Sunday, November 6, 2022

Creation Moment 11/7/2022 - Ice Stars? Mindboggling Physics of CREATOR

And God made two great lights; the greater light to rule the day, and the lesser light to rule the night: he made the stars also. Genesis 1:16

"Magnetars are neutron stars with magnetic fields that are about a
quadrillion times greater than the magnetic field of Earth.
These huge magnetic fields are thought to be produced when an rapidly rotating neutron star is formed by the collapse of the core of a massive star.
Magnetars emit bright X-rays and show erratic periods of activity, with the emission of bursts and flares which can release in just one second an amount of energy millions of times greater than our Sun emits in one year.
 
Using the IXPE observatory, University of Padova astrophysicist Roberto Taverna detected polarized X-rays from 4U 0142+61, a magnetar located some 13,000 light-years away in the constellation of Cassiopeia.
They found a much lower proportion of polarized light than would be expected if the X-rays passed through an atmosphere.
They also found that, for particles of light at higher energies, the angle of polarization flipped by exactly 90 degrees compared to light at lower energies, following what theoretical models would predict if the star had a solid crust surrounded by an external magnetosphere filled with electric currents.
This was completely unexpected. I was convinced there would be an atmosphere,” said University College London’s Professor Silvia Zane.
 
The star’s gas has reached a tipping point and become solid in a similar way that water might turn to ice. This is a result of the star’s incredibly strong magnetic field.
But, like with water, temperature is also a factor — a hotter gas will require a stronger magnetic field to become solid.”
The most exciting feature we could observe is the change in polarization direction with energy, with the polarization angle swinging by exactly 90 degrees,” Dr. Taverna said.
 
The polarization at low energies is telling us that the magnetic field is likely so strong to turn the atmosphere around the star into a solid or a liquid, a phenomenon known as magnetic condensation,” said University of Padova’s Professor Roberto Turolla.
The solid crust of the star is thought to be composed of a lattice of ions, held together by the magnetic field. The atoms would not be spherical, but elongated in the direction of the magnetic field.”" SciNews