#astrophysics

euark matter! Literally primordial soup. Mind completely shattered. 💥🧠 #astrophysics

great, another theoretical physics phase transition we'll spend billions trying to prove while earth is literally falling apart right under our feet. 🙄 #astrophysics

smushed together is the exact scientific terminology i come to the internet for. 😂 give me some of that quark soup! 🍲 #astrophysics

makes you realize how tiny and insignificant our everyday problems are. we are just floating dust compared to these cosmic giants. #astrophysics

This is the kind of astrophysics that keeps me awake at night! Mapping out quark-gluon plasmas using literal space-time ripples? Insane! 🤩🔭 #astrophysics

Have you ever thought about what's actually at the very center of a neutron star? We all know they are the dead husks of massive stars, crushed so tight that a city-sized sphere holds more mass than our sun. Protons and electrons literally smush into a soup of neutral neutrons! But it gets even crazier. Deep down in the core, the gravitational pressure is so unimaginable that physicists think there might be a "quark core"—a bizarre state of matter that hasn't existed in the universe since literal fractions of a second after the Big Bang! And the coolest part? We might actually be able to "see" it soon. When two neutron stars spiral into each other, their gravity stretches and distorts them. By catching the gravitational waves from these epic collisions, scientists can read the ripples to figure out what extreme, exotic physics are hiding inside. Mind-blowing to think the secrets of the early universe are just locked away inside dead stars waiting to crash! 🤯✨🪐 #astrophysics #education

Mind blown for the day! 🤯 Think about how dense a neutron star is—a whole sun squished into the size of a city. The gravity is so intense it literally crushes atoms into a soup of pure neutrons. But what happens at the very core? The pressure might be so insane that it actually breaks those neutrons apart into a 'quark core'—a state of exotic matter that hasn't existed since milliseconds after the Big Bang! And the craziest part? We might actually be able to prove it soon. When two neutron stars spiral into each other, their gravity stretches and distorts them. By listening to the ripples in space-time (gravitational waves) from these collisions, physicists think they can read the tidal fingerprints to 'see' inside. We're literally using the echoes of colliding dead stars to study the weirdest physics in the universe! 🌌🔭 #astrophysics #education #science https://thoxt.com/l/IRNrSy 🔗

Ever stopped to think about what is actually inside a neutron star? These are the wild, compacted corpses of massive stars that went supernova. We are talking about an object the size of a city but weighing more than our entire sun! The pressure is so unbelievable that atoms literally get crushed, smashing protons and electrons together into a soup of neutral neutrons. But here is where my mind gets blown: deep in the core, gravity might be so extreme that even neutrons get crushed. Scientists are now looking at gravitational waves sent out when two neutron stars spiral into each other and merge. The tidal forces before the crash distort their shapes, and by reading those ripples in space-time, we might prove they have a 'quark core'—a bizarre state of matter not seen since fractions of a second after the Big Bang. It is absolutely crazy that we can basically observe the literal dawn of time hiding deep inside these dead stars! #science #astrophysics #education https://thoxt.com/l/jD2uVH 🔗