In a new feature on AZoQuantum, we speak with Associate Professor Kate Brown and Theoretical Physicist Harsh Mathur about their research investigating Modified Newtonian Dynamics and its implications for the Ninth Planet theory.
By Skyla Baily
15 Nov 2023
This article will briefly explore Orca Computing’s contribution to the field of quantum computing, a highly exciting emerging technological field.
Quantum computing promises to revolutionize computing and unlock solutions to many intractable problems. But realizing this vast potential rests on building reliable quantum bits, or qubits, that can serve as the basic units of quantum information. The rare earth metal Ytterbium is an emerging candidate that shows unique promise for creating scalable and robust qubits.
Silicon nitride (Si3N4) in recent years has gained significant attention because of its advantageous properties and is being incorporated into quantum computer architecture. Specifically, for quantum qubits, quantum integrated photonics, and waveguides, silicon nitride is a preferred choice, enabling quantum computers to reach new levels of efficiency and computational powers.
By Ibtisam Abbasi
10 Nov 2023
In a new interview feature, AZoQuantum speaks with Dr. Samuli Autti about his new research investigating the tactile sensation of superfluid 3He.
By Skyla Baily
7 Nov 2023
In the 20th Century, physics witnessed a profound shift from the simplicity of reductionism to the complexities of chaos theory and complexity science. These disciplines have transformed our understanding of intricate phenomena, from turbulent weather patterns to the complexities of quantum physics.
Astrophysics and its associated occurrences are dependent on plasma interactions and quantum sciences. High-energy particles and their interactions play a vital role in astrophysics.
By Ibtisam Abbasi
6 Nov 2023
Similar to an electron in structure, a neutrino is a subatomic particle with a very small mass and no electrical charge. The most abundant mass-containing particles in the universe are neutrinos.
By Ilamaran Sivarajah
31 Oct 2023
From the classical models of the 18th century to the quantum revolution of the 20th century, our understanding of atomic structure has evolved. With its probabilistic nature, the quantum mechanical model has fundamentally reshaped our perception of atoms. This article explores the origins and fundamentals of this groundbreaking model.
A crucial turning point in particle physics occurred in 2012 when the Higgs Boson was discovered at CERN's Large Hadron Collider (LHC). Since that time, the ATLAS and CMS teams have been meticulously examining the characteristics of this unusual particle and trying to determine the various ways in which it is created and degrades into other particles.
By Ilamaran Sivarajah
24 Oct 2023