Latest Articles

RSS

What the Most Massive Black Hole Merger to Date Means for Astrophysics

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

Entangling Heavy Fermions for Quantum Computing Applications

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

Twistronics, the New Quantum Materials Dance?

Twistronics offers a revolutionary method to engineer quantum materials, altering electronic properties through precise layering of two-dimensional materials.

By Abdul Ahad Nazakat 29 Aug 2025

ESA's Vigil: Monitoring Space Weather

ESA's Vigil mission, Europe's first operational space weather satellite, improves solar activity detection, crucial for protecting satellites and power grids.

By Louis Castel 27 Aug 2025

Under-the-Barrier Recollision Redefines Quantum Tunneling

New research on quantum tunneling introduces under-the-barrier recollision, highlighting dynamic interactions that transform our understanding of tunneling.

By Owais Ali 22 Aug 2025

What is a Blazar?

Blazars are powerful active galactic nuclei with jets pointing toward Earth, emitting vast energy and offering insights into extreme astrophysical processes.

By Taha Khan 19 Aug 2025

The Different Interpretations of the Quantum Mechanics Theory

Quantum mechanics offers profound insights into wavefunctions, shaping interpretations that drive advancements in quantum computing and industrial applications.

By Ibtisam Abbasi 15 Aug 2025

Quantum Fundamentals – Quantum States and Wavefunctions

In quantum mechanics, wavefunctions represent a system's state, providing essential probabilistic information for advanced quantum computing applications.

By Ibtisam Abbasi 12 Aug 2025

Exploring Electronic Band Structure with ARPES and HREELS

Discover how ARPES and HREELS reveal electron band structure and collective excitations in quantum materials.

From Scienta Omicron 11 Aug 2025

Why Observation Collapses Quantum States

The measurement problem highlights the collapse of quantum states, a key issue for quantum technologies and the philosophical implications of quantum mechanics.

By Atif Suhail 8 Aug 2025

Latest Articles

What the Most Massive Black Hole Merger to Date Means for Astrophysics

Entangling Heavy Fermions for Quantum Computing Applications

Twistronics, the New Quantum Materials Dance?

ESA's Vigil: Monitoring Space Weather

Under-the-Barrier Recollision Redefines Quantum Tunneling

What is a Blazar?

The Different Interpretations of the Quantum Mechanics Theory

Quantum Fundamentals – Quantum States and Wavefunctions

Exploring Electronic Band Structure with ARPES and HREELS

Why Observation Collapses Quantum States

ESA's Vigil: Monitoring Space Weather

Exploring Electronic Band Structure with ARPES and HREELS

Cracking the Code for Fault-Tolerant Quantum Computing

SideKick QCL Controller: Low-Noise Laser Control Solution

LabOne Q: An Intuitive Software Framework for Scalable Quantum Computing

Sponsored Content

Custom Optics for Ion Trap Quantum Computing Experiments

How Does Space Bring Value to the Nation?

Why Photonics is Essential for the Future of Quantum Innovation

Latest Articles

ESA's Vigil: Monitoring Space Weather

Exploring Electronic Band Structure with ARPES and HREELS

Cracking the Code for Fault-Tolerant Quantum Computing

1Helios Redefines Accuracy in Commercial Quantum Computing

2Unraveling the Carrier Origin in an Exotic Quantum Insulator

3Study Tests Whether Dark Matter Obeys Regular Cosmological Rules

4Photonic Inc. Advances to Stage B of DARPA’s Quantum Benchmarking Initiative

Sponsored Content