Dr. Alice Wort • Oct 28, 2025
Quantum Metastability: Why the Universe Loves Getting Stuck in Local Minima (and Why That’s Okay)
Turns out, quantum systems are a lot like us on a Monday morning – they get stuck in cozy states instead of reaching perfect equilibrium. Physicists have finally figured out why.
Dr. Daniel Stern • Oct 27, 2025
Quantum Computers: Why Infinity Isn't Always an Advantage
Physicists have proven that under energy constraints, continuous-variable quantum computers are no more powerful than standard qubit systems – infinity has turned out to be an illusion of power.
Professor Oliver Harris • Oct 24, 2025
Double-Charged Black Holes: When the Universe’s Symmetry Breaks Gracefully
The study explores how black holes carrying both electric and magnetic charges behave in a theory where one of the fundamental principles of physics – spacetime symmetry – is elegantly broken.
Dr. Irina Lebedeva • Oct 20, 2025
A Cosmic Ballet of Light: How the Gravity of Giant Planets Bends Starlight on its Path to Earth
Starlight dances around giant planets, bending to the pull of their gravity – and these microscopic deflections reveal a story of the shape of worlds and the very fabric of spacetime.
Professor Mikhail Kovalev • Oct 13, 2025
How Non-Uniformity Turns the Quark «Soup» into a Perfect Fluid: A Tale of Cosmic Anisotropy
This study reveals how even a slight non-uniformity in the motion of quarks and gluons fundamentally alters the properties of the Universe's primordial matter.
Dr. Alice Wort • Oct 12, 2025
Quantum Measurements in Practice: Why Your Computer Can’t See Everything the Universe Does
Quantum physics knows how to distinguish between any particle states, but our computers can't – and this unlocks incredible possibilities for cryptography and computation.