Sir William Lawrence Bragg, CH, OBE, MC, FRS (31 March 1890 – 1 July 1971) was an Australian-born British physicist and X-ray crystallographer, discoverer (1912) of Bragg's law of X-ray diffraction, which is basic for the determination of crystal structure. He was joint winner (with his father, William Henry Bragg) of the Nobel Prize in Physics in 1915: "For their services in the analysis of crystal structure by means of X-ray", an important step in the development of X-ray crystallography.
Sir Lawrence Bragg
Lawrence Bragg in 1915
William Lawrence Bragg
31 March 1890
Adelaide, South Australia
|Died||1 July 1971 (aged 81)|
Waldringfield, Ipswich, Suffolk, England
|Education||St Peter's College, Adelaide|
|Known for||X-ray diffraction|
|Wikimedia Commons has media related to Geobiography of William Lawrence Bragg.|
Bragg was knighted in 1941. As of 2018, he is the youngest ever Nobel laureate in physics, having received the award at the age of 25 years. Bragg was the director of the Cavendish Laboratory, Cambridge, when the discovery of the structure of DNA was reported by James D. Watson and Francis Crick in February 1953.
Bragg was born in Adelaide, South Australia. He showed an early interest in science and mathematics. His father, William Henry Bragg, was Elder Professor of Mathematics and Physics at the University of Adelaide. Shortly after starting school, William Lawrence Bragg fell from his tricycle and broke his arm. His father, who had read about Röntgen's experiments in Europe and was performing his own experiments, used the newly discovered X-rays and his experimental equipment to examine the broken arm. This is the first recorded surgical use of X-rays in Australia.
After beginning his studies at St Peter's College, Adelaide in 1905, Bragg went to the University of Adelaide at age 16 to study mathematics, chemistry and physics, graduating in 1908. In the same year his father accepted the Cavendish chair of physics at the University of Leeds, and brought the family to England. Bragg entered Trinity College, Cambridge in the autumn of 1909 and received a major scholarship in mathematics, despite taking the exam while in bed with pneumonia. After initially excelling in mathematics, he transferred to the physics course in the later years of his studies, and graduated with first class honours in 1911. In 1914 Bragg was elected to a Fellowship at Trinity College – a Fellowship at a Cambridge college involves the submission and defence of a thesis.
Among Bragg's other interests was shell collecting; his personal collection amounted to specimens from some 500 species; all personally collected from South Australia. He discovered a new species of cuttlefish – Sepia braggi, named for him by Joseph Verco.
X-rays and the Bragg equationEdit
The composition of X-rays was unknown, his father argued that X-rays are streams of particles, others argued that they are waves. Max von Laue directed an X-ray beam at a crystal in front of a photographic plate; alongside of the spot where the beam struck there were additional spots from deflected rays — hence X-rays are waves. In 1912, as a first-year research student at Cambridge, W L Bragg, while strolling by the river, had the insight that crystals made from parallel sheets of atoms would not diffract X-ray beams that struck their surface at most angles because X-rays deflected by collisions with atoms would be out of phase, cancelling one another out. However, when the X-ray beam stuck at an angle at which the distances it passed between atomic sheets in the crystal equaled the X-ray's wavelength then those deflected would be in phase and produce a spot on a nearby film. From this insight he wrote the simple Bragg equation that relates the wavelength of the X-ray and the distance between atomic sheets in a simple crystal to the angles at which an impinging X-ray beam would be reflected.
Father built an apparatus in which a crystal could be rotated to precise angles while measuring the energy of reflections. This enabled father and son to measure the distances between the atomic sheets in a number of simple crystals. They calculated the spacing of the atoms from the weight of the crystal and the Avogadro constant, which enabled them to measure the wavelengths of the X-rays produced by different metallic targets in the X-ray tubes. W H Bragg reported their results at meetings and in a paper, giving credit to "his son" (unnamed) for the equation, but not as a co-author, which gave his son "some heartaches", which he never overcame.
