Quantum ScienceNews - Page 6

Scientists predict origins of Early Earth using gas bubbles in rock pores

Munich and Dresden based researchers establish a compelling theory for the evolution of membraneless microdroplets as the origin of life in Early Earth. The question...

Novel research determines short duration of Higgs boson’s lifetime

New research reports a value for the Higgs boson’s lifetime and has a small enough uncertainty to confirm that the particle has a short lifetime.  Collaborative research has come to the...

Analysing the orbital harmony of TRAPPIST-1 planets

Researchers investigate the orbital harmony of TRAPPIST-1 planets in order to detect bombardment phases of their early planetary formation. In Houston, November 25, seven Earth-sized...

UCLA astronomers discover over 300 possible new exoplanets

Astronomers from the UCLA utilised an algorithm that enabled the discovery of over 300 exoplanets, as well as a distinctive planetary system with two...

WASP-76b: could the exoplanet that ‘rains iron’ be even more extreme?

The exoplanet WASP-76b, believed to be so hot that it rains iron, could be even more extreme than first thought. Dr Ernst de Mooij, a...

Carbon dioxide cold traps on the moon have been confirmed

Lunar carbon dioxide cold traps discovered could be used to sustain robot or human presence on the moon. After decades of uncertainty, researchers in Washington...

Physicists discover novel quantum effect in bilayer graphene

Extraordinary phenomenon labelled the quantum anomalous Hall effect has been discovered in bilayer graphene. Researchers at The University of Texas in Dallas, along with collaborators...

CERN Quantum Technology Initiative: towards a quantum revolution

CERN Quantum Technology Initiative has reached a significant milestone, launching a roadmap of its medium- and long-term quantum research programme.

Unique quantum effect found in naturally occurring graphene

An international team led by scientists at the University of Göttingen has discovered a novel quantum effect taking place in natural occurring graphene.

Kagome lattice superconductor reveals cascade of quantum electron states

Researchers at Boston College have found an intricate landscape of electronic states that are capable of cohabiting on a kagome lattice, reminiscent of those in high-temperature superconductors.

Investigating prethermal discrete time crystals with novel computer modelling method

Researchers at the University of Cambridge have utilised computer modelling to examine possible new phases of matter known as prethermal discrete time crystals.

 Developing a novel tool for analysing massive superconducting circuits

Researchers have developed a technique for analysing large superconducting circuits, which could facilitate advancements in the field of quantum computing.

Groundbreaking discovery of novel metal where electrons flow with fluid-like dynamics

A group of scientists from Boston College have developed a novel metallic specimen whereby the motion of electrons flows in the same way water flows in a pipe, thereby changing from particle-like to fluid-like dynamics.

Photonics-based approach could lead to real-world applications for quantum computing

Scientists from the University of Virginia School of Engineering and Applied Science (UVA) are pioneering the use of optical multiplexing to develop a scalable quantum computing platform for real-world applications.

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