Recent Stories
- Lancaster set to receive funding boost to stimulate UK's economy
- Billion-year-old water could hold clues to life on Earth and Mars
- How do we find out about cyber criminals?
- First, carbon footprints... now you can calculate your 'nitrogen footprint'
- Lancaster to play leading role in UK-India cyber security team
- LEC PhD student, Beth Brockett, organises knowledge-exchange event for farmers
- Florence Nightingale Day successfully raises profile of women in mathematics and statistics
- LEC Volcanology Field Course sees erupting Mount Etna
- Company rewards Security Lancaster students for business solutions
- Environment: Over 80 people attend book launch for 'The Burning Question'
Giant Wave Research Breakthrough
Story supplied by LU Press Office
Scientists at Lancaster University working to learn more about the origin of rogue waves in the ocean have learnt that reverse energy flows can cause the phenomenon to happen in the lab. It is the first explanation of giant ocean waves, which could be responsible for many unexplained losses of large ships, to have been successfully tested.
The experiments, funded by the EPSRC, use superfluid helium to exactly mimic how waves naturally behave.
There is intense interest in the origin of giant waves on account of the commercial importance of this extraordinary phenomenon which has been photographed and can be detected and tracked from satellites. Survivors describe a giant wave as being like "a wall of water", perhaps 100 feet or more or more in height.
The results of the experiments astonished the team who discovered that, given the right conditions, wave energy could sometimes flow in the reverse direction leading to production of giant waves in their laboratory. The experiments show that, most of the time, there is a continuous flow of energy towards shorter and shorter wavelengths until, eventually, the resultant tiny "ripples" get destroyed. But exactly the opposite effect can sometimes happen.
The work was carried out by Professor Peter McClintock , Dr Andrei Ganshyn and Dr Victor Efimov in Lancaster University's Physics Department, with collaborators at the Institute of Solid State Physics in Chernogolovka, near Moscow, where much of the preliminary work was carried out.
Their results have been published in Physical Review Letters.
The team are planning more experiments in Lancaster in tandem with the theoretical studies, to further understand the conditions needed to create giant waves.
Fri 05 September 2008
Associated Links
- Observation of an Inverse Energy Cascade in Developed Acoustic Turbulence in Superfluid Helium - published in Physical Review of Letters, August 2008
Latest News
Lancaster set to receive funding boost to stimulate UK's economy
Lancaster is amongst leading universities who are set to benefit from a £50 million investment in cutting-edge research and innovation projects to drive growth. Lancaster's project will use the strong international reputation and links in China, in particular with the Chinese Academy of Sciences, to address the Government's priorities to focus on high-growth SMEs and to increase exports. Using expertise from across the University, it focuses on improved leadership and new technology...
Story supplied by LU Press Office
Fri 17 May 2013
Billion-year-old water could hold clues to life on Earth and Mars
A UK-Canadian team of scientists has discovered ancient pockets of water, which have been isolated deep underground for billions of years and contain abundant chemicals known to support life.
Story supplied by LU Press Office
Thu 16 May 2013
How do we find out about cyber criminals?
Security Lancaster and the Department of Mathematics and Statistics held a workshop to form a new collaborative group who will widen the knowledge of cybercrime and start developing innovative approaches to obtaining information on cyber criminals. The workshop included security researchers and statisticians, solicitors specialising in cybercrime, and experts from government agencies.
Thu 16 May 2013
First, carbon footprints... now you can calculate your 'nitrogen footprint'
Scientists at Lancaster, Virginia and Oxford universities have produced a web-based tool that allows anyone living in the UK to see their own 'nitrogen footprint'.
Story supplied by LU Press Office
Wed 15 May 2013