Work on sound rangingEdit
Bragg was commissioned early in the First World War in the Royal Horse Artillery as a second lieutenant of the Leicestershire battery. In 1915 he was seconded to the Royal Engineers to develop a method to localize enemy artillery from the boom of their firing. On 2 September 1915 his brother was killed during the Gallipoli Campaign. Shortly afterwards, he and his father were awarded the Nobel Prize in Physics. He was 25 years old and remains the youngest science laureate. The problem with sound ranging was that the heavy guns boomed at too low a frequency to be detected by a microphone. After months of frustrating failure he and his group devised a hot wire air wave detector that solved the problem. In this work he was aided by Charles Galton Darwin, William Sansome Tucker, Harold Roper Robinson and Henry Harold Hemming. British sound ranging was very effective; there was a unit in every British Army and their system was adopted by the Americans when they entered the war. For his work during the war he was awarded the Military Cross and appointed Officer of the Order of the British Empire. He was also Mentioned in Despatches on 16 June 1916, 4 January 1917 and 7 July 1919.
Hot wire sound ranging was used in the Second World War, during which he served as a civilian adviser.
Between the wars, from 1919 to 1937, he worked at the Victoria University of Manchester as Langworthy Professor of Physics. He became the director of the National Physical Laboratory in Teddington in 1937.
After World War II, Bragg returned to Cambridge, splitting the Cavendish Laboratory into research groups. He believed that "the ideal research unit is one of six to twelve scientists and a few assistants".
Manchester University (1919-1937)Edit
When demobilized he returned to crystallography at Cambridge. They had agreed that father would study organic crystals, son would investigate inorganic compounds. In 1919 when Ernest Rutherford, a long-time family friend, moved to Cambridge, Lawrence Bragg replaced him as Langworthy Professor of Physics at the Victoria University of Manchester. He recruited an excellent faculty, including former sound rangers, but he believed that his knowledge of physics was weak and he had no classroom experience. The students, many veterans, were critical and rowdy. He was deeply shaken but with family support he pulled himself together and prevailed. He and RW James measured the absolute energy of reflected X-rays, which validated a formula derived by CG Darwin before the war. Now they could determine the number of electrons in the reflecting targets, and they were able to decipher the structures of more complicated crystals like silicates. It was still difficult: requiring repeated guessing and retrying. In the late 1920s they eased the analysis by using Fourier transforms on the data.
In 1930 he became deeply disturbed while weighing a job offer from Imperial College, London. His family rallied around and he recovered his balance while they spent 1931 in Munich, where he did research.
National Physical Laboratory (1937-1938)Edit
University of Cambridge (1938-1954)Edit
Rutherford died and the search committee named Lawrence Bragg as next in the line of the Cavendish Professors who direct the Cavendish Laboratory. The Laboratory had an eminent history in atomic physics and some members were wary of a crystallographer, which Bragg surmounted by even-handed administration. He worked on improving the interpretation of diffraction patterns. In the small crystallography group was a refugee research student without a mentor: Max Perutz. He showed Bragg X-ray diffraction data from hemoglobin, which suggested that the structure of giant biological molecules might be deciphered. Bragg appointed Perutz as his research assistant and within a few months obtained additional support with a grant from the Rockefeller Foundation. The work was suspended during the Second World War when Perutz was interned as an enemy alien and then worked in military research.
During the war the Cavendish offered a shortened graduate course which emphasized the electronics needed for radar. Bragg worked on the structure of metals and consulted on sonar and sound ranging, they still used the Tucker microphone. He became Sir Lawrence in 1941. His father died in 1942, during which Bragg served for six months as Scientific Liaison Officer to Canada. He organized periodic conferences on X-ray analysis, which was widely used in military research.
