Building a tribute to Sir William Henry Bragg
The University is to name a key building in its £96m investment in engineering, computing, and physical sciences in honour of one of Leeds’ most influential scientists.
The University has a breadth of research expertise across the fields of engineering, computing, physics and astronomy, and chemistry. Combining fundamental scientific discovery and research-led teaching with applied science and engineering activities to support industry is one of the key aims of largest single-project investment ever to be made on campus.
To help strengthen the culture of interdisciplinary working, the new Sir William Henry Bragg Building will link the School of Chemistry’s facilities with the Faculty of Engineering, and incorporate a new home for the School of Computing and School of Physics and Astronomy.
Watch Professor Steve Scott, Dean of Maths and Physical Sciences, explain how the new Sir William Henry Bragg Building will support the University’s leading research and teaching.
Sir William Henry Bragg
Sir William Henry Bragg won the 1915 Nobel Prize in Physics with his son Sir William Lawrence Bragg, for the development of X-ray crystallography.
Their work revolutionised science by allowing researchers to examine the atomic structure of materials in detail for the first time.
Now the Sir William Henry Bragg Building will form a key part of the new developments on campus, which together with the Bragg Research Centre, which recognises both father and son, will bring researchers together to create a critical mass in ground-breaking interdisciplinary research and impact.
The name has been approved by Sir William’s family, with great grandson Charles Bragg highlighting his relative’s commitment to industry, and saying: “The Bragg family are sure Sir William would feel very honoured with this new building being named after him by the University of Leeds, given Leeds was where he did the fundamental work leading to the joint Nobel Prize for Physics in 1915.”
The Bragg family are sure Sir William would feel very honoured with this new building being named after him by the University of Leeds...
William Lawrence Bragg, then a junior researcher at Cambridge, first suggested the concept behind the technique in 1912 and Sir William subsequently led the development of the first X-ray spectrometer in laboratories on the University’s campus.
By directing X-rays through matter and recording the resulting diffraction pattern on photographic plates, the pair found they could determine the atomic structure of crystallised materials.
The impact of the X-ray spectrometer and the Braggs’ new method has been felt ever since. For much of the 20th century it was the dominant approach to this form of measurement.
Influence on modern research
The X-ray crystallography technique is used throughout the world. At Leeds, it is employed alongside cryo-electron microscopy and nuclear magnetic resonance at the Astbury Biostructure Laboratory. Other research teams on campus also make extensive use of the method.
In addition to WH Bragg’s contribution to the field of physics, his influence on the School of Computing has been important.
Sir William’s research opened up the study of many varieties of crystals creating highly-complex diffraction patterns. Over the years, this led to the need for computer analysis to interpret the patterns, which ultimately resulted in the field of computing developing as an academic subject in its own right at Leeds. Taking Sir William’s research as its foundation, the School has expanded to cover numerous areas and has just celebrated its 60th anniversary.
Standards of research
Professor Lisa Roberts, Deputy Vice-Chancellor: Research and Innovation, said: “Naming our new building after Sir William Henry Bragg is in recognition of his tremendous achievements and our great admiration and respect for him in Leeds.
Naming our new building after Sir William Henry Bragg is in recognition of his tremendous achievements and our great admiration and respect for him in Leeds.
“The Braggs’ legacy is felt in all of our lives. The medical ultrasound device that produces pictures of your baby, the fuel injectors in cars, the SONAR used in submarines, to take just a few examples, all rely on materials developed using X-ray crystallography.
“Adopting the Bragg name will also set a marker for the standard of research and global impact we expect to produce. It is increasingly important that our fundamental scientific breakthroughs are translated into real world usage.”
For further information, please contact Peter Le Riche from the University of Leeds Press Office.
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