NASA's NICER Mission Reveals An Unexpected Neutron Star Surprise - Forbes
The neutron star J0030+0451, located 1,100 light-years away in the constellation of Pisces, is the... [+] first neutron star to have a map of its surface created. Its properties were quite a surprise, and invalidate the typical models we've used to attempt to make sense of neutron stars.
NASA's Goddard Space Flight Center
After typical supernovae, remnant collapsed cores of matter are left behind.
This image of the Crab Nebula's core, a young, massive star that's recently died in a spectacular... [+] supernova explosion, exhibits these characteristic ripples due to the presence of a pulsing, rapidly rotating neutron star: a pulsar. At just 1,000 years old, this young pulsar, which spins 30 times per second, appears to be typical of ordinary pulsars.
NASA / ESA
These objects — neutron stars — are approximately 90% neutrons, surrounded by shells containing charged particles.
The core of a neutron star is expected to be made of neutrons and neutral quark-gluon plasmas, with... [+] the outermost layers containing free, charged particles. The rotating star was thought to lead to a dipole magnetic field, but the true field may be even more complicated.
The Vela pulsar, like all pulsars, is an example of a neutron star corpse. The gas and matter... [+] surrounding it is quite common, and is capable of providing fuel for the pulsing behavior of these neutron stars.
NASA/CXC/PSU/G.Pavlov et al.
When a pulse intersects our line-of-sight, we detect it: this is why some neutron stars are pulsars.
In 2019, scientists were measuring the pulses coming from a neutron star and were able to measure... [+] how a white dwarf orbiting it delayed the pulses. From the observations, scientists determined it had a mass of around 2.2 solar masses: the heaviest neutron star seen thus far.
B. Saxton, NRAO/AUI/NSF
They are denser than atomic nuclei but cannot be too massive, otherwise they collapse into black holes.
Looking at binary sources, such as black holes and neutron stars, has revealed two populations of... [+] objects: low-mass ones below about 2.5 solar masses and high-mass ones of 5 solar masses and above. While LIGO and Virgo have detected black holes more massive than that and one instance of neutron star mergers whose post-merger product falls into the gap region, we are still not sure what persists in there otherwise.
Frank Elavsky, Northwestern University and LIGO-Virgo collaborations
Even with our most powerful telescopes in all wavelengths of light, neutron stars only appear as points.
VLT image of the area around the very faint neutron star RX J1856.5-3754. The blue circle, added by... [+] the author, shows the location of the neutron star.
NASA's Neutron star Interior Composition ExploreR, going by the strained acronym NICER, is installed... [+] aboard the International Space Station and provides humanity with unprecedented X-ray measurements of neutron stars.
NASA
The low-energy X-ray observatory measures timing signals down to 300 nanoseconds and at unprecedented sensitivities.
In terms of flux, timing, and energy resolution, NASA's NICER mission surpasses all other... [+] pre-existing observatories in its observation of pulsars in particular and neutron stars in general.
NASA / GSFC / NICER
NICER enables measurements of neutron stars' sizes, masses, cooling times, stabilities, and internal structures.
The two best-fit models of the map of the neutron star J0030+0451, constructed by the two... [+] independent teams who used the NICER data, show that either two or three 'hot spots' can be fitted to the data, but that the legacy idea of a simple, bipolar field cannot accommodate what NICER has seen.
Zaven Arzoumanian & Keith C. Gendreau (NASA Goddard Space Flight Center)
For one pulsar in particular, J0030+0451, they determined its mass (1.35 Suns) and diameter (25.7 km) explicitly.
The pulsar J0030+0451, based on NICER data, is shown to have 'hot spots' only in its southern... [+] hemisphere, which means that a magnetic model involving only a typical magnetic dipole cannot explain what we observe. Here, a large quadrupole, from simulations, is shown to be a far superior fit to the data.
A neutron star is one of the densest collections of matter in the Universe, whose strong magnetic... [+] field generates pulses by accelerating matter. The fastest-spinning neutron star we've ever discovered is a pulsar that revolves 766 times per second. However, now that we have a map of a pulsar from NICER, we know that this two-pole model cannot be correct; the pulsar's magnetic field is more complex.
ESO/Luís Calçada
They concluded that pulsar magnetic fields are more complex than typical, naive two-pole models.
At the cores of the most massive neutrons stars, the individual nuclei may break down into a... [+] quark-gluon plasma. Theorists presently argue over whether that plasma would exist, and if so, whether it would be composed of up-and-down quarks only, or whether strange quarks would be a part of that mix, too.
CXC/M. Weiss
It's one step closer to the ultimate goal: discovering which matter states exist in pulsar cores.
Mostly Mute Monday tells an astronomical story in images, visuals, and no more than 200 words. Talk less; smile more.
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