After the war he led in the formation of the International Union of Crystallography and was elected its first president. He reorganized the Cavendish into units to reflect his conviction that "the ideal research unit is one of six to twelve scientists and a few assistants, helped by one or more first-class instrument mechanics and a workshop in which the general run of apparatus can be constructed."  Senior members of staff now had offices, telephones and secretarial support. The scope of the department was enlarged with a new unit on radio astronomy. His own work focused on the structure of metals, using both X-rays and the electron microscope. In 1947 he persuaded the Medical Research Council to support what he described as the "gallant attempt"  to determine protein structure as the Laboratory of Molecular Biology (MRC), initially consisting of Perutz, John Kendrew and two assistants. Bragg worked with them, by 1960 they had resolved the structure of myoglobin to the atomic level. After this he was less involved; their analysis of hemoglobin was easier after they incorporated two mercury atoms as markers in each molecule. The first monumental triumph of the MRC was decoding the structure of DNA by James Watson and Francis Crick. Bragg announced the discovery at a Solvay conference on proteins in Belgium on 8 April 1953, it went unreported by the press. He then gave a talk at Guy's Hospital Medical School in London on Thursday 14 May 1953, which resulted in an article by Ritchie Calder in the News Chronicle of London on Friday 15 May 1953, entitled "Why You Are You. Nearer Secret of Life." Bragg nominated Crick, Watson and Maurice Wilkins for the 1962 Nobel Prize in Physiology or Medicine; Wilkins' share recognized the contribution of X-ray crystallographers at King's College London. Among them was Rosalind Franklin, whose "photograph 51" showed that DNA was a double helix, not the triple helix that Linus Pauling had proposed. Franklin died before the prize (which only goes to living people) was awarded.
The Royal Institution (1954-1971)Edit
In 1953 the Braggs moved into the elegant flat for the Resident Professor in the Royal Institution in London, the position his father had occupied when he died. In 1934 and 1961 Lawrence had delivered the Royal Institution Christmas Lecture and since 1938 he had been Professor of Natural Philosophy in the Institution, delivering an annual lecture. His father's successors had weakened the Institution, so Lawrence had to rebuild. He bolstered finances by enlisting corporate sponsors, the traditional Friday Evening Discourses were followed by a dinner party for the speaker and carefully selected possible patrons, more than one hundred and twenty of them each year. "Two of these Discourses in 1965 gave him particular pleasure. On 7 May, Lady Bragg, who had been a member of the Royal Commission on Marriage and Divorce (1951-55) and was Chairman of the National Marriage Guidance Council, lectured on 'Changing patterns in marriage and divorce'; and on 15 November, Bragg listened with evident pride to the Discourse on 'Oscillations and noise in jet engines' given by his engineer-son Stephen, who was then Chief Scientist at Rolls Royce Ltd and later became Vice-Chancellor of Brunel University." He also introduced a new programme of highly regarded Schools' Lectures, enlivened by the elaborate demonstrations that were a hallmark of the Institution. He gave three of these lectures on 'electricity' 
He continued research in the Institution by recruiting a small group to work the Davy-Faraday Laboratory in the basement and in the adjoining house, supported by grants he obtained. A visitor to the laboratory succeeded in inserting heavy metals into the enzyme lysozyme; the structure of its crystal was solved in 1965 at the Royal Institution by D C Phillips and his coworkers, with the computations on the 9,040 reflections performed on the digital computer at the University of London, which greatly facilitated the work. Two of the illustrations of the positioning of amino acids in the chain were drawn by Bragg. Unlike myoglobin, in which nearly 80 per cent of the amino-acid residues are in the alpha-helix conformation, in lysozyme the alpha-helix content is only about 40 per cent of the amino-acid residues found in four main stretches. Other stretches are of the 310 helix, a conformation that they had proposed earlier. In this conformation, every third peptide is hydrogen-bonded back to the first peptide, thus forming a ring containing ten atoms. They had the complete structure of an enzyme in time for Bragg's seventy-fifth birthday. He became Professor Emeritus in 1966.
X-ray analysis of protein structure flourished in subsequent years, determining the structures of scores of proteins in laboratories around the world. Twenty eight Nobel Prizes have been awarded for work using X-ray analysis. The disadvantage of the method is that it must be done on crystals, which precludes seeing changes in shape when enzymes bind substrates and the like. This problem was solved by the development of another line Bragg had initiated, using modified electron microscopes to image single frozen molecules: cryo-electron microscopy.
