In a series of articles to mark the 20th anniversary of Marie Skłodowska-Curie actions, Horizon takes a look at some of the cutting-edge science coming out of the training programme for researchers. We hear how scientists are using the Large Hadron Collider particle accelerator to hunt for dark matter, working with robots to monitor changes in the atmosphere and undertaking industrial placements to make their research commercially viable. We also look at the life of Marie Skłodowska-Curie herself and how her scientific legacy lives on.
Carbon nanomaterials could carry out cancer diagnosis and therapy at the same time – and the results could be particularly effective for aggressive forms of cancer, say researchers who are developing so-called theranostic approaches.
The Large Hadron Collider (LHC), the world’s biggest particle smasher, stands a good chance of discovering the elusive particle or particles, known to scientists as dark matter, that make up five-sixths of the mass of the universe, researchers say.
One hundred years ago, Marie Skłodowska-Curie was using her scientific knowhow to organise fleets of radiology cars to carry portable X-ray equipment to wounded soldiers on the front line during World War I. Today, thousands of scientists working in fields as diverse as cancer treatment, archaeology and astrophysics continue to build on her work on radiation. As the European funding programme carrying her name celebrates 20 years of operation, Horizon takes a look at her scientific and personal legacy.
Every minute, satellites and sensors collect enormous amounts of data about the world around us – from temperature to pollution and forest cover to soil quality. This month, Horizon looks into the technologies behind Earth observation and how we can make best use of the vast amounts of information produced. We find out how measurements taken by people with smartphones on the ground can feed into local datasets and how the minituarisation of satellites is creating opportunities for start-ups to enter the Earth observation market. We also discover how measurements are being used to protect ecosystems and what historical data can tell us about extreme weather such as hurricanes and droughts.
The world’s oceans are overfished, polluted and – for something that makes up 70% of the Earth’s surface – still little understood. This month, Horizon looks at some of the science that could help us take better care of our oceans, from robots trash collectors out at sea to finding ways to track the plastic that enters our waters. Plus, we look at how climate change is affecting plans for sustainable aquaculture, tech that can help divers reduce the cost of their dives by more than 50%, and the challenges facing research in the Black Sea.
The big data explosion, which allows scientists to analyse factors such as people’s lifestyles, genes and medical records to develop personalised treatments for conditions, has so far mostly benefitted rare diseases with simple causes. But now, complex problems such as cardiovascular disease and dementia are getting the big data treatment.
An analysis of a newly cleaned-up dataset tracking Europe’s air pollution has revealed that nitrogen dioxide levels are on a steeper downward trend than previously thought, according to Dr Folkert Boersma from the Royal Netherlands Meteorological Institute, who says that ensuring the quality of Earth observation data can reveal new insights into climate change.
Heart health and dementia care could be improved with algorithms.
Quality-checking satellite data can reveal new insights.
Co-author of Stephen Hawking's final paper talks about how their work goes beyond Einstein.