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Piotr Kosek: "If a strangelet hit a neutron star, it might catalyze quarks near its surface to form into more strange matter, potentially continuing until..." — Pending

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Piotr Kosek

📅 11.02.2026 · Ciemna materia to nie są duchy. Co jeśli fizycy od lat... · 👁️ 18

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Pending. Piotr Kosek's claim describes a theoretical scenario in astrophysics. Scientific literature confirms that if a strangelet (a hypothetical particle of strange quark matter) were to hit a neutron star, it could convert the...

"If a strangelet hit a neutron star, it might catalyze quarks near its surface to form into more strange matter, potentially continuing until the entire star became a strange star. The strange matter hypothesis remains unproven. No direct search for strangelets in cosmic rays or particle accelerators has yet confirmed a strangelet. The researchers are unanimous in saying that doubts about the existence of strange stars and quark stars — which would be even denser and more stable than neutron stars — will only be resolved when there are yet more precise data on their masses and radiuses. Strange dwarf (SD) – white dwarf (WD) system evolution in Laser Interferometer Space Antenna (LISA)'s absolute amplitude-frequency diagram is investigated. Since there is a strange quark core inside an SD, SDs' radii are significantly smaller than the value predicted by the standard WD mod..." "Jeśli Stranglet trafi w gwiazdę neutronową albo białego karła, no to może zacząć oddziaływać z nią od środka, zmieniając jej strukturę. Powinniśmy więc szukać gwiazd, które są podejrzanie małe i gęste, albo białych karłów o widmie, które nie pasuje do żadnych modeli. Takie zakażone gwiazdy byłyby dowodem ostatecznym."
🌐 (Machine-translated — original in Polish) · Original in Polishuage
🌐 Scenario 🔹 Other AI confidence (unresolved): 90% Resolves by: 2050 🌐 Jeśli Stranglet trafi w gwiazdę neutronową albo białego karł... Assertiveness: medium 🌍 Global Source on YouTube
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Transcript excerpt

Oryginał w języku Polskim Open on YouTube

Nie byłaby to zwykła dziura po meteorycie. Sejsmografy na Ziemi mogłyby zarejestrować specyficzne drgania wywołane przelotem takiego pocisku przez płaszcz naszej planety. Oczywiście no nie znajdziemy go, ale możemy zarejestrować jego oddziaływanie. Ale jeszcze ciekawszym laboratorium są same gwiazdy. Jeśli Stranglet trafi w gwiazdę neutronową albo białego karła, no to może zacząć oddziaływać z nią od środka, zmieniając jej strukturę. Powinniśmy więc szukać gwiazd, które są podejrzanie małe i gęste, albo białych karłów o widmie, które nie pasuje do żadnych modeli. Takie zakażone gwiazdy byłyby dowodem ostatecznym, a tutaj już mogłoby się to wydarzyć, no bo ciśnienie i tym samym energia są już wystarczające. Takie sygnały byłyby bardzo subtelne, bardzo trudne do wykrycia, a to idealnie pasuje do naszych obserwacji, a raczej braku tych obserwacji. Fakt, że jeszcze ich nie znaleźliśmy, no nie wyklucza oczywiście ich istnienia. Może też wręcz przeciwnie tłumacz

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