In his long association with the Royal Institution he was:
- Professor of Natural Philosophy, 1938–1953
- Fullerian Professor of Chemistry, 1954–1966
- Superintendent of the House, 1954–1966
- Director of the Davy-Faraday Research Laboratory, 1954–1966
- Director of the Royal Institution, 1965–1966
- Emeritus Professor, 1966–1971
He married Alice Hopkinson (1899–1989), a cousin of a friend who had been killed in the war, in 1921. They had four children, Stephen Lawrence (1923–2014), David William (1926–2005), Margaret Alice, born 1931, (who married Mark Heath) and Patience Mary, born 1935. Alice was on the staff at Withington Girls' School until Bragg was appointed director of the NPL in 1937. She was active in a number of public bodies and was elected Mayor of Cambridge.
Bragg's hobbies included drawing — family letters were illustrated with lively sketches — painting, literature and a lifelong interest in gardening. When he moved to London, he missed having a garden and so worked as a part-time gardener, unrecognized by his employer, until a guest at the house expressed surprise at seeing him there. He died at a hospital near his home at Waldringfield, Ipswich, Suffolk. He was buried in Trinity College, Cambridge; his son David is buried in the Parish of the Ascension Burial Ground in Cambridge, where Bragg's friend, who had he survived would have been his brother-in-law, Rudolph Cecil Hopkinson is also buried.
Honours and awardsEdit
Bragg was elected a Fellow of the Royal Society (FRS) in 1921—"a qualification that makes other ones irrelevant". He was knighted by King George VI in the 1941 New Year Honours, and received both the Copley Medal and the Royal Medal of the Royal Society. Although Graeme Hunter, in his book on Bragg Light is a Messenger, argued that he was more a crystallographer than a physicist, Bragg's lifelong activity showed otherwise—he was more of a physicist than anything else. Thus, from 1939 to 1943, he served as President of the Institute of Physics, London. In the 1967 New Year Honours he was appointed Companion of Honour by Queen Elizabeth II.
Since 1992, the Australian Institute of Physics has awarded the Bragg Gold Medal for Excellence in Physics to commemorate Lawrence Bragg (in front on the medal) and his father, William Bragg, for the best PhD thesis by a student at an Australian university.
- Phillips, D. (1979). "William Lawrence Bragg. 31 March 1890-1 July 1971". Biographical Memoirs of Fellows of the Royal Society. 25: 74–143. doi:10.1098/rsbm.1979.0003. JSTOR 769842.
- "Alexander Stokes". The Telegraph. 28 February 2003. Retrieved 16 January 2016.
- "The Nobel Prize in Physics 1915". Nobel Foundation. Retrieved 26 April 2018.
- "Facts on the Nobel Prize in Physics". Nobel Foundation. Retrieved 16 January 2016.
- Caroe, G. M. (1978). William Henry Bragg 1862-1942. Cambridge University Press. p. 75.
- "Cambridge Physicists - William Lawrence Bragg". Cambridge Physics. Cavendish Laboratory. Retrieved 26 April 2018.
- See Fred Hoyle's remarks regarding Hutchinson in 1965 Galaxies, Nuclei and Quasars p. 38 London:Heinemann and also R J N Phillips 1987 "Some Words from a Former Student" in Tribute to Paul Dirac, Bristol:Adam Hilger, p. 31.
- Jenkin, John William and Lawrence Bragg; Father and Son. Oxford University Press 2008 ISBN 978 0 19 923520 9
- Laue, Max von. "Concerning the Detection of X-ray Interferences". Nobel Prizes. Retrieved 3 January 2018.
- Van der Kloot, William (2014). Great Scientists wage the Great War. Stroud: Fonthill. p. 129.
- "No. 28879". The London Gazette. 25 August 1914. p. 6702.
- William Van der Kloot, Lawrence Bragg's role in the development of sound-ranging in World War I, Notes and Records of the Royal Society, 22 September 2005, vol. 59, no. 3, pp. 273–284.
- Van der Kloot 2014, pp. 129–161.
- "Casualty Details: Bragg, Robert Charles". Commonwealth War Graves Commission. Retrieved 3 September 2010.
