problem is solved analytically.

If you need help visualizing magnetic fields, these slow-motion video captures should educate or captivate you. Flux lines are difficult to describe in words, because magnet shape and strength ...