Biography of Famous Chemists Lawrence Bragg
Sir Lawrence Bragg: Pioneering X-ray Crystallography
Sir Lawrence Bragg, born on March 31, 1890, in Adelaide, Australia, emerged as a trailblazer in the field of X-ray crystallography, ultimately becoming the youngest Nobel laureate in physics. His groundbreaking work on the analysis of crystal structures laid the foundation for advancements in various scientific disciplines.
Early Life and Education:
Lawrence Bragg came from an academic family; his father, Sir William Henry Bragg, was a renowned physicist. Lawrence’s early education included studies at the University of Adelaide, where he excelled in mathematics and physics. At the age of 16, he won a scholarship to study at Trinity College, Cambridge.
Collaboration with his Father:
At Cambridge, Lawrence Bragg collaborated with his father, Sir William Bragg, on research involving X-rays. In 1912, they jointly formulated Bragg’s Law, a fundamental principle in X-ray crystallography that describes the relationship between the angles of incidence and diffraction for X-rays interacting with a crystal lattice. This breakthrough laid the groundwork for understanding crystal structures.
World War I and Military Service:
During World War I, Lawrence Bragg served in the Royal Horse Artillery. Despite his military duties, he continued to contribute to scientific research. In 1915, he was awarded the Military Cross for his bravery in the Battle of Gallipoli.
Professorship and Research:
After the war, Bragg returned to academic pursuits. In 1921, at the age of 31, he became the Cavendish Professor of Physics at the University of Manchester. His tenure there marked a prolific period of research. In 1923, he was awarded the Nobel Prize in Physics, becoming the youngest Nobel laureate in a scientific field at that time.
X-ray Crystallography Advancements:
Under Bragg’s leadership, the Manchester laboratory became a hub for X-ray crystallography research. In 1925, he published “X-rays and Crystal Structure,” a seminal work that elucidated the principles and applications of X-ray crystallography. This method revolutionized the understanding of the arrangement of atoms within crystals, leading to crucial insights in various scientific disciplines, including chemistry and biology.
Return to Cambridge:
In 1937, Bragg returned to Cambridge as the Director of the Cavendish Laboratory. During his directorship, the laboratory continued to thrive as a center for innovative research. Bragg’s leadership was instrumental in the development of radar technology during World War II.
Later Career and Legacy:
After the war, Bragg served as the Principal and Vice-Chancellor of the University of Edinburgh from 1947 to 1951. He also played a significant role in the establishment of the Australian National University (ANU) in Canberra.
Lawrence Bragg’s contributions extended beyond his scientific achievements. He was an advocate for the peaceful use of atomic energy and a supporter of international scientific collaboration. In 1966, he was knighted for his services to science.
Sir Lawrence Bragg passed away on July 1, 1971, leaving a lasting legacy in the scientific community. X-ray crystallography, a technique he helped pioneer, continues to be a cornerstone in the study of molecular structures, influencing fields such as chemistry, biology, and materials science. Bragg’s work laid the foundation for our understanding of the microscopic world, and his influence resonates in the countless discoveries made possible through X-ray crystallography.