Research led by University of Adelaide, Australia - New Understanding of Earth’s Architecture: Updated Maps of Tectonic Plates

Title:

New Understanding of Earth’s Architecture: Updated Maps of Tectonic Plates

 

By:

University of Adelaide, Australia

 

Published:

SciTechDaily, 19 June 2022

https://scitechdaily.com/new-understanding-of-earths-architecture-updated-maps-of-tectonic-plates/

 

From the article:

Research led by University of Adelaide, Australia - New models that show how the continents were assembled are providing fresh insights into the history of the Earth and will help provide a better understanding of natural hazards like earthquakes and volcanoes.

University of Adelaide, Australia - Crucial Superabsorption Breakthrough Unlocks Key to Next-Generation Quantum Batteries

Title:

Crucial Superabsorption Breakthrough Unlocks Key to Next-Generation Quantum Batteries  

 

By: 

University of Adelaide  

 

Published: 

SciTechDaily, 12 February 2022 

https://scitechdaily.com/crucial-superabsorption-breakthrough-unlocks-key-to-next-generation-quantum-batteries/    

 

From the article: 

Researchers at the University of Adelaide and their overseas partners have taken a key step in making quantum batteries a reality. They have successfully proved the concept of superabsorption, a crucial idea underpinning quantum batteries.  

 

ALSO SEE  

 

Title: 

Superabsorption in an organic microcavity: Toward a quantum battery  

 

Authors: 

James Q. Quach, Kirsty E. McGhee, Lucia Ganzer, Dominic M. Rouse, Brendon W. Lovett, Erik M. Gauger, Jonathan Keeling, Giulio Cerullo, David G. Lidzey & Tersilla Virgili  

 

Published: 

Science Advances, 14 January 2022 

https://www.science.org/doi/10.1126/sciadv.abk3160   

 

Abstract: 

The rate at which matter emits or absorbs light can be modified by its environment, as markedly exemplified by the widely studied phenomenon of superradiance. The reverse process, superabsorption, is harder to demonstrate because of the challenges of probing ultrafast processes and has only been seen for small numbers of atoms. Its central idea—superextensive scaling of absorption, meaning larger systems absorb faster—is also the key idea underpinning quantum batteries. Here, we implement experimentally a paradigmatic model of a quantum battery, constructed of a microcavity enclosing a molecular dye. Ultrafast optical spectroscopy allows us to observe charging dynamics at femtosecond resolution to demonstrate superextensive charging rates and storage capacity, in agreement with our theoretical modeling. We find that decoherence plays an important role in stabilizing energy storage. Our work opens future opportunities for harnessing collective effects in light-matter coupling for nanoscale energy capture, storage, and transport technologies.

 

Two videos - Somerton Man's identity could be revealed through use of 800,000 genetic markers & Prof Derek Abbott, University of Adelaide - The mystery of the Somerton Man

Title of video:

Somerton Man's identity could be revealed through use of 800,000 genetic markers 

 

Published:

Sky News Australia, 20 May 2021

https://www.youtube.com/watch?v=efXlAw6SaC4

 

Duration:

6:09

 

From the video description:

A 70-year-old South Australian mystery could soon be solved after the exhumation of a Somerton man from an Adelaide cemetery with a new police investigation attempting to identify the man who washed up on a beach in 1948.  

 

The University of Adelaide’s Professor Derek Abbott says the exhumation of the body will provide a “chance to access the man’s DNA” and identify him through genealogy by tracing 800,000 genetic markers. 

 

Also see

Title of video:

Prof Derek Abbott, University of Adelaide - The mystery of the Somerton Man

Published:

rotaryadelaide, 24 March 2021

https://www.youtube.com/watch?v=X7SEQUkZoBw

Duration:

26:19

From the video description:

Derek Abbott is a full professor of electrical and electronic engineering at the University of Adelaide, Australia. His interests are in the area of multidisciplinary electronic engineering and physics applied to complex systems. His research programs span a number of areas of including: photonics, energy policy, biomedical engineering, forensic genealogy, and computational neuroscience.