In a new interview feature, AZoQuantum talks with Hannes Bernien from the Pritzker School of Molecular Engineering about his research focusing on noise-reduction in quantum computers utilizing 'spectator qubits'.
A paper recently published in the journal Nature Communications demonstrated high conductivity and metallic behavior in two-dimensional (2D) superlattices of semiconductor colloidal quantum dots (CQDs) of lead sulfide.
By Samudrapom Dam
8 Jun 2023
An estimated 85% of the universe's constituents are assumed to be made up of dark matter, a hypothetical type of matter. Dark matter is entirely invisible. Since it doesn't emit any light or energy, ordinary sensors and detectors are unable to pick it up.
By Ilamaran Sivarajah
5 Jun 2023
Quantum technology and artificial intelligence (AI) are among the most revolutionary disciplines that have attracted considerable interest in recent years.
By Ibtisam Abbasi
31 May 2023
A paper recently published in the journal Nature demonstrated non-Abelian braiding of graph vertices in a superconducting quantum processor for the first time by Google Quantum AI and collaborators.
By Samudrapom Dam
29 May 2023
This article discusses the recent launch of a quantum computer, H2-1, by Quantinuum, a leading quantum computing company. It also discusses the significance of this breakthrough in quantum computing.
Gravitational waves, tiny ripples in spacetime that Einstein believed are too faint ever to be detected, are revolutionizing both our understanding and our view of the cosmos.
By Robert Lea
15 May 2023
Cosmic ray research spanning a century has led us to a new era where these rays hold the potential to shed light on unresolved topics such as dark matter and dark energy, thanks to their energies surpassing those achievable by accelerators on Earth.
By Ben Pilkington
9 May 2023
Quantum geometry is a crucial area of research in the theory of quantum information, and it deals with geometrical forms in the space of quantum states.
By Ilamaran Sivarajah
1 May 2023
In a significant breakthrough for quantum technology, researchers from the University of Basel and the University of Sydney have successfully demonstrated the ability to identify and manipulate a small number of interacting photons in a controlled manner.