Quantum Field Theory redefines particles as field excitations, essential for understanding fundamental forces and driving innovations in quantum technologies.
By Ankit Singh
3 Oct 2025
Understanding singularities is key to resolving gaps in physics, with theories like string theory and causal set theory offering new insights into the universe.
Quantum nonlocality challenges classical physics, revealing entangled particles' connections that defy locality and reshape our understanding of reality.
By Ilamaran Sivarajah
26 Sep 2025
The identification of a potential biosignature by Perseverance enhances our understanding of Mars' geological history and astrobiological potential.
By Abdul Ahad Nazakat
23 Sep 2025
The Schwinger effect reveals how vacuum fluctuations can produce real particles under strong electric fields, now explored through superfluid helium analogs.
By Atif Suhail
19 Sep 2025
The field of photonics explores photon manipulation, leading to breakthroughs in quantum technologies, telecommunications, and advanced imaging techniques.
By Ilamaran Sivarajah
16 Sep 2025
TLEs are brief, colorful phenomena linked to thunderstorms, crucial for understanding upper atmospheric processes and their impact on atmospheric chemistry.
The Standard Model of particle physics classifies elementary particles and explains fundamental forces, shaping our understanding of the universe's fabric.
GW231123's black hole merger challenges theoretical models, revealing unique mass and spin characteristics that could reshape our understanding of astrophysics.
By Ilamaran Sivarajah
5 Sep 2025
Heavy fermions present a unique platform for quantum applications, leveraging entanglement for stable, scalable qubit architectures in quantum computing.
By Atif Suhail
2 Sep 2025