- "No. 30450". The London Gazette (Supplement). 1 January 1918. p. 32. MC
- "No. 30576". The London Gazette (Supplement). 15 March 1918. p. 3289. OBE
- "No. 29623". The London Gazette (Supplement). 13 June 1916. p. 5930. mid
- "No. 29890". The London Gazette (Supplement). 2 January 1917. p. 207. mid
- "No. 31437". The London Gazette (Supplement). 4 July 1919. p. 8523. mid
- Van der Kloot 2014, pp. 207–208.
- Newsletter 1936-1937. Withington Girls' School. 1937.
- Bragg, W. Lawrence (1965). "Reginald William James. 1891-1964". Biographical Memoirs of Fellows of the Royal Society. 11: 114–125. doi:10.1098/rsbm.1965.0007. JSTOR 769264.
- Phillips 1979, p. 117.
- Phillips 1979, p.118
- Bragg, Sir Lawrence; J. C. Kendrew; M. F. Perutz (1950). "Polypeptide chain configurations in crystalline proteins". Proc. R. Soc. Lond. A. 203 (1074): 321–357. doi:10.1098/rspa.1950.0142.
- "Maurice Wilkins - Facts". Nobel Prize. Nobel Foundation. Retrieved 26 April 2018.
- Phillips 1979 ,p.126.
- Blake, C.C.F; D. F. Koenig; G. A. Mair; A. C. T North; D. C. Phillips; V. R. Sarma (1965). "Structure of egg-white lysozome". Nature. 206 (4986): 757–761. doi:10.1038/206757a0.
- Bragg et al. 1950.
- Thomson, Patience (2013). "A tribute to W. L. Bragg by his younger daughter" (PDF). Acta Crystallographica Section A. A69: 5–7. Retrieved 24 December 2012.
- Crick, Francis (1989). What Mad Pursuit. Weidenfeld & Nicolson. p. 53. ISBN 978-0140119732.
- G K Hunter 2004 Light is a Messenger Oxford:OUP
- "No. 35029". The London Gazette (Supplement). 31 December 1940. p. 1. Knight bachelor
- "No. 44210". The London Gazette (Supplement). 30 December 1966. p. 26. CH
- Bragg Gold Medal for Excellence in Physics Archived 14 July 2014 at the Wayback Machine
- Hunter, Graeme. Light Is A Messenger, the Life and Science of William Lawrence Bragg, ISBN 0-19-852921-X; Oxford University Press, 2004.
- John Finch; A Nobel Fellow On Every Floor, Medical Research Council 2008, 381 pp, ISBN 978-1-84046-940-0; (This book is about the MRC Laboratory of Molecular Biology, Cambridge.)
- Ridley, Matt; Francis Crick: Discoverer of the Genetic Code (Eminent Lives), first published in July 2006 in the United States, and then in the UK in September 2006, by HarperCollins Publishers; 192 pp, ISBN 0-06-082333-X (This short book is in the publisher's "Eminent Lives" series).
- John Jenkin: "William and Lawrence Bragg, Father and Son: The Most Extraordinary Collaboration in Science", Oxford University Press, 2008.
- Media related to William Lawrence Bragg at Wikimedia Commons
- First press stories on DNA
- Nobelprize.org – The Nobel Prize for Physics in 1915
- Nobel Biography
- A collection of digitised materials related to Bragg's and Linus Pauling's structural chemistry research.
- Key Participants: Sir William Lawrence Bragg – Linus Pauling and the Race for DNA: A Documentary History
- NOVA Episode on Photograph 51
- Oral History interview transcript with William Lawrence Bragg 20 June 1969, American Institute of Physics, Niels Bohr Library and Archives
- Bragg, Lawrence (Sir) (1890–1971) National Library of Australia, Trove, People and Organisation record for William Lawrence Bragg
- The Nature of Things: Oil, Soap and Detergent, Ri Channel video, November 1959
- The Nature of Things: Atoms and Molecules, Ri Channel video, October 1959
- The Nature of Things: Solids, Liquids and Gases, Ri Channel video, November 1959