Physical Sciences
The Future Circular Collider: Its potential and lessons learnt from the LEP and LHC experiments
As researchers seek to learn more about the fundamental nature of our universe, new generations of particle accelerators are now in development in which beams of particles collide ever more precisely and at ever higher energies. Professor Stephen Myers, former Director of Accelerators & Technology at CERN and currently Executive Chair of ADAM SA, identifies both the positive and negative […]
Presenting a case for molecular scales in atmospheric models
Modelling Earth’s atmosphere is a monumentally difficult task, and atmospheric scientists have long faced challenges in accurately recreating the large-scale processes they observe in real life. Dr Adrian Tuck, a retired former visiting professor at Imperial College London, proposes that models could be improved by accounting for processes which take place on molecular scales. Through a better explanation of the […]
Read More… from Presenting a case for molecular scales in atmospheric models
Quantum carpets from tumbling molecules: Manipulating molecular rotation by electromagnetic fields
Molecules are comprised of charged particles whose spatial distribution is or could be distorted, lending the molecules a handle by which they can be manipulated via external electromagnetic fields. Dr Burkhard Schmidt at the Freie Universität Berlin and Professor Bretislav Friedrich at the Fritz Haber Institute of the Max Planck Society in Berlin, along with their affiliates Dr Marjan Mirahmadi and […]
Designing disorder at the atomic scale
The crystal structures of solids can exhibit a vast array of different atomic arrangements, which may also change depending on conditions, temperature, pressure, etc. In new research, a team led by Dr Daniel Chaney, based at the European Synchrotron Radiation Facility (ESRF) in France, have used cutting-edge techniques to show for the first time how some materials display exciting new […]
Galactic archaeology: Using chemical abundances to map our galaxy’s history
The different chemical elements we observe across the Milky Way have gone through drastically different formation processes – which have taken place on drastically different timescales. Crucially for astronomers, these differences can be clearly seen in the abundances of chemical elements contained in stars today, providing important clues about our Galaxy’s distant past. In a new overview, Professor Francesca Matteucci […]
Read More… from Galactic archaeology: Using chemical abundances to map our galaxy’s history
Optimising solvent extraction for metal recycling
The platinum-group metals play a central role in several technological applications including fuel cells, electronic devices, and catalysts for oil refining and automobile converters. Owing to the scarcity of these metals, methods for their recycling from end-of-life devices are in increasing demand. Hydrometallurgy, which exploits the ability of specific molecules to selectively dissolve metal ions and separate them from unwanted […]
Read More… from Optimising solvent extraction for metal recycling
A parametric framework for multidimensional linear regression
While Ordinary Least Squares regression establishes fundamental concepts in data analysis, it requires the independent variable to be error-free and the error term to be constant. Dr Stanley Luck, statistics consultant and founding member of Vector Analytics LLC in the US, has developed an innovative parametric framework for multidimensional linear regression. This provides a more general framework for establishing measurement […]
Read More… from A parametric framework for multidimensional linear regression
Exploring neutrinos: Entanglement, entropy, and fractional calculus
Neutrinos are elusive, strange particles that are produced in the nuclear reactions that power stars. As such, the study of neutrinos from the Sun gives us a window directly into the Sun’s core, as well as telling us more about these fundamental particles. However, neutrinos are notoriously hard to detect, so detectors like the Super-Kamiokande and Homestake solar neutrino experiments […]
Read More… from Exploring neutrinos: Entanglement, entropy, and fractional calculus
Turning salt water into fresh water with capacitive deionization cycling
Fresh water is one of the key ingredients for sustaining human life. Obtaining sufficient quantities of safe and drinkable water remains a challenge, however. One important approach is to make use of salt water from our unusable water through a process known as desalination. Professor Matthew Suss at the Technion Israel Institute of Technology, with his PhD candidates Mr Eric […]
Read More… from Turning salt water into fresh water with capacitive deionization cycling
A solution to dark matter: New evidence for hydrogen’s second flavour
Following on from his previous research, Professor Eugene Oks at Auburn University, Alabama, presents even further evidence that an explanation for dark matter could lie with a ‘second flavour’ of hydrogen atoms. This time, he analyses the results of an extensive survey of millions of galaxies to assess the characteristics of ‘gravitational lensing’: a light-bending effect, first predicted by Einstein. […]
Read More… from A solution to dark matter: New evidence for hydrogen’s second flavour