Magnon momentum microscopy: A new window into nanoscale spin-wave physics

An international team led by the Max Born Institute has developed a new type of momentum microscopy to image magnons—the ...
Phys.org

Supercooled phase transitions: Could they explain gravitational wave signals?

A new study published in Physical Review Letters explores the possibility that a strongly supercooled, first-order phase transition in the early universe could explain gravitational wave signals ...
Space.com

Gravitational waves hint at a 'supercool' secret about the Big Bang

In 2023, physicists were awed to find nearly imperceptible ripples in the fabric of space and time — united as an entity known as spacetime. They were ripples discovered in association with ...
New Scientist

Glitching radio waves from dead stars explained by swirling superfluid

The radio waves we see from pulsars have a mysterious glitch – but now we know the ingredients that must be present in the heart of these ultra-dense stellar corpses to give their emissions a hiccup.
Phys.org

From ship wakes to soft tissues: Exploring fluid and solid surface-wave physics

A new study by scientists in the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) shows that when a pressure disturbance moves across an ultrasoft elastic material, such as a ...
Space.com

Astronomers finally explain the strange physics of ghostly 'radio relics' in space

New multiscale simulations help crack long-standing mysteries behind the enormous radio arcs generated when galaxy clusters collide. When you purchase through links on our site, we may earn an ...